S. Akiyama, T. Kurahashi, T. Baba, N. Hatori, T. Usuki, and T. Yamamoto, “1-Vpp 10-Gb/s operation of slow-light silicon mach-zehnder modulator in wavelength range of 1 nm,” in proc. of Group IV Photonics (IEEE GFP2010) 45–47.

S. Jeong, S. Tanaka, S. Sekiguchi, T. Kurahashi, N. Hatori, S. Akiyama, T. Usuki, T. Yamamoto, and K. Morito, “Hybrid laser with Si ring resonator and SOA for temperature control free operation with ring resonator-based modulator,” in proc. of Group IV Photonics (IEEE GFP2011) 172–174.

S. Jeong, S. Tanaka, S. Sekiguchi, T. Kurahashi, N. Hatori, S. Akiyama, T. Usuki, T. Yamamoto, T. Akiyama, Y. Tanaka, and K. Morito, “Silicon-wire waveguide based external cavity laser for mW-order output power and temperature control free operation with silicon ring modulator,” Japan. J. of Appl. Phys.in press (2012).

S. Jeong, S. Tanaka, S. Sekiguchi, T. Kurahashi, N. Hatori, S. Akiyama, T. Usuki, T. Yamamoto, T. Akiyama, Y. Tanaka, and K. Morito, “Silicon-wire waveguide based external cavity laser for mW-order output power and temperature control free operation with silicon ring modulator,” Japan. J. of Appl. Phys.in press (2012).

T. Okumura, T. Maruyama, H. Yonezawa, N. Nishiyama, and S. Arai, “Injection-type GaInAsP–InP–Si distributed-feedback laser directly bonded on silicon-on-insulator substrate,” IEEE Photon. Technol. Lett. 21, 283–285 (2009).

[CrossRef]

T. Shimizu, N. Hatori, M. Okano, M. Ishizaka, Y. Urino, T. Yamamoto, M. Mori, T. Nakamura, and Y. Arakawa, “High density hybrid integrated light source with a laser diode array on a silicon optical waveguide platform for inter-chip optical interconnection,” in proc. of Group IV Photonics (IEEE GFP2011) 181–183.

A. J. Zilkie, B. J. Bijlani, P. Seddighian, D. C. Lee, W. Qian, J. Fong, R. Shafiiha, D. Feng, B. J. Luff, X. Zheng, J. E. Cunningham, A. V. Krishnamoorthy, and M. Asghari, “High-efficiency hybrid III–V/Si external cavity DBR laser for 3-m SOI waveguides,” in proc. of Group IV Photonics (IEEE GFP2012) paper FA3.

X. Sun, A. Zadok, M. Shearn, K. Diest, A. Ghaffari, H. Atwater, A. Scherer, and A. Yariv, “Hybrid electrically pumped evanescent Si/InGaAsP lasers,” in proc. of Optical Fiber Communication Conference (OFC2009) OThN1.

S. Akiyama, T. Kurahashi, T. Baba, N. Hatori, T. Usuki, and T. Yamamoto, “1-Vpp 10-Gb/s operation of slow-light silicon mach-zehnder modulator in wavelength range of 1 nm,” in proc. of Group IV Photonics (IEEE GFP2010) 45–47.

M. Sysak, D. Liang, R. Jones, G. Kurczveil, M. Piels, M. Fiorentino, R. Beausoleil, and J. Bowers, “Hybrid silicon laser technology: A thermal perspective,” IEEE J. of Sel. Topics in Quantum Electron.1–9 (2011).

B. Ben Bakir, A. Descos, N. Olivier, D. Bordel, P. Grosse, J. Gentner, F. Lelarge, and J. Fedeli, “Hybrid Si/III–V lasers with adiabatic coupling,” in proc. of Group IV Photonics (IEEE GFP2011) 169–171.

J. Michel, R. Camacho-Aguilera, Y. Cai, N. Patel, J. Bessette, M. Romagnoli, R. Dutt, and L. Kimerling, “An electrically pumped Ge-on-Si laser,” in proc. of Optical Fiber Communication Conference (OFC2012) PDP5A.6.

A. J. Zilkie, B. J. Bijlani, P. Seddighian, D. C. Lee, W. Qian, J. Fong, R. Shafiiha, D. Feng, B. J. Luff, X. Zheng, J. E. Cunningham, A. V. Krishnamoorthy, and M. Asghari, “High-efficiency hybrid III–V/Si external cavity DBR laser for 3-m SOI waveguides,” in proc. of Group IV Photonics (IEEE GFP2012) paper FA3.

B. Ben Bakir, A. Descos, N. Olivier, D. Bordel, P. Grosse, J. Gentner, F. Lelarge, and J. Fedeli, “Hybrid Si/III–V lasers with adiabatic coupling,” in proc. of Group IV Photonics (IEEE GFP2011) 169–171.

H. Park, M. Sysak, H. Chen, A. Fang, D. Liang, L. Liao, B. Koch, J. Bovington, Y. Tang, K. Wong, M. Jacob-Mitos, R. Jones, and J. Bowers, “Device and integration technology for silicon photonic transmitters,” IEEE J. of Sel. Topics in Quantum Electron.1–18 (2011).

H. Park, M. Sysak, H. Chen, A. Fang, D. Liang, L. Liao, B. Koch, J. Bovington, Y. Tang, K. Wong, M. Jacob-Mitos, R. Jones, and J. Bowers, “Device and integration technology for silicon photonic transmitters,” IEEE J. of Sel. Topics in Quantum Electron.1–18 (2011).

M. Sysak, D. Liang, R. Jones, G. Kurczveil, M. Piels, M. Fiorentino, R. Beausoleil, and J. Bowers, “Hybrid silicon laser technology: A thermal perspective,” IEEE J. of Sel. Topics in Quantum Electron.1–9 (2011).

B. Jalali, V. Raghunathan, D. Dimitropoulos, and O. Boyraz, “Raman-based silicon photonics,” IEEE J. of Sel. Topics in Quantum Electron. 12, 412–421 (2006).

[CrossRef]

J. Michel, R. Camacho-Aguilera, Y. Cai, N. Patel, J. Bessette, M. Romagnoli, R. Dutt, and L. Kimerling, “An electrically pumped Ge-on-Si laser,” in proc. of Optical Fiber Communication Conference (OFC2012) PDP5A.6.

J. Michel, R. Camacho-Aguilera, Y. Cai, N. Patel, J. Bessette, M. Romagnoli, R. Dutt, and L. Kimerling, “An electrically pumped Ge-on-Si laser,” in proc. of Optical Fiber Communication Conference (OFC2012) PDP5A.6.

H. Park, M. Sysak, H. Chen, A. Fang, D. Liang, L. Liao, B. Koch, J. Bovington, Y. Tang, K. Wong, M. Jacob-Mitos, R. Jones, and J. Bowers, “Device and integration technology for silicon photonic transmitters,” IEEE J. of Sel. Topics in Quantum Electron.1–18 (2011).

N. Fujioka, T. Chu, and M. Ishizaka, “Compact and low power consumption hybrid integrated wavelength tunable laser module using silicon waveguide resonators,” J. of Lightwave Technol. 28, 3115–3120 (2010).

A. Krishnamoorthy, R. Ho, X. Zheng, H. Schwetman, J. Lexau, P. Koka, G. Li, I. Shubin, and J. Cunningham, “Computer systems based on silicon photonic interconnects,” Proceedings of the IEEE 97, 1337–1361 (2009).

[CrossRef]

A. J. Zilkie, B. J. Bijlani, P. Seddighian, D. C. Lee, W. Qian, J. Fong, R. Shafiiha, D. Feng, B. J. Luff, X. Zheng, J. E. Cunningham, A. V. Krishnamoorthy, and M. Asghari, “High-efficiency hybrid III–V/Si external cavity DBR laser for 3-m SOI waveguides,” in proc. of Group IV Photonics (IEEE GFP2012) paper FA3.

B. Ben Bakir, A. Descos, N. Olivier, D. Bordel, P. Grosse, J. Gentner, F. Lelarge, and J. Fedeli, “Hybrid Si/III–V lasers with adiabatic coupling,” in proc. of Group IV Photonics (IEEE GFP2011) 169–171.

X. Sun, A. Zadok, M. Shearn, K. Diest, A. Ghaffari, H. Atwater, A. Scherer, and A. Yariv, “Hybrid electrically pumped evanescent Si/InGaAsP lasers,” in proc. of Optical Fiber Communication Conference (OFC2009) OThN1.

B. Jalali, V. Raghunathan, D. Dimitropoulos, and O. Boyraz, “Raman-based silicon photonics,” IEEE J. of Sel. Topics in Quantum Electron. 12, 412–421 (2006).

[CrossRef]

J. Michel, R. Camacho-Aguilera, Y. Cai, N. Patel, J. Bessette, M. Romagnoli, R. Dutt, and L. Kimerling, “An electrically pumped Ge-on-Si laser,” in proc. of Optical Fiber Communication Conference (OFC2012) PDP5A.6.

S. Tanaka, S. Jeong, S. Yamazaki, A. Uetake, S. Tomabechi, M. Ekawa, and K. Morito, “Monolithically integrated 8: 1 SOA gate switch with large extinction ratio and wide input power dynamic range,” IEEE J. of Quantum Electron. 45, 1155–1162 (2009).

[CrossRef]

K. Ohira, K. Kobayashi, N. Iizuka, H. Yoshida, M. Ezaki, H. Uemura, A. Kojima, K. Nakamura, H. Furuyama, and H. Shibata, “On-chip optical interconnection by using integrated III–V laser diode and photodetector with silicon waveguide,” Opt. Express 18, 15440–15447 (2010).

[CrossRef]
[PubMed]

H. Park, M. Sysak, H. Chen, A. Fang, D. Liang, L. Liao, B. Koch, J. Bovington, Y. Tang, K. Wong, M. Jacob-Mitos, R. Jones, and J. Bowers, “Device and integration technology for silicon photonic transmitters,” IEEE J. of Sel. Topics in Quantum Electron.1–18 (2011).

B. Ben Bakir, A. Descos, N. Olivier, D. Bordel, P. Grosse, J. Gentner, F. Lelarge, and J. Fedeli, “Hybrid Si/III–V lasers with adiabatic coupling,” in proc. of Group IV Photonics (IEEE GFP2011) 169–171.

A. J. Zilkie, B. J. Bijlani, P. Seddighian, D. C. Lee, W. Qian, J. Fong, R. Shafiiha, D. Feng, B. J. Luff, X. Zheng, J. E. Cunningham, A. V. Krishnamoorthy, and M. Asghari, “High-efficiency hybrid III–V/Si external cavity DBR laser for 3-m SOI waveguides,” in proc. of Group IV Photonics (IEEE GFP2012) paper FA3.

M. Sysak, D. Liang, R. Jones, G. Kurczveil, M. Piels, M. Fiorentino, R. Beausoleil, and J. Bowers, “Hybrid silicon laser technology: A thermal perspective,” IEEE J. of Sel. Topics in Quantum Electron.1–9 (2011).

A. J. Zilkie, B. J. Bijlani, P. Seddighian, D. C. Lee, W. Qian, J. Fong, R. Shafiiha, D. Feng, B. J. Luff, X. Zheng, J. E. Cunningham, A. V. Krishnamoorthy, and M. Asghari, “High-efficiency hybrid III–V/Si external cavity DBR laser for 3-m SOI waveguides,” in proc. of Group IV Photonics (IEEE GFP2012) paper FA3.

N. Fujioka, T. Chu, and M. Ishizaka, “Compact and low power consumption hybrid integrated wavelength tunable laser module using silicon waveguide resonators,” J. of Lightwave Technol. 28, 3115–3120 (2010).

T. Tsuchizawa, K. Yamada, H. Fukuda, T. Watanabe, J. Takahashi, M. Takahashi, T. Shoji, E. Tamechika, S. Itabashi, and H. Morita, “Microphotonics devices based on silicon microfabrication technology,” IEEE J. of Sel. Topics in Quantum Electron. 11, 232–240 (2005).

[CrossRef]

K. Ohira, K. Kobayashi, N. Iizuka, H. Yoshida, M. Ezaki, H. Uemura, A. Kojima, K. Nakamura, H. Furuyama, and H. Shibata, “On-chip optical interconnection by using integrated III–V laser diode and photodetector with silicon waveguide,” Opt. Express 18, 15440–15447 (2010).

[CrossRef]
[PubMed]

B. Ben Bakir, A. Descos, N. Olivier, D. Bordel, P. Grosse, J. Gentner, F. Lelarge, and J. Fedeli, “Hybrid Si/III–V lasers with adiabatic coupling,” in proc. of Group IV Photonics (IEEE GFP2011) 169–171.

X. Sun, A. Zadok, M. Shearn, K. Diest, A. Ghaffari, H. Atwater, A. Scherer, and A. Yariv, “Hybrid electrically pumped evanescent Si/InGaAsP lasers,” in proc. of Optical Fiber Communication Conference (OFC2009) OThN1.

B. Ben Bakir, A. Descos, N. Olivier, D. Bordel, P. Grosse, J. Gentner, F. Lelarge, and J. Fedeli, “Hybrid Si/III–V lasers with adiabatic coupling,” in proc. of Group IV Photonics (IEEE GFP2011) 169–171.

T. Shimizu, N. Hatori, M. Okano, M. Ishizaka, Y. Urino, T. Yamamoto, M. Mori, T. Nakamura, and Y. Arakawa, “High density hybrid integrated light source with a laser diode array on a silicon optical waveguide platform for inter-chip optical interconnection,” in proc. of Group IV Photonics (IEEE GFP2011) 181–183.

S. Jeong, S. Tanaka, S. Sekiguchi, T. Kurahashi, N. Hatori, S. Akiyama, T. Usuki, T. Yamamoto, T. Akiyama, Y. Tanaka, and K. Morito, “Silicon-wire waveguide based external cavity laser for mW-order output power and temperature control free operation with silicon ring modulator,” Japan. J. of Appl. Phys.in press (2012).

S. Akiyama, T. Kurahashi, T. Baba, N. Hatori, T. Usuki, and T. Yamamoto, “1-Vpp 10-Gb/s operation of slow-light silicon mach-zehnder modulator in wavelength range of 1 nm,” in proc. of Group IV Photonics (IEEE GFP2010) 45–47.

S. Jeong, S. Tanaka, S. Sekiguchi, T. Kurahashi, N. Hatori, S. Akiyama, T. Usuki, T. Yamamoto, and K. Morito, “Hybrid laser with Si ring resonator and SOA for temperature control free operation with ring resonator-based modulator,” in proc. of Group IV Photonics (IEEE GFP2011) 172–174.

G. Yoffe, T. Nguyen, J. Heanue, and B. Pezeshki, “Efficient compact tunable laser for access networks using silicon ring resonators,” in proc. of Optical Fiber Communication Conference (OFC2012) OW1G4.

A. Krishnamoorthy, R. Ho, X. Zheng, H. Schwetman, J. Lexau, P. Koka, G. Li, I. Shubin, and J. Cunningham, “Computer systems based on silicon photonic interconnects,” Proceedings of the IEEE 97, 1337–1361 (2009).

[CrossRef]

K. Ohira, K. Kobayashi, N. Iizuka, H. Yoshida, M. Ezaki, H. Uemura, A. Kojima, K. Nakamura, H. Furuyama, and H. Shibata, “On-chip optical interconnection by using integrated III–V laser diode and photodetector with silicon waveguide,” Opt. Express 18, 15440–15447 (2010).

[CrossRef]
[PubMed]

N. Fujioka, T. Chu, and M. Ishizaka, “Compact and low power consumption hybrid integrated wavelength tunable laser module using silicon waveguide resonators,” J. of Lightwave Technol. 28, 3115–3120 (2010).

T. Shimizu, N. Hatori, M. Okano, M. Ishizaka, Y. Urino, T. Yamamoto, M. Mori, T. Nakamura, and Y. Arakawa, “High density hybrid integrated light source with a laser diode array on a silicon optical waveguide platform for inter-chip optical interconnection,” in proc. of Group IV Photonics (IEEE GFP2011) 181–183.

T. Tsuchizawa, K. Yamada, H. Fukuda, T. Watanabe, J. Takahashi, M. Takahashi, T. Shoji, E. Tamechika, S. Itabashi, and H. Morita, “Microphotonics devices based on silicon microfabrication technology,” IEEE J. of Sel. Topics in Quantum Electron. 11, 232–240 (2005).

[CrossRef]

H. Park, M. Sysak, H. Chen, A. Fang, D. Liang, L. Liao, B. Koch, J. Bovington, Y. Tang, K. Wong, M. Jacob-Mitos, R. Jones, and J. Bowers, “Device and integration technology for silicon photonic transmitters,” IEEE J. of Sel. Topics in Quantum Electron.1–18 (2011).

B. Jalali, V. Raghunathan, D. Dimitropoulos, and O. Boyraz, “Raman-based silicon photonics,” IEEE J. of Sel. Topics in Quantum Electron. 12, 412–421 (2006).

[CrossRef]

S. Tanaka, S. Jeong, S. Yamazaki, A. Uetake, S. Tomabechi, M. Ekawa, and K. Morito, “Monolithically integrated 8: 1 SOA gate switch with large extinction ratio and wide input power dynamic range,” IEEE J. of Quantum Electron. 45, 1155–1162 (2009).

[CrossRef]

S. Jeong, S. Tanaka, S. Sekiguchi, T. Kurahashi, N. Hatori, S. Akiyama, T. Usuki, T. Yamamoto, T. Akiyama, Y. Tanaka, and K. Morito, “Silicon-wire waveguide based external cavity laser for mW-order output power and temperature control free operation with silicon ring modulator,” Japan. J. of Appl. Phys.in press (2012).

S. Jeong, S. Tanaka, S. Sekiguchi, T. Kurahashi, N. Hatori, S. Akiyama, T. Usuki, T. Yamamoto, and K. Morito, “Hybrid laser with Si ring resonator and SOA for temperature control free operation with ring resonator-based modulator,” in proc. of Group IV Photonics (IEEE GFP2011) 172–174.

S. Tanaka, S. Jeong, S. Sekiguchi, T. Kurahashi, Y. Tanaka, and K. Morito, “Highly-efficient, low-noise Si hybrid laser using flip-chip bonded SOA,” in proc. of Optical Interconnects Conference (IEEE OIC2012) MB2.

M. Sysak, D. Liang, R. Jones, G. Kurczveil, M. Piels, M. Fiorentino, R. Beausoleil, and J. Bowers, “Hybrid silicon laser technology: A thermal perspective,” IEEE J. of Sel. Topics in Quantum Electron.1–9 (2011).

H. Park, M. Sysak, H. Chen, A. Fang, D. Liang, L. Liao, B. Koch, J. Bovington, Y. Tang, K. Wong, M. Jacob-Mitos, R. Jones, and J. Bowers, “Device and integration technology for silicon photonic transmitters,” IEEE J. of Sel. Topics in Quantum Electron.1–18 (2011).

J. Michel, R. Camacho-Aguilera, Y. Cai, N. Patel, J. Bessette, M. Romagnoli, R. Dutt, and L. Kimerling, “An electrically pumped Ge-on-Si laser,” in proc. of Optical Fiber Communication Conference (OFC2012) PDP5A.6.

K. Ohira, K. Kobayashi, N. Iizuka, H. Yoshida, M. Ezaki, H. Uemura, A. Kojima, K. Nakamura, H. Furuyama, and H. Shibata, “On-chip optical interconnection by using integrated III–V laser diode and photodetector with silicon waveguide,” Opt. Express 18, 15440–15447 (2010).

[CrossRef]
[PubMed]

H. Park, M. Sysak, H. Chen, A. Fang, D. Liang, L. Liao, B. Koch, J. Bovington, Y. Tang, K. Wong, M. Jacob-Mitos, R. Jones, and J. Bowers, “Device and integration technology for silicon photonic transmitters,” IEEE J. of Sel. Topics in Quantum Electron.1–18 (2011).

K. Ohira, K. Kobayashi, N. Iizuka, H. Yoshida, M. Ezaki, H. Uemura, A. Kojima, K. Nakamura, H. Furuyama, and H. Shibata, “On-chip optical interconnection by using integrated III–V laser diode and photodetector with silicon waveguide,” Opt. Express 18, 15440–15447 (2010).

[CrossRef]
[PubMed]

A. Krishnamoorthy, R. Ho, X. Zheng, H. Schwetman, J. Lexau, P. Koka, G. Li, I. Shubin, and J. Cunningham, “Computer systems based on silicon photonic interconnects,” Proceedings of the IEEE 97, 1337–1361 (2009).

[CrossRef]

A. Krishnamoorthy, R. Ho, X. Zheng, H. Schwetman, J. Lexau, P. Koka, G. Li, I. Shubin, and J. Cunningham, “Computer systems based on silicon photonic interconnects,” Proceedings of the IEEE 97, 1337–1361 (2009).

[CrossRef]

A. J. Zilkie, B. J. Bijlani, P. Seddighian, D. C. Lee, W. Qian, J. Fong, R. Shafiiha, D. Feng, B. J. Luff, X. Zheng, J. E. Cunningham, A. V. Krishnamoorthy, and M. Asghari, “High-efficiency hybrid III–V/Si external cavity DBR laser for 3-m SOI waveguides,” in proc. of Group IV Photonics (IEEE GFP2012) paper FA3.

S. Jeong, S. Tanaka, S. Sekiguchi, T. Kurahashi, N. Hatori, S. Akiyama, T. Usuki, T. Yamamoto, and K. Morito, “Hybrid laser with Si ring resonator and SOA for temperature control free operation with ring resonator-based modulator,” in proc. of Group IV Photonics (IEEE GFP2011) 172–174.

S. Akiyama, T. Kurahashi, T. Baba, N. Hatori, T. Usuki, and T. Yamamoto, “1-Vpp 10-Gb/s operation of slow-light silicon mach-zehnder modulator in wavelength range of 1 nm,” in proc. of Group IV Photonics (IEEE GFP2010) 45–47.

S. Jeong, S. Tanaka, S. Sekiguchi, T. Kurahashi, N. Hatori, S. Akiyama, T. Usuki, T. Yamamoto, T. Akiyama, Y. Tanaka, and K. Morito, “Silicon-wire waveguide based external cavity laser for mW-order output power and temperature control free operation with silicon ring modulator,” Japan. J. of Appl. Phys.in press (2012).

S. Tanaka, S. Jeong, S. Sekiguchi, T. Kurahashi, Y. Tanaka, and K. Morito, “Highly-efficient, low-noise Si hybrid laser using flip-chip bonded SOA,” in proc. of Optical Interconnects Conference (IEEE OIC2012) MB2.

M. Sysak, D. Liang, R. Jones, G. Kurczveil, M. Piels, M. Fiorentino, R. Beausoleil, and J. Bowers, “Hybrid silicon laser technology: A thermal perspective,” IEEE J. of Sel. Topics in Quantum Electron.1–9 (2011).

A. J. Zilkie, B. J. Bijlani, P. Seddighian, D. C. Lee, W. Qian, J. Fong, R. Shafiiha, D. Feng, B. J. Luff, X. Zheng, J. E. Cunningham, A. V. Krishnamoorthy, and M. Asghari, “High-efficiency hybrid III–V/Si external cavity DBR laser for 3-m SOI waveguides,” in proc. of Group IV Photonics (IEEE GFP2012) paper FA3.

B. Ben Bakir, A. Descos, N. Olivier, D. Bordel, P. Grosse, J. Gentner, F. Lelarge, and J. Fedeli, “Hybrid Si/III–V lasers with adiabatic coupling,” in proc. of Group IV Photonics (IEEE GFP2011) 169–171.

A. Krishnamoorthy, R. Ho, X. Zheng, H. Schwetman, J. Lexau, P. Koka, G. Li, I. Shubin, and J. Cunningham, “Computer systems based on silicon photonic interconnects,” Proceedings of the IEEE 97, 1337–1361 (2009).

[CrossRef]

A. Krishnamoorthy, R. Ho, X. Zheng, H. Schwetman, J. Lexau, P. Koka, G. Li, I. Shubin, and J. Cunningham, “Computer systems based on silicon photonic interconnects,” Proceedings of the IEEE 97, 1337–1361 (2009).

[CrossRef]

M. Sysak, D. Liang, R. Jones, G. Kurczveil, M. Piels, M. Fiorentino, R. Beausoleil, and J. Bowers, “Hybrid silicon laser technology: A thermal perspective,” IEEE J. of Sel. Topics in Quantum Electron.1–9 (2011).

H. Park, M. Sysak, H. Chen, A. Fang, D. Liang, L. Liao, B. Koch, J. Bovington, Y. Tang, K. Wong, M. Jacob-Mitos, R. Jones, and J. Bowers, “Device and integration technology for silicon photonic transmitters,” IEEE J. of Sel. Topics in Quantum Electron.1–18 (2011).

H. Park, M. Sysak, H. Chen, A. Fang, D. Liang, L. Liao, B. Koch, J. Bovington, Y. Tang, K. Wong, M. Jacob-Mitos, R. Jones, and J. Bowers, “Device and integration technology for silicon photonic transmitters,” IEEE J. of Sel. Topics in Quantum Electron.1–18 (2011).

A. J. Zilkie, B. J. Bijlani, P. Seddighian, D. C. Lee, W. Qian, J. Fong, R. Shafiiha, D. Feng, B. J. Luff, X. Zheng, J. E. Cunningham, A. V. Krishnamoorthy, and M. Asghari, “High-efficiency hybrid III–V/Si external cavity DBR laser for 3-m SOI waveguides,” in proc. of Group IV Photonics (IEEE GFP2012) paper FA3.

T. Okumura, T. Maruyama, H. Yonezawa, N. Nishiyama, and S. Arai, “Injection-type GaInAsP–InP–Si distributed-feedback laser directly bonded on silicon-on-insulator substrate,” IEEE Photon. Technol. Lett. 21, 283–285 (2009).

[CrossRef]

J. Michel, R. Camacho-Aguilera, Y. Cai, N. Patel, J. Bessette, M. Romagnoli, R. Dutt, and L. Kimerling, “An electrically pumped Ge-on-Si laser,” in proc. of Optical Fiber Communication Conference (OFC2012) PDP5A.6.

T. Shimizu, N. Hatori, M. Okano, M. Ishizaka, Y. Urino, T. Yamamoto, M. Mori, T. Nakamura, and Y. Arakawa, “High density hybrid integrated light source with a laser diode array on a silicon optical waveguide platform for inter-chip optical interconnection,” in proc. of Group IV Photonics (IEEE GFP2011) 181–183.

T. Tsuchizawa, K. Yamada, H. Fukuda, T. Watanabe, J. Takahashi, M. Takahashi, T. Shoji, E. Tamechika, S. Itabashi, and H. Morita, “Microphotonics devices based on silicon microfabrication technology,” IEEE J. of Sel. Topics in Quantum Electron. 11, 232–240 (2005).

[CrossRef]

S. Tanaka, S. Jeong, S. Yamazaki, A. Uetake, S. Tomabechi, M. Ekawa, and K. Morito, “Monolithically integrated 8: 1 SOA gate switch with large extinction ratio and wide input power dynamic range,” IEEE J. of Quantum Electron. 45, 1155–1162 (2009).

[CrossRef]

S. Tanaka, S. Jeong, S. Sekiguchi, T. Kurahashi, Y. Tanaka, and K. Morito, “Highly-efficient, low-noise Si hybrid laser using flip-chip bonded SOA,” in proc. of Optical Interconnects Conference (IEEE OIC2012) MB2.

S. Jeong, S. Tanaka, S. Sekiguchi, T. Kurahashi, N. Hatori, S. Akiyama, T. Usuki, T. Yamamoto, T. Akiyama, Y. Tanaka, and K. Morito, “Silicon-wire waveguide based external cavity laser for mW-order output power and temperature control free operation with silicon ring modulator,” Japan. J. of Appl. Phys.in press (2012).

S. Jeong, S. Tanaka, S. Sekiguchi, T. Kurahashi, N. Hatori, S. Akiyama, T. Usuki, T. Yamamoto, and K. Morito, “Hybrid laser with Si ring resonator and SOA for temperature control free operation with ring resonator-based modulator,” in proc. of Group IV Photonics (IEEE GFP2011) 172–174.

K. Ohira, K. Kobayashi, N. Iizuka, H. Yoshida, M. Ezaki, H. Uemura, A. Kojima, K. Nakamura, H. Furuyama, and H. Shibata, “On-chip optical interconnection by using integrated III–V laser diode and photodetector with silicon waveguide,” Opt. Express 18, 15440–15447 (2010).

[CrossRef]
[PubMed]

T. Shimizu, N. Hatori, M. Okano, M. Ishizaka, Y. Urino, T. Yamamoto, M. Mori, T. Nakamura, and Y. Arakawa, “High density hybrid integrated light source with a laser diode array on a silicon optical waveguide platform for inter-chip optical interconnection,” in proc. of Group IV Photonics (IEEE GFP2011) 181–183.

G. Yoffe, T. Nguyen, J. Heanue, and B. Pezeshki, “Efficient compact tunable laser for access networks using silicon ring resonators,” in proc. of Optical Fiber Communication Conference (OFC2012) OW1G4.

T. Okumura, T. Maruyama, H. Yonezawa, N. Nishiyama, and S. Arai, “Injection-type GaInAsP–InP–Si distributed-feedback laser directly bonded on silicon-on-insulator substrate,” IEEE Photon. Technol. Lett. 21, 283–285 (2009).

[CrossRef]

K. Ohira, K. Kobayashi, N. Iizuka, H. Yoshida, M. Ezaki, H. Uemura, A. Kojima, K. Nakamura, H. Furuyama, and H. Shibata, “On-chip optical interconnection by using integrated III–V laser diode and photodetector with silicon waveguide,” Opt. Express 18, 15440–15447 (2010).

[CrossRef]
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T. Shimizu, N. Hatori, M. Okano, M. Ishizaka, Y. Urino, T. Yamamoto, M. Mori, T. Nakamura, and Y. Arakawa, “High density hybrid integrated light source with a laser diode array on a silicon optical waveguide platform for inter-chip optical interconnection,” in proc. of Group IV Photonics (IEEE GFP2011) 181–183.

T. Okumura, T. Maruyama, H. Yonezawa, N. Nishiyama, and S. Arai, “Injection-type GaInAsP–InP–Si distributed-feedback laser directly bonded on silicon-on-insulator substrate,” IEEE Photon. Technol. Lett. 21, 283–285 (2009).

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G. Yoffe, T. Nguyen, J. Heanue, and B. Pezeshki, “Efficient compact tunable laser for access networks using silicon ring resonators,” in proc. of Optical Fiber Communication Conference (OFC2012) OW1G4.

M. Sysak, D. Liang, R. Jones, G. Kurczveil, M. Piels, M. Fiorentino, R. Beausoleil, and J. Bowers, “Hybrid silicon laser technology: A thermal perspective,” IEEE J. of Sel. Topics in Quantum Electron.1–9 (2011).

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[CrossRef]

J. Michel, R. Camacho-Aguilera, Y. Cai, N. Patel, J. Bessette, M. Romagnoli, R. Dutt, and L. Kimerling, “An electrically pumped Ge-on-Si laser,” in proc. of Optical Fiber Communication Conference (OFC2012) PDP5A.6.

X. Sun, A. Zadok, M. Shearn, K. Diest, A. Ghaffari, H. Atwater, A. Scherer, and A. Yariv, “Hybrid electrically pumped evanescent Si/InGaAsP lasers,” in proc. of Optical Fiber Communication Conference (OFC2009) OThN1.

A. Krishnamoorthy, R. Ho, X. Zheng, H. Schwetman, J. Lexau, P. Koka, G. Li, I. Shubin, and J. Cunningham, “Computer systems based on silicon photonic interconnects,” Proceedings of the IEEE 97, 1337–1361 (2009).

[CrossRef]

A. J. Zilkie, B. J. Bijlani, P. Seddighian, D. C. Lee, W. Qian, J. Fong, R. Shafiiha, D. Feng, B. J. Luff, X. Zheng, J. E. Cunningham, A. V. Krishnamoorthy, and M. Asghari, “High-efficiency hybrid III–V/Si external cavity DBR laser for 3-m SOI waveguides,” in proc. of Group IV Photonics (IEEE GFP2012) paper FA3.

S. Jeong, S. Tanaka, S. Sekiguchi, T. Kurahashi, N. Hatori, S. Akiyama, T. Usuki, T. Yamamoto, and K. Morito, “Hybrid laser with Si ring resonator and SOA for temperature control free operation with ring resonator-based modulator,” in proc. of Group IV Photonics (IEEE GFP2011) 172–174.

S. Jeong, S. Tanaka, S. Sekiguchi, T. Kurahashi, N. Hatori, S. Akiyama, T. Usuki, T. Yamamoto, T. Akiyama, Y. Tanaka, and K. Morito, “Silicon-wire waveguide based external cavity laser for mW-order output power and temperature control free operation with silicon ring modulator,” Japan. J. of Appl. Phys.in press (2012).

S. Tanaka, S. Jeong, S. Sekiguchi, T. Kurahashi, Y. Tanaka, and K. Morito, “Highly-efficient, low-noise Si hybrid laser using flip-chip bonded SOA,” in proc. of Optical Interconnects Conference (IEEE OIC2012) MB2.

A. J. Zilkie, B. J. Bijlani, P. Seddighian, D. C. Lee, W. Qian, J. Fong, R. Shafiiha, D. Feng, B. J. Luff, X. Zheng, J. E. Cunningham, A. V. Krishnamoorthy, and M. Asghari, “High-efficiency hybrid III–V/Si external cavity DBR laser for 3-m SOI waveguides,” in proc. of Group IV Photonics (IEEE GFP2012) paper FA3.

X. Sun, A. Zadok, M. Shearn, K. Diest, A. Ghaffari, H. Atwater, A. Scherer, and A. Yariv, “Hybrid electrically pumped evanescent Si/InGaAsP lasers,” in proc. of Optical Fiber Communication Conference (OFC2009) OThN1.

K. Ohira, K. Kobayashi, N. Iizuka, H. Yoshida, M. Ezaki, H. Uemura, A. Kojima, K. Nakamura, H. Furuyama, and H. Shibata, “On-chip optical interconnection by using integrated III–V laser diode and photodetector with silicon waveguide,” Opt. Express 18, 15440–15447 (2010).

[CrossRef]
[PubMed]

T. Shimizu, N. Hatori, M. Okano, M. Ishizaka, Y. Urino, T. Yamamoto, M. Mori, T. Nakamura, and Y. Arakawa, “High density hybrid integrated light source with a laser diode array on a silicon optical waveguide platform for inter-chip optical interconnection,” in proc. of Group IV Photonics (IEEE GFP2011) 181–183.

T. Tsuchizawa, K. Yamada, H. Fukuda, T. Watanabe, J. Takahashi, M. Takahashi, T. Shoji, E. Tamechika, S. Itabashi, and H. Morita, “Microphotonics devices based on silicon microfabrication technology,” IEEE J. of Sel. Topics in Quantum Electron. 11, 232–240 (2005).

[CrossRef]

A. Krishnamoorthy, R. Ho, X. Zheng, H. Schwetman, J. Lexau, P. Koka, G. Li, I. Shubin, and J. Cunningham, “Computer systems based on silicon photonic interconnects,” Proceedings of the IEEE 97, 1337–1361 (2009).

[CrossRef]

X. Sun, A. Zadok, M. Shearn, K. Diest, A. Ghaffari, H. Atwater, A. Scherer, and A. Yariv, “Hybrid electrically pumped evanescent Si/InGaAsP lasers,” in proc. of Optical Fiber Communication Conference (OFC2009) OThN1.

M. Sysak, D. Liang, R. Jones, G. Kurczveil, M. Piels, M. Fiorentino, R. Beausoleil, and J. Bowers, “Hybrid silicon laser technology: A thermal perspective,” IEEE J. of Sel. Topics in Quantum Electron.1–9 (2011).

H. Park, M. Sysak, H. Chen, A. Fang, D. Liang, L. Liao, B. Koch, J. Bovington, Y. Tang, K. Wong, M. Jacob-Mitos, R. Jones, and J. Bowers, “Device and integration technology for silicon photonic transmitters,” IEEE J. of Sel. Topics in Quantum Electron.1–18 (2011).

T. Tsuchizawa, K. Yamada, H. Fukuda, T. Watanabe, J. Takahashi, M. Takahashi, T. Shoji, E. Tamechika, S. Itabashi, and H. Morita, “Microphotonics devices based on silicon microfabrication technology,” IEEE J. of Sel. Topics in Quantum Electron. 11, 232–240 (2005).

[CrossRef]

T. Tsuchizawa, K. Yamada, H. Fukuda, T. Watanabe, J. Takahashi, M. Takahashi, T. Shoji, E. Tamechika, S. Itabashi, and H. Morita, “Microphotonics devices based on silicon microfabrication technology,” IEEE J. of Sel. Topics in Quantum Electron. 11, 232–240 (2005).

[CrossRef]

T. Tsuchizawa, K. Yamada, H. Fukuda, T. Watanabe, J. Takahashi, M. Takahashi, T. Shoji, E. Tamechika, S. Itabashi, and H. Morita, “Microphotonics devices based on silicon microfabrication technology,” IEEE J. of Sel. Topics in Quantum Electron. 11, 232–240 (2005).

[CrossRef]

S. Tanaka, S. Jeong, S. Yamazaki, A. Uetake, S. Tomabechi, M. Ekawa, and K. Morito, “Monolithically integrated 8: 1 SOA gate switch with large extinction ratio and wide input power dynamic range,” IEEE J. of Quantum Electron. 45, 1155–1162 (2009).

[CrossRef]

S. Jeong, S. Tanaka, S. Sekiguchi, T. Kurahashi, N. Hatori, S. Akiyama, T. Usuki, T. Yamamoto, T. Akiyama, Y. Tanaka, and K. Morito, “Silicon-wire waveguide based external cavity laser for mW-order output power and temperature control free operation with silicon ring modulator,” Japan. J. of Appl. Phys.in press (2012).

S. Jeong, S. Tanaka, S. Sekiguchi, T. Kurahashi, N. Hatori, S. Akiyama, T. Usuki, T. Yamamoto, and K. Morito, “Hybrid laser with Si ring resonator and SOA for temperature control free operation with ring resonator-based modulator,” in proc. of Group IV Photonics (IEEE GFP2011) 172–174.

S. Tanaka, S. Jeong, S. Sekiguchi, T. Kurahashi, Y. Tanaka, and K. Morito, “Highly-efficient, low-noise Si hybrid laser using flip-chip bonded SOA,” in proc. of Optical Interconnects Conference (IEEE OIC2012) MB2.

S. Tanaka, S. Jeong, S. Sekiguchi, T. Kurahashi, Y. Tanaka, and K. Morito, “Highly-efficient, low-noise Si hybrid laser using flip-chip bonded SOA,” in proc. of Optical Interconnects Conference (IEEE OIC2012) MB2.

S. Jeong, S. Tanaka, S. Sekiguchi, T. Kurahashi, N. Hatori, S. Akiyama, T. Usuki, T. Yamamoto, T. Akiyama, Y. Tanaka, and K. Morito, “Silicon-wire waveguide based external cavity laser for mW-order output power and temperature control free operation with silicon ring modulator,” Japan. J. of Appl. Phys.in press (2012).

H. Park, M. Sysak, H. Chen, A. Fang, D. Liang, L. Liao, B. Koch, J. Bovington, Y. Tang, K. Wong, M. Jacob-Mitos, R. Jones, and J. Bowers, “Device and integration technology for silicon photonic transmitters,” IEEE J. of Sel. Topics in Quantum Electron.1–18 (2011).

S. Tanaka, S. Jeong, S. Yamazaki, A. Uetake, S. Tomabechi, M. Ekawa, and K. Morito, “Monolithically integrated 8: 1 SOA gate switch with large extinction ratio and wide input power dynamic range,” IEEE J. of Quantum Electron. 45, 1155–1162 (2009).

[CrossRef]

T. Tsuchizawa, K. Yamada, H. Fukuda, T. Watanabe, J. Takahashi, M. Takahashi, T. Shoji, E. Tamechika, S. Itabashi, and H. Morita, “Microphotonics devices based on silicon microfabrication technology,” IEEE J. of Sel. Topics in Quantum Electron. 11, 232–240 (2005).

[CrossRef]

K. Ohira, K. Kobayashi, N. Iizuka, H. Yoshida, M. Ezaki, H. Uemura, A. Kojima, K. Nakamura, H. Furuyama, and H. Shibata, “On-chip optical interconnection by using integrated III–V laser diode and photodetector with silicon waveguide,” Opt. Express 18, 15440–15447 (2010).

[CrossRef]
[PubMed]

S. Tanaka, S. Jeong, S. Yamazaki, A. Uetake, S. Tomabechi, M. Ekawa, and K. Morito, “Monolithically integrated 8: 1 SOA gate switch with large extinction ratio and wide input power dynamic range,” IEEE J. of Quantum Electron. 45, 1155–1162 (2009).

[CrossRef]

T. Shimizu, N. Hatori, M. Okano, M. Ishizaka, Y. Urino, T. Yamamoto, M. Mori, T. Nakamura, and Y. Arakawa, “High density hybrid integrated light source with a laser diode array on a silicon optical waveguide platform for inter-chip optical interconnection,” in proc. of Group IV Photonics (IEEE GFP2011) 181–183.

S. Jeong, S. Tanaka, S. Sekiguchi, T. Kurahashi, N. Hatori, S. Akiyama, T. Usuki, T. Yamamoto, T. Akiyama, Y. Tanaka, and K. Morito, “Silicon-wire waveguide based external cavity laser for mW-order output power and temperature control free operation with silicon ring modulator,” Japan. J. of Appl. Phys.in press (2012).

S. Jeong, S. Tanaka, S. Sekiguchi, T. Kurahashi, N. Hatori, S. Akiyama, T. Usuki, T. Yamamoto, and K. Morito, “Hybrid laser with Si ring resonator and SOA for temperature control free operation with ring resonator-based modulator,” in proc. of Group IV Photonics (IEEE GFP2011) 172–174.

S. Akiyama, T. Kurahashi, T. Baba, N. Hatori, T. Usuki, and T. Yamamoto, “1-Vpp 10-Gb/s operation of slow-light silicon mach-zehnder modulator in wavelength range of 1 nm,” in proc. of Group IV Photonics (IEEE GFP2010) 45–47.

Y. Vlasov, “Silicon CMOS-integrated nano-photonics for computer and data communications beyond 100G,” Communications Magazine IEEE 50, s67–s72 (2012).

[CrossRef]

T. Tsuchizawa, K. Yamada, H. Fukuda, T. Watanabe, J. Takahashi, M. Takahashi, T. Shoji, E. Tamechika, S. Itabashi, and H. Morita, “Microphotonics devices based on silicon microfabrication technology,” IEEE J. of Sel. Topics in Quantum Electron. 11, 232–240 (2005).

[CrossRef]

H. Park, M. Sysak, H. Chen, A. Fang, D. Liang, L. Liao, B. Koch, J. Bovington, Y. Tang, K. Wong, M. Jacob-Mitos, R. Jones, and J. Bowers, “Device and integration technology for silicon photonic transmitters,” IEEE J. of Sel. Topics in Quantum Electron.1–18 (2011).

T. Tsuchizawa, K. Yamada, H. Fukuda, T. Watanabe, J. Takahashi, M. Takahashi, T. Shoji, E. Tamechika, S. Itabashi, and H. Morita, “Microphotonics devices based on silicon microfabrication technology,” IEEE J. of Sel. Topics in Quantum Electron. 11, 232–240 (2005).

[CrossRef]

M. Yamada, “Transverse and longitudinal mode control in semiconductor injection lasers,” IEEE J. of Quantum Electron. 19, 1365–1380 (1983).

[CrossRef]

S. Jeong, S. Tanaka, S. Sekiguchi, T. Kurahashi, N. Hatori, S. Akiyama, T. Usuki, T. Yamamoto, T. Akiyama, Y. Tanaka, and K. Morito, “Silicon-wire waveguide based external cavity laser for mW-order output power and temperature control free operation with silicon ring modulator,” Japan. J. of Appl. Phys.in press (2012).

S. Akiyama, T. Kurahashi, T. Baba, N. Hatori, T. Usuki, and T. Yamamoto, “1-Vpp 10-Gb/s operation of slow-light silicon mach-zehnder modulator in wavelength range of 1 nm,” in proc. of Group IV Photonics (IEEE GFP2010) 45–47.

S. Jeong, S. Tanaka, S. Sekiguchi, T. Kurahashi, N. Hatori, S. Akiyama, T. Usuki, T. Yamamoto, and K. Morito, “Hybrid laser with Si ring resonator and SOA for temperature control free operation with ring resonator-based modulator,” in proc. of Group IV Photonics (IEEE GFP2011) 172–174.

T. Shimizu, N. Hatori, M. Okano, M. Ishizaka, Y. Urino, T. Yamamoto, M. Mori, T. Nakamura, and Y. Arakawa, “High density hybrid integrated light source with a laser diode array on a silicon optical waveguide platform for inter-chip optical interconnection,” in proc. of Group IV Photonics (IEEE GFP2011) 181–183.

S. Tanaka, S. Jeong, S. Yamazaki, A. Uetake, S. Tomabechi, M. Ekawa, and K. Morito, “Monolithically integrated 8: 1 SOA gate switch with large extinction ratio and wide input power dynamic range,” IEEE J. of Quantum Electron. 45, 1155–1162 (2009).

[CrossRef]

X. Sun, A. Zadok, M. Shearn, K. Diest, A. Ghaffari, H. Atwater, A. Scherer, and A. Yariv, “Hybrid electrically pumped evanescent Si/InGaAsP lasers,” in proc. of Optical Fiber Communication Conference (OFC2009) OThN1.

G. Yoffe, T. Nguyen, J. Heanue, and B. Pezeshki, “Efficient compact tunable laser for access networks using silicon ring resonators,” in proc. of Optical Fiber Communication Conference (OFC2012) OW1G4.

T. Okumura, T. Maruyama, H. Yonezawa, N. Nishiyama, and S. Arai, “Injection-type GaInAsP–InP–Si distributed-feedback laser directly bonded on silicon-on-insulator substrate,” IEEE Photon. Technol. Lett. 21, 283–285 (2009).

[CrossRef]

K. Ohira, K. Kobayashi, N. Iizuka, H. Yoshida, M. Ezaki, H. Uemura, A. Kojima, K. Nakamura, H. Furuyama, and H. Shibata, “On-chip optical interconnection by using integrated III–V laser diode and photodetector with silicon waveguide,” Opt. Express 18, 15440–15447 (2010).

[CrossRef]
[PubMed]

X. Sun, A. Zadok, M. Shearn, K. Diest, A. Ghaffari, H. Atwater, A. Scherer, and A. Yariv, “Hybrid electrically pumped evanescent Si/InGaAsP lasers,” in proc. of Optical Fiber Communication Conference (OFC2009) OThN1.

A. Krishnamoorthy, R. Ho, X. Zheng, H. Schwetman, J. Lexau, P. Koka, G. Li, I. Shubin, and J. Cunningham, “Computer systems based on silicon photonic interconnects,” Proceedings of the IEEE 97, 1337–1361 (2009).

[CrossRef]

A. J. Zilkie, B. J. Bijlani, P. Seddighian, D. C. Lee, W. Qian, J. Fong, R. Shafiiha, D. Feng, B. J. Luff, X. Zheng, J. E. Cunningham, A. V. Krishnamoorthy, and M. Asghari, “High-efficiency hybrid III–V/Si external cavity DBR laser for 3-m SOI waveguides,” in proc. of Group IV Photonics (IEEE GFP2012) paper FA3.

A. J. Zilkie, B. J. Bijlani, P. Seddighian, D. C. Lee, W. Qian, J. Fong, R. Shafiiha, D. Feng, B. J. Luff, X. Zheng, J. E. Cunningham, A. V. Krishnamoorthy, and M. Asghari, “High-efficiency hybrid III–V/Si external cavity DBR laser for 3-m SOI waveguides,” in proc. of Group IV Photonics (IEEE GFP2012) paper FA3.