Abstract

In this paper, a monolithically integrated ∼1.55 µm semiconductor laser in the fourth harmonic colliding pulse mode locking configuration is reported. This device was developed within a multi-project wafer run at an InP-based active-passive generic foundry. The 1.66-mm Fabry-Pérot cavity is formed with two on-chip reflector building blocks rather than cleaved facets. In the cavity, three absorber sections symmetrically divide the cavity in four gain segments. This laser diode is able to emit 100-GHz pulse trains with 500-fs pulse duration as well as two-tone emissions with a frequency separation of 2.7 THz. The dependence of the spectral behavior on the forward bias current for gain sections and the reverse bias voltage for absorber sections are experimentally demonstrated.

© 2018 Optical Society of America under the terms of the OSA Open Access Publishing Agreement

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  1. E. Avrutin, J. Marsh, and E. Portnoi, “Monolithic and multi-gigahertz mode-locked semiconductor lasers: constructions, experiments, models and applications,” IEE Proceedings-Optoelectronics 147, 251–278 (2000).
    [Crossref]
  2. P. J. Delfyett, A. Ardey, S. P. Bhooplapur, and E. Sarailou, “InP-based device technologies for signal processing using ultrafast frequency combs,” IEEE J. Sel. Top. Quantum Electron. 24, 1–13 (2018).
    [Crossref]
  3. M.-C. Lo, R. C. G. Martínez, and G. Carpintero, “Monolithic mode locked laser-based optical frequency comb for OFDM integrated on InP generic technology platform,” in “Optical Fiber Communication Conference,” (Optical Society of America, 2018), pp. Th1I–1.
  4. J. H. Marsh and L. Hou, “Mode-locked laser diodes and their monolithic integration,” IEEE J. Sel. Top. Quantum Electron. 23, 1–11 (2017).
    [Crossref]
  5. Y. K. Chen, M. C. Wu, T. Tanbun-Ek, R. A. Logan, and M. A. Chin, “Subpicosecond monolithic colliding-pulse mode-locked multiple quantum well lasers,” Appl. Phys. Lett. 58, 1253–1255 (1991).
    [Crossref]
  6. E. A. Avrutin, J. H. Marsh, J. M. Arnold, T. F. Krauss, H. Pottinger, and R. M. D. la Rue, “Analysis of harmonic (sub) THz passive mode-locking in monolithic compound cavity Fabry-Perot and ring laser diodes,” IEE Proc. - Optoelectronics 146, 55–61 (1999).
    [Crossref]
  7. S. Arahira, S. Oshiba, Y. Matsui, T. Kunii, and Y. Ogawa, “Terahertz-rate optical pulse generation from a passively mode-locked semiconductor laser diode,” Opt. Lett. 19, 834–836 (1994).
    [Crossref] [PubMed]
  8. S. Arahira, S. Oshiba, Y. Matsui, T. Kunii, and Y. Ogawa, “500 GHz optical short pulse generation from a monolithic passively mode-locked distributed Bragg reflector laser diode,” Appl. Phys. Lett. 64, 1917–1919 (1994).
    [Crossref]
  9. Y. Katagiri and A. Takada, “A harmonic colliding-pulse mode-locked semiconductor laser for stable subterahertz pulse generation,” IEEE Photonics Technol. Lett. 9, 1442–1444 (1997).
    [Crossref]
  10. J. F. Martins-Filho, E. A. Avrutin, C. N. Ironside, and J. S. Roberts, “Monolithic multiple colliding pulse mode-locked quantum-well lasers, experiment and theory,” IEEE J. Sel. Top. Quantum Electron. 1, 539–551 (1995).
    [Crossref]
  11. L. Hou, M. Haji, and J. H. Marsh, “240 GHz pedestal-free colliding-pulse mode-locked laser with a wide operation range,” Laser Phys. Lett. 11, 115804 (2014).
    [Crossref]
  12. E. Kleijn, M. K. Smit, and X. J. Leijtens, “Multimode interference reflectors: a new class of components for photonic integrated circuits,” J. Light. Technol. 31, 3055–3063 (2013).
    [Crossref]
  13. S. Stopinski, M. Malinowski, R. Piramidowicz, C. Kazmierski, M. K. Smit, and X. J. Leijtens, “Photonic integrated multichannel wdm modulators for data read-out units,” J. Light. Technol. 32, 3879–3887 (2014).
    [Crossref]
  14. D. d’Agostino, D. Lenstra, H. Ambrosius, and M. Smit, “Coupled cavity laser based on anti-resonant imaging via multimode interference,” Opt. Lett. 40, 653–656 (2015).
    [Crossref]
  15. P. E. Morrissey, N. Kelly, M. Dernaika, L. Caro, H. Yang, and F. H. Peters, “Coupled cavity single-mode laser based on regrowth-free integrated MMI reflectors,” IEEE Photonics Technol. Lett 28, 1313–1316 (2016).
    [Crossref]
  16. N. P. Kelly, M. Dernaika, L. Caro, P. E. Morrissey, A. H. Perrott, J. K. Alexander, and F. H. Peters, “Regrowth-free single mode laser based on dual port multimode interference reflector,” IEEE Photonics Technol. Lett. 29, 279–282 (2017).
    [Crossref]
  17. M.-C. Lo, R. Guzmán, and G. Carpintero, “InP femtosecond mode-locked laser in a compound feedback cavity with a switchable repetition rate,” Opt. Lett. 43, 507–510 (2018).
    [Crossref] [PubMed]
  18. M.-C. Lo, R. Guzmán, C. Gordón, and G. Carpintero, “Mode-locked laser with pulse interleavers in a monolithic photonic integrated circuit for millimeter wave and terahertz carrier generation,” Opt. Lett. 42, 1532–1535 (2017).
    [Crossref] [PubMed]
  19. C. Gordón, R. Guzmán, V. Corral, X. Leijtens, and G. Carpintero, “On-chip colliding pulse mode-locked laser diode (OCCP-MLLD) using multimode interference reflectors,” Opt. Express 23, 14666–14676 (2015).
    [Crossref] [PubMed]
  20. M.-C. Lo, R. Guzmán, M. Ali, R. Santos, L. Augustin, and G. Carpintero, “1.8-thz-wide optical frequency comb emitted from monolithic passively mode-locked semiconductor quantum-well laser,” Opt. Lett. 42, 3872–3875 (2017).
    [Crossref] [PubMed]
  21. M. J. Heck, E. A. Bente, Y. Barbarin, A. Fryda, H.-D. Jung, Y.-S. Oei, R. Notzel, D. Lenstra, and M. K. Smit, “Characterization of a monolithic concatenated SOA/SA waveguide device for picosecond pulse amplification and shaping,” IEEE J. Quantum Electron. 44, 360–369 (2008).
    [Crossref]
  22. D. Wake, C. R. Lima, and P. A. Davies, “Optical generation of millimeter-wave signals for fiber-radio systems using a dual-mode DFB semiconductor laser,” IEEE Transactions on microwave Theory Tech. 43, 2270–2276 (1995).
    [Crossref]
  23. N. Kim, S.-P. Han, H. Ko, Y. A. Leem, H.-C. Ryu, C. W. Lee, D. Lee, M. Y. Jeon, S. K. Noh, and K. H. Park, “Tunable continuous-wave terahertz generation/detection with compact 1.55 µ m detuned dual-mode laser diode and InGaAs based photomixer,” Opt. Express 19, 15397–15403 (2011).
    [Crossref] [PubMed]
  24. N. Kim, S.-P. Han, H.-C. Ryu, H. Ko, J.-W. Park, D. Lee, M. Y. Jeon, and K. H. Park, “Distributed feedback laser diode integrated with distributed Bragg reflector for continuous-wave terahertz generation,” Opt. Express 20, 17496–17502 (2012).
    [Crossref] [PubMed]
  25. M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
    [Crossref]
  26. L. M. Augustin, R. Santos, E. den Haan, S. Kleijn, P. J. A. Thijs, S. Latkowski, D. Zhao, W. Yao, J. Bolk, H. Ambrosius, S. Mingaleev, A. Richter, A. Bakker, and T. Korthorst, “InP-based generic foundry platform for photonic integrated circuits,” IEEE J. Sel. Top. Quantum Electron. 24, 1–10 (2018).
    [Crossref]
  27. V. Moskalenko, S. Latkowski, S. Tahvili, T. de Vries, M. Smit, and E. Bente, “Record bandwidth and sub-picosecond pulses from a monolithically integrated mode-locked quantum well ring laser,” Opt. Express 22, 28865–28874 (2014).
    [Crossref] [PubMed]
  28. S. Latkowski, V. Moskalenko, S. Tahvili, L. Augustin, M. Smit, K. Williams, and E. Bente, “Monolithically integrated 2.5 GHz extended cavity mode-locked ring laser with intracavity phase modulators,” Opt. Lett. 40, 77–80 (2015).
    [Crossref]
  29. P. Stolarz, J. Javaloyes, G. Mezosi, L. Hou, C. Ironside, M. Sorel, A. Bryce, and S. Balle, “Spectral dynamical behavior in passively mode-locked semiconductor lasers,” IEEE Photonics J. 3, 1067–1082 (2011).
    [Crossref]

2018 (3)

P. J. Delfyett, A. Ardey, S. P. Bhooplapur, and E. Sarailou, “InP-based device technologies for signal processing using ultrafast frequency combs,” IEEE J. Sel. Top. Quantum Electron. 24, 1–13 (2018).
[Crossref]

M.-C. Lo, R. Guzmán, and G. Carpintero, “InP femtosecond mode-locked laser in a compound feedback cavity with a switchable repetition rate,” Opt. Lett. 43, 507–510 (2018).
[Crossref] [PubMed]

L. M. Augustin, R. Santos, E. den Haan, S. Kleijn, P. J. A. Thijs, S. Latkowski, D. Zhao, W. Yao, J. Bolk, H. Ambrosius, S. Mingaleev, A. Richter, A. Bakker, and T. Korthorst, “InP-based generic foundry platform for photonic integrated circuits,” IEEE J. Sel. Top. Quantum Electron. 24, 1–10 (2018).
[Crossref]

2017 (4)

N. P. Kelly, M. Dernaika, L. Caro, P. E. Morrissey, A. H. Perrott, J. K. Alexander, and F. H. Peters, “Regrowth-free single mode laser based on dual port multimode interference reflector,” IEEE Photonics Technol. Lett. 29, 279–282 (2017).
[Crossref]

M.-C. Lo, R. Guzmán, C. Gordón, and G. Carpintero, “Mode-locked laser with pulse interleavers in a monolithic photonic integrated circuit for millimeter wave and terahertz carrier generation,” Opt. Lett. 42, 1532–1535 (2017).
[Crossref] [PubMed]

M.-C. Lo, R. Guzmán, M. Ali, R. Santos, L. Augustin, and G. Carpintero, “1.8-thz-wide optical frequency comb emitted from monolithic passively mode-locked semiconductor quantum-well laser,” Opt. Lett. 42, 3872–3875 (2017).
[Crossref] [PubMed]

J. H. Marsh and L. Hou, “Mode-locked laser diodes and their monolithic integration,” IEEE J. Sel. Top. Quantum Electron. 23, 1–11 (2017).
[Crossref]

2016 (1)

P. E. Morrissey, N. Kelly, M. Dernaika, L. Caro, H. Yang, and F. H. Peters, “Coupled cavity single-mode laser based on regrowth-free integrated MMI reflectors,” IEEE Photonics Technol. Lett 28, 1313–1316 (2016).
[Crossref]

2015 (3)

2014 (4)

V. Moskalenko, S. Latkowski, S. Tahvili, T. de Vries, M. Smit, and E. Bente, “Record bandwidth and sub-picosecond pulses from a monolithically integrated mode-locked quantum well ring laser,” Opt. Express 22, 28865–28874 (2014).
[Crossref] [PubMed]

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

S. Stopinski, M. Malinowski, R. Piramidowicz, C. Kazmierski, M. K. Smit, and X. J. Leijtens, “Photonic integrated multichannel wdm modulators for data read-out units,” J. Light. Technol. 32, 3879–3887 (2014).
[Crossref]

L. Hou, M. Haji, and J. H. Marsh, “240 GHz pedestal-free colliding-pulse mode-locked laser with a wide operation range,” Laser Phys. Lett. 11, 115804 (2014).
[Crossref]

2013 (1)

E. Kleijn, M. K. Smit, and X. J. Leijtens, “Multimode interference reflectors: a new class of components for photonic integrated circuits,” J. Light. Technol. 31, 3055–3063 (2013).
[Crossref]

2012 (1)

2011 (2)

N. Kim, S.-P. Han, H. Ko, Y. A. Leem, H.-C. Ryu, C. W. Lee, D. Lee, M. Y. Jeon, S. K. Noh, and K. H. Park, “Tunable continuous-wave terahertz generation/detection with compact 1.55 µ m detuned dual-mode laser diode and InGaAs based photomixer,” Opt. Express 19, 15397–15403 (2011).
[Crossref] [PubMed]

P. Stolarz, J. Javaloyes, G. Mezosi, L. Hou, C. Ironside, M. Sorel, A. Bryce, and S. Balle, “Spectral dynamical behavior in passively mode-locked semiconductor lasers,” IEEE Photonics J. 3, 1067–1082 (2011).
[Crossref]

2008 (1)

M. J. Heck, E. A. Bente, Y. Barbarin, A. Fryda, H.-D. Jung, Y.-S. Oei, R. Notzel, D. Lenstra, and M. K. Smit, “Characterization of a monolithic concatenated SOA/SA waveguide device for picosecond pulse amplification and shaping,” IEEE J. Quantum Electron. 44, 360–369 (2008).
[Crossref]

2000 (1)

E. Avrutin, J. Marsh, and E. Portnoi, “Monolithic and multi-gigahertz mode-locked semiconductor lasers: constructions, experiments, models and applications,” IEE Proceedings-Optoelectronics 147, 251–278 (2000).
[Crossref]

1999 (1)

E. A. Avrutin, J. H. Marsh, J. M. Arnold, T. F. Krauss, H. Pottinger, and R. M. D. la Rue, “Analysis of harmonic (sub) THz passive mode-locking in monolithic compound cavity Fabry-Perot and ring laser diodes,” IEE Proc. - Optoelectronics 146, 55–61 (1999).
[Crossref]

1997 (1)

Y. Katagiri and A. Takada, “A harmonic colliding-pulse mode-locked semiconductor laser for stable subterahertz pulse generation,” IEEE Photonics Technol. Lett. 9, 1442–1444 (1997).
[Crossref]

1995 (2)

J. F. Martins-Filho, E. A. Avrutin, C. N. Ironside, and J. S. Roberts, “Monolithic multiple colliding pulse mode-locked quantum-well lasers, experiment and theory,” IEEE J. Sel. Top. Quantum Electron. 1, 539–551 (1995).
[Crossref]

D. Wake, C. R. Lima, and P. A. Davies, “Optical generation of millimeter-wave signals for fiber-radio systems using a dual-mode DFB semiconductor laser,” IEEE Transactions on microwave Theory Tech. 43, 2270–2276 (1995).
[Crossref]

1994 (2)

S. Arahira, S. Oshiba, Y. Matsui, T. Kunii, and Y. Ogawa, “Terahertz-rate optical pulse generation from a passively mode-locked semiconductor laser diode,” Opt. Lett. 19, 834–836 (1994).
[Crossref] [PubMed]

S. Arahira, S. Oshiba, Y. Matsui, T. Kunii, and Y. Ogawa, “500 GHz optical short pulse generation from a monolithic passively mode-locked distributed Bragg reflector laser diode,” Appl. Phys. Lett. 64, 1917–1919 (1994).
[Crossref]

1991 (1)

Y. K. Chen, M. C. Wu, T. Tanbun-Ek, R. A. Logan, and M. A. Chin, “Subpicosecond monolithic colliding-pulse mode-locked multiple quantum well lasers,” Appl. Phys. Lett. 58, 1253–1255 (1991).
[Crossref]

Achouche, M.

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

Alexander, J. K.

N. P. Kelly, M. Dernaika, L. Caro, P. E. Morrissey, A. H. Perrott, J. K. Alexander, and F. H. Peters, “Regrowth-free single mode laser based on dual port multimode interference reflector,” IEEE Photonics Technol. Lett. 29, 279–282 (2017).
[Crossref]

Ali, M.

Ambrosius, H.

L. M. Augustin, R. Santos, E. den Haan, S. Kleijn, P. J. A. Thijs, S. Latkowski, D. Zhao, W. Yao, J. Bolk, H. Ambrosius, S. Mingaleev, A. Richter, A. Bakker, and T. Korthorst, “InP-based generic foundry platform for photonic integrated circuits,” IEEE J. Sel. Top. Quantum Electron. 24, 1–10 (2018).
[Crossref]

D. d’Agostino, D. Lenstra, H. Ambrosius, and M. Smit, “Coupled cavity laser based on anti-resonant imaging via multimode interference,” Opt. Lett. 40, 653–656 (2015).
[Crossref]

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

Arahira, S.

S. Arahira, S. Oshiba, Y. Matsui, T. Kunii, and Y. Ogawa, “500 GHz optical short pulse generation from a monolithic passively mode-locked distributed Bragg reflector laser diode,” Appl. Phys. Lett. 64, 1917–1919 (1994).
[Crossref]

S. Arahira, S. Oshiba, Y. Matsui, T. Kunii, and Y. Ogawa, “Terahertz-rate optical pulse generation from a passively mode-locked semiconductor laser diode,” Opt. Lett. 19, 834–836 (1994).
[Crossref] [PubMed]

Ardey, A.

P. J. Delfyett, A. Ardey, S. P. Bhooplapur, and E. Sarailou, “InP-based device technologies for signal processing using ultrafast frequency combs,” IEEE J. Sel. Top. Quantum Electron. 24, 1–13 (2018).
[Crossref]

Arnold, J. M.

E. A. Avrutin, J. H. Marsh, J. M. Arnold, T. F. Krauss, H. Pottinger, and R. M. D. la Rue, “Analysis of harmonic (sub) THz passive mode-locking in monolithic compound cavity Fabry-Perot and ring laser diodes,” IEE Proc. - Optoelectronics 146, 55–61 (1999).
[Crossref]

Augustin, L.

M.-C. Lo, R. Guzmán, M. Ali, R. Santos, L. Augustin, and G. Carpintero, “1.8-thz-wide optical frequency comb emitted from monolithic passively mode-locked semiconductor quantum-well laser,” Opt. Lett. 42, 3872–3875 (2017).
[Crossref] [PubMed]

S. Latkowski, V. Moskalenko, S. Tahvili, L. Augustin, M. Smit, K. Williams, and E. Bente, “Monolithically integrated 2.5 GHz extended cavity mode-locked ring laser with intracavity phase modulators,” Opt. Lett. 40, 77–80 (2015).
[Crossref]

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

Augustin, L. M.

L. M. Augustin, R. Santos, E. den Haan, S. Kleijn, P. J. A. Thijs, S. Latkowski, D. Zhao, W. Yao, J. Bolk, H. Ambrosius, S. Mingaleev, A. Richter, A. Bakker, and T. Korthorst, “InP-based generic foundry platform for photonic integrated circuits,” IEEE J. Sel. Top. Quantum Electron. 24, 1–10 (2018).
[Crossref]

Avrutin, E.

E. Avrutin, J. Marsh, and E. Portnoi, “Monolithic and multi-gigahertz mode-locked semiconductor lasers: constructions, experiments, models and applications,” IEE Proceedings-Optoelectronics 147, 251–278 (2000).
[Crossref]

Avrutin, E. A.

E. A. Avrutin, J. H. Marsh, J. M. Arnold, T. F. Krauss, H. Pottinger, and R. M. D. la Rue, “Analysis of harmonic (sub) THz passive mode-locking in monolithic compound cavity Fabry-Perot and ring laser diodes,” IEE Proc. - Optoelectronics 146, 55–61 (1999).
[Crossref]

J. F. Martins-Filho, E. A. Avrutin, C. N. Ironside, and J. S. Roberts, “Monolithic multiple colliding pulse mode-locked quantum-well lasers, experiment and theory,” IEEE J. Sel. Top. Quantum Electron. 1, 539–551 (1995).
[Crossref]

Bakker, A.

L. M. Augustin, R. Santos, E. den Haan, S. Kleijn, P. J. A. Thijs, S. Latkowski, D. Zhao, W. Yao, J. Bolk, H. Ambrosius, S. Mingaleev, A. Richter, A. Bakker, and T. Korthorst, “InP-based generic foundry platform for photonic integrated circuits,” IEEE J. Sel. Top. Quantum Electron. 24, 1–10 (2018).
[Crossref]

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

Balle, S.

P. Stolarz, J. Javaloyes, G. Mezosi, L. Hou, C. Ironside, M. Sorel, A. Bryce, and S. Balle, “Spectral dynamical behavior in passively mode-locked semiconductor lasers,” IEEE Photonics J. 3, 1067–1082 (2011).
[Crossref]

Barbarin, Y.

M. J. Heck, E. A. Bente, Y. Barbarin, A. Fryda, H.-D. Jung, Y.-S. Oei, R. Notzel, D. Lenstra, and M. K. Smit, “Characterization of a monolithic concatenated SOA/SA waveguide device for picosecond pulse amplification and shaping,” IEEE J. Quantum Electron. 44, 360–369 (2008).
[Crossref]

Bente, E.

S. Latkowski, V. Moskalenko, S. Tahvili, L. Augustin, M. Smit, K. Williams, and E. Bente, “Monolithically integrated 2.5 GHz extended cavity mode-locked ring laser with intracavity phase modulators,” Opt. Lett. 40, 77–80 (2015).
[Crossref]

V. Moskalenko, S. Latkowski, S. Tahvili, T. de Vries, M. Smit, and E. Bente, “Record bandwidth and sub-picosecond pulses from a monolithically integrated mode-locked quantum well ring laser,” Opt. Express 22, 28865–28874 (2014).
[Crossref] [PubMed]

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

Bente, E. A.

M. J. Heck, E. A. Bente, Y. Barbarin, A. Fryda, H.-D. Jung, Y.-S. Oei, R. Notzel, D. Lenstra, and M. K. Smit, “Characterization of a monolithic concatenated SOA/SA waveguide device for picosecond pulse amplification and shaping,” IEEE J. Quantum Electron. 44, 360–369 (2008).
[Crossref]

Bhat, S.

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

Bhooplapur, S. P.

P. J. Delfyett, A. Ardey, S. P. Bhooplapur, and E. Sarailou, “InP-based device technologies for signal processing using ultrafast frequency combs,” IEEE J. Sel. Top. Quantum Electron. 24, 1–13 (2018).
[Crossref]

Bitincka, E.

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

Bolk, J.

L. M. Augustin, R. Santos, E. den Haan, S. Kleijn, P. J. A. Thijs, S. Latkowski, D. Zhao, W. Yao, J. Bolk, H. Ambrosius, S. Mingaleev, A. Richter, A. Bakker, and T. Korthorst, “InP-based generic foundry platform for photonic integrated circuits,” IEEE J. Sel. Top. Quantum Electron. 24, 1–10 (2018).
[Crossref]

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

Broeke, R.

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

Bryce, A.

P. Stolarz, J. Javaloyes, G. Mezosi, L. Hou, C. Ironside, M. Sorel, A. Bryce, and S. Balle, “Spectral dynamical behavior in passively mode-locked semiconductor lasers,” IEEE Photonics J. 3, 1067–1082 (2011).
[Crossref]

Caro, L.

N. P. Kelly, M. Dernaika, L. Caro, P. E. Morrissey, A. H. Perrott, J. K. Alexander, and F. H. Peters, “Regrowth-free single mode laser based on dual port multimode interference reflector,” IEEE Photonics Technol. Lett. 29, 279–282 (2017).
[Crossref]

P. E. Morrissey, N. Kelly, M. Dernaika, L. Caro, H. Yang, and F. H. Peters, “Coupled cavity single-mode laser based on regrowth-free integrated MMI reflectors,” IEEE Photonics Technol. Lett 28, 1313–1316 (2016).
[Crossref]

Carpintero, G.

Chen, Y. K.

Y. K. Chen, M. C. Wu, T. Tanbun-Ek, R. A. Logan, and M. A. Chin, “Subpicosecond monolithic colliding-pulse mode-locked multiple quantum well lasers,” Appl. Phys. Lett. 58, 1253–1255 (1991).
[Crossref]

Chin, M. A.

Y. K. Chen, M. C. Wu, T. Tanbun-Ek, R. A. Logan, and M. A. Chin, “Subpicosecond monolithic colliding-pulse mode-locked multiple quantum well lasers,” Appl. Phys. Lett. 58, 1253–1255 (1991).
[Crossref]

Corradi, A.

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

Corral, V.

d’Agostino, D.

DâAZAgostino, D.

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

Dabbs, A.

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

Davies, P. A.

D. Wake, C. R. Lima, and P. A. Davies, “Optical generation of millimeter-wave signals for fiber-radio systems using a dual-mode DFB semiconductor laser,” IEEE Transactions on microwave Theory Tech. 43, 2270–2276 (1995).
[Crossref]

de Vries, T.

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

V. Moskalenko, S. Latkowski, S. Tahvili, T. de Vries, M. Smit, and E. Bente, “Record bandwidth and sub-picosecond pulses from a monolithically integrated mode-locked quantum well ring laser,” Opt. Express 22, 28865–28874 (2014).
[Crossref] [PubMed]

Debregeas, H.

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

Delfyett, P. J.

P. J. Delfyett, A. Ardey, S. P. Bhooplapur, and E. Sarailou, “InP-based device technologies for signal processing using ultrafast frequency combs,” IEEE J. Sel. Top. Quantum Electron. 24, 1–13 (2018).
[Crossref]

den Haan, E.

L. M. Augustin, R. Santos, E. den Haan, S. Kleijn, P. J. A. Thijs, S. Latkowski, D. Zhao, W. Yao, J. Bolk, H. Ambrosius, S. Mingaleev, A. Richter, A. Bakker, and T. Korthorst, “InP-based generic foundry platform for photonic integrated circuits,” IEEE J. Sel. Top. Quantum Electron. 24, 1–10 (2018).
[Crossref]

Dernaika, M.

N. P. Kelly, M. Dernaika, L. Caro, P. E. Morrissey, A. H. Perrott, J. K. Alexander, and F. H. Peters, “Regrowth-free single mode laser based on dual port multimode interference reflector,” IEEE Photonics Technol. Lett. 29, 279–282 (2017).
[Crossref]

P. E. Morrissey, N. Kelly, M. Dernaika, L. Caro, H. Yang, and F. H. Peters, “Coupled cavity single-mode laser based on regrowth-free integrated MMI reflectors,” IEEE Photonics Technol. Lett 28, 1313–1316 (2016).
[Crossref]

Dzibrou, D.

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

Felicetti, M.

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

Firth, P.

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

Fryda, A.

M. J. Heck, E. A. Bente, Y. Barbarin, A. Fryda, H.-D. Jung, Y.-S. Oei, R. Notzel, D. Lenstra, and M. K. Smit, “Characterization of a monolithic concatenated SOA/SA waveguide device for picosecond pulse amplification and shaping,” IEEE J. Quantum Electron. 44, 360–369 (2008).
[Crossref]

Gallagher, D.

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

Geluk, E.-J.

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

Gentner, J.-L.

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

Gilardi, G.

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

Gordón, C.

Grote, N.

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

Guzmán, R.

Haji, M.

L. Hou, M. Haji, and J. H. Marsh, “240 GHz pedestal-free colliding-pulse mode-locked laser with a wide operation range,” Laser Phys. Lett. 11, 115804 (2014).
[Crossref]

Han, S.-P.

Heck, M. J.

M. J. Heck, E. A. Bente, Y. Barbarin, A. Fryda, H.-D. Jung, Y.-S. Oei, R. Notzel, D. Lenstra, and M. K. Smit, “Characterization of a monolithic concatenated SOA/SA waveguide device for picosecond pulse amplification and shaping,” IEEE J. Quantum Electron. 44, 360–369 (2008).
[Crossref]

Heiss, D.

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

Hou, L.

J. H. Marsh and L. Hou, “Mode-locked laser diodes and their monolithic integration,” IEEE J. Sel. Top. Quantum Electron. 23, 1–11 (2017).
[Crossref]

L. Hou, M. Haji, and J. H. Marsh, “240 GHz pedestal-free colliding-pulse mode-locked laser with a wide operation range,” Laser Phys. Lett. 11, 115804 (2014).
[Crossref]

P. Stolarz, J. Javaloyes, G. Mezosi, L. Hou, C. Ironside, M. Sorel, A. Bryce, and S. Balle, “Spectral dynamical behavior in passively mode-locked semiconductor lasers,” IEEE Photonics J. 3, 1067–1082 (2011).
[Crossref]

Ironside, C.

P. Stolarz, J. Javaloyes, G. Mezosi, L. Hou, C. Ironside, M. Sorel, A. Bryce, and S. Balle, “Spectral dynamical behavior in passively mode-locked semiconductor lasers,” IEEE Photonics J. 3, 1067–1082 (2011).
[Crossref]

Ironside, C. N.

J. F. Martins-Filho, E. A. Avrutin, C. N. Ironside, and J. S. Roberts, “Monolithic multiple colliding pulse mode-locked quantum-well lasers, experiment and theory,” IEEE J. Sel. Top. Quantum Electron. 1, 539–551 (1995).
[Crossref]

Javaloyes, J.

P. Stolarz, J. Javaloyes, G. Mezosi, L. Hou, C. Ironside, M. Sorel, A. Bryce, and S. Balle, “Spectral dynamical behavior in passively mode-locked semiconductor lasers,” IEEE Photonics J. 3, 1067–1082 (2011).
[Crossref]

Jeon, M. Y.

Jiao, Y.

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

Jung, H.-D.

M. J. Heck, E. A. Bente, Y. Barbarin, A. Fryda, H.-D. Jung, Y.-S. Oei, R. Notzel, D. Lenstra, and M. K. Smit, “Characterization of a monolithic concatenated SOA/SA waveguide device for picosecond pulse amplification and shaping,” IEEE J. Quantum Electron. 44, 360–369 (2008).
[Crossref]

Katagiri, Y.

Y. Katagiri and A. Takada, “A harmonic colliding-pulse mode-locked semiconductor laser for stable subterahertz pulse generation,” IEEE Photonics Technol. Lett. 9, 1442–1444 (1997).
[Crossref]

Kazmierski, C.

S. Stopinski, M. Malinowski, R. Piramidowicz, C. Kazmierski, M. K. Smit, and X. J. Leijtens, “Photonic integrated multichannel wdm modulators for data read-out units,” J. Light. Technol. 32, 3879–3887 (2014).
[Crossref]

Kelly, N.

P. E. Morrissey, N. Kelly, M. Dernaika, L. Caro, H. Yang, and F. H. Peters, “Coupled cavity single-mode laser based on regrowth-free integrated MMI reflectors,” IEEE Photonics Technol. Lett 28, 1313–1316 (2016).
[Crossref]

Kelly, N. P.

N. P. Kelly, M. Dernaika, L. Caro, P. E. Morrissey, A. H. Perrott, J. K. Alexander, and F. H. Peters, “Regrowth-free single mode laser based on dual port multimode interference reflector,” IEEE Photonics Technol. Lett. 29, 279–282 (2017).
[Crossref]

Kim, N.

Kleijn, E.

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

E. Kleijn, M. K. Smit, and X. J. Leijtens, “Multimode interference reflectors: a new class of components for photonic integrated circuits,” J. Light. Technol. 31, 3055–3063 (2013).
[Crossref]

Kleijn, S.

L. M. Augustin, R. Santos, E. den Haan, S. Kleijn, P. J. A. Thijs, S. Latkowski, D. Zhao, W. Yao, J. Bolk, H. Ambrosius, S. Mingaleev, A. Richter, A. Bakker, and T. Korthorst, “InP-based generic foundry platform for photonic integrated circuits,” IEEE J. Sel. Top. Quantum Electron. 24, 1–10 (2018).
[Crossref]

Ko, H.

Korthorst, T.

L. M. Augustin, R. Santos, E. den Haan, S. Kleijn, P. J. A. Thijs, S. Latkowski, D. Zhao, W. Yao, J. Bolk, H. Ambrosius, S. Mingaleev, A. Richter, A. Bakker, and T. Korthorst, “InP-based generic foundry platform for photonic integrated circuits,” IEEE J. Sel. Top. Quantum Electron. 24, 1–10 (2018).
[Crossref]

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

Krauss, T. F.

E. A. Avrutin, J. H. Marsh, J. M. Arnold, T. F. Krauss, H. Pottinger, and R. M. D. la Rue, “Analysis of harmonic (sub) THz passive mode-locking in monolithic compound cavity Fabry-Perot and ring laser diodes,” IEE Proc. - Optoelectronics 146, 55–61 (1999).
[Crossref]

Kuindersma, P.

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

Kunii, T.

S. Arahira, S. Oshiba, Y. Matsui, T. Kunii, and Y. Ogawa, “500 GHz optical short pulse generation from a monolithic passively mode-locked distributed Bragg reflector laser diode,” Appl. Phys. Lett. 64, 1917–1919 (1994).
[Crossref]

S. Arahira, S. Oshiba, Y. Matsui, T. Kunii, and Y. Ogawa, “Terahertz-rate optical pulse generation from a passively mode-locked semiconductor laser diode,” Opt. Lett. 19, 834–836 (1994).
[Crossref] [PubMed]

la Rue, R. M. D.

E. A. Avrutin, J. H. Marsh, J. M. Arnold, T. F. Krauss, H. Pottinger, and R. M. D. la Rue, “Analysis of harmonic (sub) THz passive mode-locking in monolithic compound cavity Fabry-Perot and ring laser diodes,” IEE Proc. - Optoelectronics 146, 55–61 (1999).
[Crossref]

Latkowski, S.

Lawniczuk, K.

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

Lee, C. W.

Lee, D.

Leem, Y. A.

Leijtens, X.

C. Gordón, R. Guzmán, V. Corral, X. Leijtens, and G. Carpintero, “On-chip colliding pulse mode-locked laser diode (OCCP-MLLD) using multimode interference reflectors,” Opt. Express 23, 14666–14676 (2015).
[Crossref] [PubMed]

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

Leijtens, X. J.

S. Stopinski, M. Malinowski, R. Piramidowicz, C. Kazmierski, M. K. Smit, and X. J. Leijtens, “Photonic integrated multichannel wdm modulators for data read-out units,” J. Light. Technol. 32, 3879–3887 (2014).
[Crossref]

E. Kleijn, M. K. Smit, and X. J. Leijtens, “Multimode interference reflectors: a new class of components for photonic integrated circuits,” J. Light. Technol. 31, 3055–3063 (2013).
[Crossref]

Lenstra, D.

D. d’Agostino, D. Lenstra, H. Ambrosius, and M. Smit, “Coupled cavity laser based on anti-resonant imaging via multimode interference,” Opt. Lett. 40, 653–656 (2015).
[Crossref]

M. J. Heck, E. A. Bente, Y. Barbarin, A. Fryda, H.-D. Jung, Y.-S. Oei, R. Notzel, D. Lenstra, and M. K. Smit, “Characterization of a monolithic concatenated SOA/SA waveguide device for picosecond pulse amplification and shaping,” IEEE J. Quantum Electron. 44, 360–369 (2008).
[Crossref]

Lima, C. R.

D. Wake, C. R. Lima, and P. A. Davies, “Optical generation of millimeter-wave signals for fiber-radio systems using a dual-mode DFB semiconductor laser,” IEEE Transactions on microwave Theory Tech. 43, 2270–2276 (1995).
[Crossref]

Lo, M.-C.

Logan, R. A.

Y. K. Chen, M. C. Wu, T. Tanbun-Ek, R. A. Logan, and M. A. Chin, “Subpicosecond monolithic colliding-pulse mode-locked multiple quantum well lasers,” Appl. Phys. Lett. 58, 1253–1255 (1991).
[Crossref]

Malinowski, M.

S. Stopinski, M. Malinowski, R. Piramidowicz, C. Kazmierski, M. K. Smit, and X. J. Leijtens, “Photonic integrated multichannel wdm modulators for data read-out units,” J. Light. Technol. 32, 3879–3887 (2014).
[Crossref]

Marsh, J.

E. Avrutin, J. Marsh, and E. Portnoi, “Monolithic and multi-gigahertz mode-locked semiconductor lasers: constructions, experiments, models and applications,” IEE Proceedings-Optoelectronics 147, 251–278 (2000).
[Crossref]

Marsh, J. H.

J. H. Marsh and L. Hou, “Mode-locked laser diodes and their monolithic integration,” IEEE J. Sel. Top. Quantum Electron. 23, 1–11 (2017).
[Crossref]

L. Hou, M. Haji, and J. H. Marsh, “240 GHz pedestal-free colliding-pulse mode-locked laser with a wide operation range,” Laser Phys. Lett. 11, 115804 (2014).
[Crossref]

E. A. Avrutin, J. H. Marsh, J. M. Arnold, T. F. Krauss, H. Pottinger, and R. M. D. la Rue, “Analysis of harmonic (sub) THz passive mode-locking in monolithic compound cavity Fabry-Perot and ring laser diodes,” IEE Proc. - Optoelectronics 146, 55–61 (1999).
[Crossref]

Martínez, R. C. G.

M.-C. Lo, R. C. G. Martínez, and G. Carpintero, “Monolithic mode locked laser-based optical frequency comb for OFDM integrated on InP generic technology platform,” in “Optical Fiber Communication Conference,” (Optical Society of America, 2018), pp. Th1I–1.

Martins-Filho, J. F.

J. F. Martins-Filho, E. A. Avrutin, C. N. Ironside, and J. S. Roberts, “Monolithic multiple colliding pulse mode-locked quantum-well lasers, experiment and theory,” IEEE J. Sel. Top. Quantum Electron. 1, 539–551 (1995).
[Crossref]

Matsui, Y.

S. Arahira, S. Oshiba, Y. Matsui, T. Kunii, and Y. Ogawa, “500 GHz optical short pulse generation from a monolithic passively mode-locked distributed Bragg reflector laser diode,” Appl. Phys. Lett. 64, 1917–1919 (1994).
[Crossref]

S. Arahira, S. Oshiba, Y. Matsui, T. Kunii, and Y. Ogawa, “Terahertz-rate optical pulse generation from a passively mode-locked semiconductor laser diode,” Opt. Lett. 19, 834–836 (1994).
[Crossref] [PubMed]

Melati, D.

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

Melloni, A.

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

Mezosi, G.

P. Stolarz, J. Javaloyes, G. Mezosi, L. Hou, C. Ironside, M. Sorel, A. Bryce, and S. Balle, “Spectral dynamical behavior in passively mode-locked semiconductor lasers,” IEEE Photonics J. 3, 1067–1082 (2011).
[Crossref]

Mingaleev, S.

L. M. Augustin, R. Santos, E. den Haan, S. Kleijn, P. J. A. Thijs, S. Latkowski, D. Zhao, W. Yao, J. Bolk, H. Ambrosius, S. Mingaleev, A. Richter, A. Bakker, and T. Korthorst, “InP-based generic foundry platform for photonic integrated circuits,” IEEE J. Sel. Top. Quantum Electron. 24, 1–10 (2018).
[Crossref]

Morichetti, F.

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

Morrissey, P. E.

N. P. Kelly, M. Dernaika, L. Caro, P. E. Morrissey, A. H. Perrott, J. K. Alexander, and F. H. Peters, “Regrowth-free single mode laser based on dual port multimode interference reflector,” IEEE Photonics Technol. Lett. 29, 279–282 (2017).
[Crossref]

P. E. Morrissey, N. Kelly, M. Dernaika, L. Caro, H. Yang, and F. H. Peters, “Coupled cavity single-mode laser based on regrowth-free integrated MMI reflectors,” IEEE Photonics Technol. Lett 28, 1313–1316 (2016).
[Crossref]

Moskalenko, V.

S. Latkowski, V. Moskalenko, S. Tahvili, L. Augustin, M. Smit, K. Williams, and E. Bente, “Monolithically integrated 2.5 GHz extended cavity mode-locked ring laser with intracavity phase modulators,” Opt. Lett. 40, 77–80 (2015).
[Crossref]

V. Moskalenko, S. Latkowski, S. Tahvili, T. de Vries, M. Smit, and E. Bente, “Record bandwidth and sub-picosecond pulses from a monolithically integrated mode-locked quantum well ring laser,” Opt. Express 22, 28865–28874 (2014).
[Crossref] [PubMed]

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

Musk, B.

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

Noh, S. K.

Notzel, R.

M. J. Heck, E. A. Bente, Y. Barbarin, A. Fryda, H.-D. Jung, Y.-S. Oei, R. Notzel, D. Lenstra, and M. K. Smit, “Characterization of a monolithic concatenated SOA/SA waveguide device for picosecond pulse amplification and shaping,” IEEE J. Quantum Electron. 44, 360–369 (2008).
[Crossref]

Oei, Y.-S.

M. J. Heck, E. A. Bente, Y. Barbarin, A. Fryda, H.-D. Jung, Y.-S. Oei, R. Notzel, D. Lenstra, and M. K. Smit, “Characterization of a monolithic concatenated SOA/SA waveguide device for picosecond pulse amplification and shaping,” IEEE J. Quantum Electron. 44, 360–369 (2008).
[Crossref]

Ogawa, Y.

S. Arahira, S. Oshiba, Y. Matsui, T. Kunii, and Y. Ogawa, “500 GHz optical short pulse generation from a monolithic passively mode-locked distributed Bragg reflector laser diode,” Appl. Phys. Lett. 64, 1917–1919 (1994).
[Crossref]

S. Arahira, S. Oshiba, Y. Matsui, T. Kunii, and Y. Ogawa, “Terahertz-rate optical pulse generation from a passively mode-locked semiconductor laser diode,” Opt. Lett. 19, 834–836 (1994).
[Crossref] [PubMed]

Oshiba, S.

S. Arahira, S. Oshiba, Y. Matsui, T. Kunii, and Y. Ogawa, “Terahertz-rate optical pulse generation from a passively mode-locked semiconductor laser diode,” Opt. Lett. 19, 834–836 (1994).
[Crossref] [PubMed]

S. Arahira, S. Oshiba, Y. Matsui, T. Kunii, and Y. Ogawa, “500 GHz optical short pulse generation from a monolithic passively mode-locked distributed Bragg reflector laser diode,” Appl. Phys. Lett. 64, 1917–1919 (1994).
[Crossref]

Park, J.-W.

Park, K. H.

Pello, J.

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

Penty, R.

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

Perrott, A. H.

N. P. Kelly, M. Dernaika, L. Caro, P. E. Morrissey, A. H. Perrott, J. K. Alexander, and F. H. Peters, “Regrowth-free single mode laser based on dual port multimode interference reflector,” IEEE Photonics Technol. Lett. 29, 279–282 (2017).
[Crossref]

Peters, F. H.

N. P. Kelly, M. Dernaika, L. Caro, P. E. Morrissey, A. H. Perrott, J. K. Alexander, and F. H. Peters, “Regrowth-free single mode laser based on dual port multimode interference reflector,” IEEE Photonics Technol. Lett. 29, 279–282 (2017).
[Crossref]

P. E. Morrissey, N. Kelly, M. Dernaika, L. Caro, H. Yang, and F. H. Peters, “Coupled cavity single-mode laser based on regrowth-free integrated MMI reflectors,” IEEE Photonics Technol. Lett 28, 1313–1316 (2016).
[Crossref]

Piramidowicz, R.

S. Stopinski, M. Malinowski, R. Piramidowicz, C. Kazmierski, M. K. Smit, and X. J. Leijtens, “Photonic integrated multichannel wdm modulators for data read-out units,” J. Light. Technol. 32, 3879–3887 (2014).
[Crossref]

Portnoi, E.

E. Avrutin, J. Marsh, and E. Portnoi, “Monolithic and multi-gigahertz mode-locked semiconductor lasers: constructions, experiments, models and applications,” IEE Proceedings-Optoelectronics 147, 251–278 (2000).
[Crossref]

Pottinger, H.

E. A. Avrutin, J. H. Marsh, J. M. Arnold, T. F. Krauss, H. Pottinger, and R. M. D. la Rue, “Analysis of harmonic (sub) THz passive mode-locking in monolithic compound cavity Fabry-Perot and ring laser diodes,” IEE Proc. - Optoelectronics 146, 55–61 (1999).
[Crossref]

Rabbani, H.

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

Richter, A.

L. M. Augustin, R. Santos, E. den Haan, S. Kleijn, P. J. A. Thijs, S. Latkowski, D. Zhao, W. Yao, J. Bolk, H. Ambrosius, S. Mingaleev, A. Richter, A. Bakker, and T. Korthorst, “InP-based generic foundry platform for photonic integrated circuits,” IEEE J. Sel. Top. Quantum Electron. 24, 1–10 (2018).
[Crossref]

Robbins, D.

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

Roberts, J. S.

J. F. Martins-Filho, E. A. Avrutin, C. N. Ironside, and J. S. Roberts, “Monolithic multiple colliding pulse mode-locked quantum-well lasers, experiment and theory,” IEEE J. Sel. Top. Quantum Electron. 1, 539–551 (1995).
[Crossref]

Roelkens, G.

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

Ryu, H.-C.

Santos, R.

L. M. Augustin, R. Santos, E. den Haan, S. Kleijn, P. J. A. Thijs, S. Latkowski, D. Zhao, W. Yao, J. Bolk, H. Ambrosius, S. Mingaleev, A. Richter, A. Bakker, and T. Korthorst, “InP-based generic foundry platform for photonic integrated circuits,” IEEE J. Sel. Top. Quantum Electron. 24, 1–10 (2018).
[Crossref]

M.-C. Lo, R. Guzmán, M. Ali, R. Santos, L. Augustin, and G. Carpintero, “1.8-thz-wide optical frequency comb emitted from monolithic passively mode-locked semiconductor quantum-well laser,” Opt. Lett. 42, 3872–3875 (2017).
[Crossref] [PubMed]

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

Sarailou, E.

P. J. Delfyett, A. Ardey, S. P. Bhooplapur, and E. Sarailou, “InP-based device technologies for signal processing using ultrafast frequency combs,” IEEE J. Sel. Top. Quantum Electron. 24, 1–13 (2018).
[Crossref]

Schell, M.

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

Smalbrugge, B.

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

Smit, M.

D. d’Agostino, D. Lenstra, H. Ambrosius, and M. Smit, “Coupled cavity laser based on anti-resonant imaging via multimode interference,” Opt. Lett. 40, 653–656 (2015).
[Crossref]

S. Latkowski, V. Moskalenko, S. Tahvili, L. Augustin, M. Smit, K. Williams, and E. Bente, “Monolithically integrated 2.5 GHz extended cavity mode-locked ring laser with intracavity phase modulators,” Opt. Lett. 40, 77–80 (2015).
[Crossref]

V. Moskalenko, S. Latkowski, S. Tahvili, T. de Vries, M. Smit, and E. Bente, “Record bandwidth and sub-picosecond pulses from a monolithically integrated mode-locked quantum well ring laser,” Opt. Express 22, 28865–28874 (2014).
[Crossref] [PubMed]

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

Smit, M. K.

S. Stopinski, M. Malinowski, R. Piramidowicz, C. Kazmierski, M. K. Smit, and X. J. Leijtens, “Photonic integrated multichannel wdm modulators for data read-out units,” J. Light. Technol. 32, 3879–3887 (2014).
[Crossref]

E. Kleijn, M. K. Smit, and X. J. Leijtens, “Multimode interference reflectors: a new class of components for photonic integrated circuits,” J. Light. Technol. 31, 3055–3063 (2013).
[Crossref]

M. J. Heck, E. A. Bente, Y. Barbarin, A. Fryda, H.-D. Jung, Y.-S. Oei, R. Notzel, D. Lenstra, and M. K. Smit, “Characterization of a monolithic concatenated SOA/SA waveguide device for picosecond pulse amplification and shaping,” IEEE J. Quantum Electron. 44, 360–369 (2008).
[Crossref]

Soares, F.

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

Sorel, M.

P. Stolarz, J. Javaloyes, G. Mezosi, L. Hou, C. Ironside, M. Sorel, A. Bryce, and S. Balle, “Spectral dynamical behavior in passively mode-locked semiconductor lasers,” IEEE Photonics J. 3, 1067–1082 (2011).
[Crossref]

Stabile, P.

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

Stolarz, P.

P. Stolarz, J. Javaloyes, G. Mezosi, L. Hou, C. Ironside, M. Sorel, A. Bryce, and S. Balle, “Spectral dynamical behavior in passively mode-locked semiconductor lasers,” IEEE Photonics J. 3, 1067–1082 (2011).
[Crossref]

Stopinski, S.

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

S. Stopinski, M. Malinowski, R. Piramidowicz, C. Kazmierski, M. K. Smit, and X. J. Leijtens, “Photonic integrated multichannel wdm modulators for data read-out units,” J. Light. Technol. 32, 3879–3887 (2014).
[Crossref]

Tahvili, S.

S. Latkowski, V. Moskalenko, S. Tahvili, L. Augustin, M. Smit, K. Williams, and E. Bente, “Monolithically integrated 2.5 GHz extended cavity mode-locked ring laser with intracavity phase modulators,” Opt. Lett. 40, 77–80 (2015).
[Crossref]

V. Moskalenko, S. Latkowski, S. Tahvili, T. de Vries, M. Smit, and E. Bente, “Record bandwidth and sub-picosecond pulses from a monolithically integrated mode-locked quantum well ring laser,” Opt. Express 22, 28865–28874 (2014).
[Crossref] [PubMed]

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

Takada, A.

Y. Katagiri and A. Takada, “A harmonic colliding-pulse mode-locked semiconductor laser for stable subterahertz pulse generation,” IEEE Photonics Technol. Lett. 9, 1442–1444 (1997).
[Crossref]

Tanbun-Ek, T.

Y. K. Chen, M. C. Wu, T. Tanbun-Ek, R. A. Logan, and M. A. Chin, “Subpicosecond monolithic colliding-pulse mode-locked multiple quantum well lasers,” Appl. Phys. Lett. 58, 1253–1255 (1991).
[Crossref]

Thijs, P.

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

Thijs, P. J. A.

L. M. Augustin, R. Santos, E. den Haan, S. Kleijn, P. J. A. Thijs, S. Latkowski, D. Zhao, W. Yao, J. Bolk, H. Ambrosius, S. Mingaleev, A. Richter, A. Bakker, and T. Korthorst, “InP-based generic foundry platform for photonic integrated circuits,” IEEE J. Sel. Top. Quantum Electron. 24, 1–10 (2018).
[Crossref]

van der Tol, J.

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

van Veldhoven, R.

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

Wake, D.

D. Wake, C. R. Lima, and P. A. Davies, “Optical generation of millimeter-wave signals for fiber-radio systems using a dual-mode DFB semiconductor laser,” IEEE Transactions on microwave Theory Tech. 43, 2270–2276 (1995).
[Crossref]

Wale, M.

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

Williams, K.

S. Latkowski, V. Moskalenko, S. Tahvili, L. Augustin, M. Smit, K. Williams, and E. Bente, “Monolithically integrated 2.5 GHz extended cavity mode-locked ring laser with intracavity phase modulators,” Opt. Lett. 40, 77–80 (2015).
[Crossref]

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

Wonfor, A.

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

Wu, M. C.

Y. K. Chen, M. C. Wu, T. Tanbun-Ek, R. A. Logan, and M. A. Chin, “Subpicosecond monolithic colliding-pulse mode-locked multiple quantum well lasers,” Appl. Phys. Lett. 58, 1253–1255 (1991).
[Crossref]

Yang, H.

P. E. Morrissey, N. Kelly, M. Dernaika, L. Caro, H. Yang, and F. H. Peters, “Coupled cavity single-mode laser based on regrowth-free integrated MMI reflectors,” IEEE Photonics Technol. Lett 28, 1313–1316 (2016).
[Crossref]

Yao, W.

L. M. Augustin, R. Santos, E. den Haan, S. Kleijn, P. J. A. Thijs, S. Latkowski, D. Zhao, W. Yao, J. Bolk, H. Ambrosius, S. Mingaleev, A. Richter, A. Bakker, and T. Korthorst, “InP-based generic foundry platform for photonic integrated circuits,” IEEE J. Sel. Top. Quantum Electron. 24, 1–10 (2018).
[Crossref]

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

Zhao, D.

L. M. Augustin, R. Santos, E. den Haan, S. Kleijn, P. J. A. Thijs, S. Latkowski, D. Zhao, W. Yao, J. Bolk, H. Ambrosius, S. Mingaleev, A. Richter, A. Bakker, and T. Korthorst, “InP-based generic foundry platform for photonic integrated circuits,” IEEE J. Sel. Top. Quantum Electron. 24, 1–10 (2018).
[Crossref]

Zhao, J.

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

Appl. Phys. Lett. (2)

Y. K. Chen, M. C. Wu, T. Tanbun-Ek, R. A. Logan, and M. A. Chin, “Subpicosecond monolithic colliding-pulse mode-locked multiple quantum well lasers,” Appl. Phys. Lett. 58, 1253–1255 (1991).
[Crossref]

S. Arahira, S. Oshiba, Y. Matsui, T. Kunii, and Y. Ogawa, “500 GHz optical short pulse generation from a monolithic passively mode-locked distributed Bragg reflector laser diode,” Appl. Phys. Lett. 64, 1917–1919 (1994).
[Crossref]

IEE Proc. - Optoelectronics (1)

E. A. Avrutin, J. H. Marsh, J. M. Arnold, T. F. Krauss, H. Pottinger, and R. M. D. la Rue, “Analysis of harmonic (sub) THz passive mode-locking in monolithic compound cavity Fabry-Perot and ring laser diodes,” IEE Proc. - Optoelectronics 146, 55–61 (1999).
[Crossref]

IEE Proceedings-Optoelectronics (1)

E. Avrutin, J. Marsh, and E. Portnoi, “Monolithic and multi-gigahertz mode-locked semiconductor lasers: constructions, experiments, models and applications,” IEE Proceedings-Optoelectronics 147, 251–278 (2000).
[Crossref]

IEEE J. Quantum Electron. (1)

M. J. Heck, E. A. Bente, Y. Barbarin, A. Fryda, H.-D. Jung, Y.-S. Oei, R. Notzel, D. Lenstra, and M. K. Smit, “Characterization of a monolithic concatenated SOA/SA waveguide device for picosecond pulse amplification and shaping,” IEEE J. Quantum Electron. 44, 360–369 (2008).
[Crossref]

IEEE J. Sel. Top. Quantum Electron. (4)

L. M. Augustin, R. Santos, E. den Haan, S. Kleijn, P. J. A. Thijs, S. Latkowski, D. Zhao, W. Yao, J. Bolk, H. Ambrosius, S. Mingaleev, A. Richter, A. Bakker, and T. Korthorst, “InP-based generic foundry platform for photonic integrated circuits,” IEEE J. Sel. Top. Quantum Electron. 24, 1–10 (2018).
[Crossref]

J. H. Marsh and L. Hou, “Mode-locked laser diodes and their monolithic integration,” IEEE J. Sel. Top. Quantum Electron. 23, 1–11 (2017).
[Crossref]

P. J. Delfyett, A. Ardey, S. P. Bhooplapur, and E. Sarailou, “InP-based device technologies for signal processing using ultrafast frequency combs,” IEEE J. Sel. Top. Quantum Electron. 24, 1–13 (2018).
[Crossref]

J. F. Martins-Filho, E. A. Avrutin, C. N. Ironside, and J. S. Roberts, “Monolithic multiple colliding pulse mode-locked quantum-well lasers, experiment and theory,” IEEE J. Sel. Top. Quantum Electron. 1, 539–551 (1995).
[Crossref]

IEEE Photonics J. (1)

P. Stolarz, J. Javaloyes, G. Mezosi, L. Hou, C. Ironside, M. Sorel, A. Bryce, and S. Balle, “Spectral dynamical behavior in passively mode-locked semiconductor lasers,” IEEE Photonics J. 3, 1067–1082 (2011).
[Crossref]

IEEE Photonics Technol. Lett (1)

P. E. Morrissey, N. Kelly, M. Dernaika, L. Caro, H. Yang, and F. H. Peters, “Coupled cavity single-mode laser based on regrowth-free integrated MMI reflectors,” IEEE Photonics Technol. Lett 28, 1313–1316 (2016).
[Crossref]

IEEE Photonics Technol. Lett. (2)

N. P. Kelly, M. Dernaika, L. Caro, P. E. Morrissey, A. H. Perrott, J. K. Alexander, and F. H. Peters, “Regrowth-free single mode laser based on dual port multimode interference reflector,” IEEE Photonics Technol. Lett. 29, 279–282 (2017).
[Crossref]

Y. Katagiri and A. Takada, “A harmonic colliding-pulse mode-locked semiconductor laser for stable subterahertz pulse generation,” IEEE Photonics Technol. Lett. 9, 1442–1444 (1997).
[Crossref]

IEEE Transactions on microwave Theory Tech. (1)

D. Wake, C. R. Lima, and P. A. Davies, “Optical generation of millimeter-wave signals for fiber-radio systems using a dual-mode DFB semiconductor laser,” IEEE Transactions on microwave Theory Tech. 43, 2270–2276 (1995).
[Crossref]

J. Light. Technol. (2)

E. Kleijn, M. K. Smit, and X. J. Leijtens, “Multimode interference reflectors: a new class of components for photonic integrated circuits,” J. Light. Technol. 31, 3055–3063 (2013).
[Crossref]

S. Stopinski, M. Malinowski, R. Piramidowicz, C. Kazmierski, M. K. Smit, and X. J. Leijtens, “Photonic integrated multichannel wdm modulators for data read-out units,” J. Light. Technol. 32, 3879–3887 (2014).
[Crossref]

Laser Phys. Lett. (1)

L. Hou, M. Haji, and J. H. Marsh, “240 GHz pedestal-free colliding-pulse mode-locked laser with a wide operation range,” Laser Phys. Lett. 11, 115804 (2014).
[Crossref]

Opt. Express (4)

Opt. Lett. (6)

Semicond. Sci. Technol. (1)

M. Smit, X. Leijtens, H. Ambrosius, E. Bente, J. van der Tol, B. Smalbrugge, T. de Vries, E.-J. Geluk, J. Bolk, R. van Veldhoven, L. Augustin, P. Thijs, D. DâĂŹAgostino, H. Rabbani, K. Lawniczuk, S. Stopinski, S. Tahvili, A. Corradi, E. Kleijn, D. Dzibrou, M. Felicetti, E. Bitincka, V. Moskalenko, J. Zhao, R. Santos, G. Gilardi, W. Yao, K. Williams, P. Stabile, P. Kuindersma, J. Pello, S. Bhat, Y. Jiao, D. Heiss, G. Roelkens, M. Wale, P. Firth, F. Soares, N. Grote, M. Schell, H. Debregeas, M. Achouche, J.-L. Gentner, A. Bakker, T. Korthorst, D. Gallagher, A. Dabbs, A. Melloni, F. Morichetti, D. Melati, A. Wonfor, R. Penty, R. Broeke, B. Musk, and D. Robbins, “An introduction to InP-based generic integration technology,” Semicond. Sci. Technol. 29, 083001 (2014).
[Crossref]

Other (1)

M.-C. Lo, R. C. G. Martínez, and G. Carpintero, “Monolithic mode locked laser-based optical frequency comb for OFDM integrated on InP generic technology platform,” in “Optical Fiber Communication Conference,” (Optical Society of America, 2018), pp. Th1I–1.

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Figures (9)

Fig. 1
Fig. 1 (a) The total cavity length L ∼ 1.66 mm is separated with three saturable absorbers that equally divide the cavity in four, L/4 ∼ 0.42 mm. (b) The Fabry-Pérot cavity defined by two multimode interference reflectors (MIR, green) has longer SOAs as gain sections (SOA) and shorter SOAs as saturable absorbers (SA). The extended connection of active components (green) is carried out with DC routing (red). The passive waveguides (blue) also contribute to the cavity length and direct the light to the waveguide outputs at facet.
Fig. 2
Fig. 2 (a) One DC probe needle electrically contacts each of the four DC pads. (b) The device under test is controlled with the voltage source VSA and the current source ISOA. The output pulse train is evaluated using the optical power meter (OPM), the optical spectrum analyzer (OSA), and the autocorrelator (AC). The polarization controller (PC) and the EDFA must be used to satisfy the polarization state and sensitivity of AC.
Fig. 3
Fig. 3 (a) Light-current-voltage (L-I-V) characteristics of the MLL PIC under test. By sweeping the forward bias gain current ISOA from 0 to 200 mA, the voltage of the parallel gain sections jumps from near zero to 1 V and then smoothly increases up to 2 V for VSA = 0 V (green). The average output power coupled by the lensed fiber also increases, exhibiting a threshold of ∼40 mA and a maximum power of ~600 µW for VSA = 1 V (red) and ~660 µW for VSA = 0 V (blue). (b) Amplified spontaneous emission (ASE) spectrum of a 400-µm-SOA with bias current from 0 mA to 100 mA.
Fig. 4
Fig. 4 (a) Optical spectrum with ISOA = 99 mA and VSA = 1 V. (b) Autocorrelation trace ISOA = 99 mA and VSA = 1 V.
Fig. 5
Fig. 5 (a) Optical spectrum with ISOA = 99 mA and VSA = 2.5 V. (b) Autocorrelation trace ISOA = 99 mA and VSA = 2.5 V.
Fig. 6
Fig. 6 Evolution of optical spectrum with ISOA = 30 – 150 mA and VSA = 1 V.
Fig. 7
Fig. 7 Evolution of optical spectrum with ISOA = 100 mA and VSA = 0 – 6 V.
Fig. 8
Fig. 8 (a) Optical spectrum, and (b) autocorrelation trace for 1 THz dual-mode emission. (c) Optical spectrum, and (d) autocorrelation trace for 1.2 THz dual-mode emission. (e) Optical spectrum, and (f) autocorrelation trace for 1.3 THz dual-mode emission.
Fig. 9
Fig. 9 (a) Optical spectrum, and (b) autocorrelation trace for 2 THz dual-mode emission. (c) Optical spectrum, and (d) autocorrelation trace for 2.2 THz dual-mode emission. (e) Optical spectrum, and (f) autocorrelation trace for 2.7 THz dual-mode emission.