Abstract

We demonstrate the capability of fabricating extremely high-bandwidth Uni-Traveling Carrier Photodiodes (UTC-PDs) using techniques that are suitable for active-passive monolithic integration with Multiple Quantum Well (MQW)-based photonic devices. The devices achieved a responsivity of 0.27 A/W, a 3-dB bandwidth of 170 GHz, and an output power of −9 dBm at 200 GHz. We anticipate that this work will deliver Photonic Integrated Circuits with extremely high bandwidth for optical communications and millimetre-wave applications.

© 2012 OSA

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  1. A. Stohr, S. Babiel, P. J. Cannard, B. Charbonnier, F. van Dijk, S. Fedderwitz, D. Moodie, L. Pavlovic, L. Ponnampalam, C. C. Renaud, D. Rogers, V. Rymanov, A. Seeds, A. G. Steffan, A. Umbach, and M. Weiß, “Millimeter-wave photonic components for broadband wireless systems,” IEEE Trans. Microw. Theory Tech.58(11), 3071–3082 (2010).
    [CrossRef]
  2. J. Federici and L. Moeller, “Review of terahertz and subterahertz wireless communications,” J. Appl. Phys.107(11), 111101 (2010).
    [CrossRef]
  3. H.-J. Song and T. Nagatsuma, “Present and future of terahertz communications,” IEEE Trans. Terahertz Sci. Technol.1(1), 256–263 (2011).
    [CrossRef]
  4. T. Kleine-Ostmann and T. Nagatsuma, “A review on terahertz communications research,” Int. J. Infrared Millim. Waves32(2), 143–171 (2011).
    [CrossRef]
  5. H. Ito, S. Kodama, Y. Muramoto, T. Furuta, T. Nagatsuma, and T. Ishibashi, “High-speed and high-output InP-InGaAs unitraveling-carrier photodiodes,” IEEE J. Sel. Top. Quantum Electron.10(4), 709–727 (2004).
    [CrossRef]
  6. E. Rouvalis, C. C. Renaud, D. G. Moodie, M. J. Robertson, and A. J. Seeds, “Traveling-wave uni-traveling carrier photodiodes for continuous wave THz generation,” Opt. Express18(11), 11105–11110 (2010).
    [CrossRef] [PubMed]
  7. J.-W. Shi, F.-M. Kuo, C.-J. Wu, C. L. Chang, C.-Y. Liu, C. Y. Chen, and J.-I. Chyi, “Extremely high saturation current-bandwidth product performance of a near-ballistic uni-traveling-carrier photodiode with a flip-chip bonding structure,” IEEE J. Quantum Electron.46(1), 80–86 (2010).
    [CrossRef]
  8. E. Rouvalis, C. C. Renaud, D. G. Moodie, M. J. Robertson, and A. J. Seeds, “Continuous wave terahertz generation from ultra-fast InP-based photodiodes,” IEEE Trans. Microw. Theory Tech.60(3), 509–517 (2012).
    [CrossRef]
  9. M. J. Fice, E. Rouvalis, F. van Dijk, A. Accard, F. Lelarge, C. C. Renaud, G. Carpintero, and A. J. Seeds, “146-GHz millimeter-wave radio-over-fiber photonic wireless transmission system,” Opt. Express20(2), 1769–1774 (2012).
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    [CrossRef]
  11. R. Nagarajan, M. Kato, V. G. Dominic, C. H. Joyner, R. P. Schneider, A. G. Dentai, T. Desikan, P. W. Evans, M. Kauffman, D. J. H. Lambert, S. K. Mathis, A. Mathur, M. L. Mitchell, M. J. Missey, S. Murthy, A. C. Nilsson, F. H. Peters, J. L. Pleumeekers, R. A. Salvatore, R. B. Taylor, M. F. Van Leeuwen, J. Webjorn, M. Ziari, S. G. Grubb, D. Perkins, M. Reffle, D. G. Mehuys, F. A. Kish, and D. F. Welch, “400 Gbit/s (10 channel × 40 Gbit/s) DWDM photonic integrated circuits,” Electron. Lett.41(6), 347–349 (2005).
    [CrossRef]
  12. J. W. Raring, E. J. Skogen, C. S. Wang, J. S. Barton, G. B. Morrison, S. Demiguel, S. P. Denbaars, and L. A. Coldren, “Design and demonstration of novel QW intermixing scheme for the integration of UTC-type photodiodes with QW-based components,” IEEE J. Quantum Electron.42(2), 171–181 (2006).
    [CrossRef]
  13. E. Rouvalis, M. Chtioui, M. Tran, F. Lelarge, F. van Dijk, M. J. Fice, C. C. Renaud, G. Carpintero, and A. J. Seeds, “High-speed photodiodes for InP-based photonic integrated circuits,” Opt. Express20(8), 9172–9177 (2012).
    [CrossRef] [PubMed]
  14. J.-W. Shi, F.-M. Kuo, M. Rodwell, and J. E. Bowers, “Ultra-high speed (270 GHz) near-ballistic uni-traveling-carrier photodiode with very-high saturation current (17 mA) under a 50 Ω load,” in Proc. 2011 IEEE Photonics Conference (PHO), 21–22, 9–13 Oct. 2011.
  15. H. Ito, T. Furuta, S. Kodama, and T. Ishibashi, “InP/InGaAs uni-travelling-carrier photodiode with 310 GHz bandwidth,” Electron. Lett.36(21), 1809–1810 (2000).
    [CrossRef]
  16. T. Ishibashi, T. Furuta, H. Fushimi, S. Kodama, H. Ito, T. Nagatsuma, N. Shimizu, and Y. Miyamoto, “InP/InGaAs uni-traveling-carrier photodiodes,” IEICE Trans. Electron. E83-C(6), 938–949 (2000).

2012

2011

H.-J. Song and T. Nagatsuma, “Present and future of terahertz communications,” IEEE Trans. Terahertz Sci. Technol.1(1), 256–263 (2011).
[CrossRef]

T. Kleine-Ostmann and T. Nagatsuma, “A review on terahertz communications research,” Int. J. Infrared Millim. Waves32(2), 143–171 (2011).
[CrossRef]

2010

A. Stohr, S. Babiel, P. J. Cannard, B. Charbonnier, F. van Dijk, S. Fedderwitz, D. Moodie, L. Pavlovic, L. Ponnampalam, C. C. Renaud, D. Rogers, V. Rymanov, A. Seeds, A. G. Steffan, A. Umbach, and M. Weiß, “Millimeter-wave photonic components for broadband wireless systems,” IEEE Trans. Microw. Theory Tech.58(11), 3071–3082 (2010).
[CrossRef]

J. Federici and L. Moeller, “Review of terahertz and subterahertz wireless communications,” J. Appl. Phys.107(11), 111101 (2010).
[CrossRef]

J.-W. Shi, F.-M. Kuo, C.-J. Wu, C. L. Chang, C.-Y. Liu, C. Y. Chen, and J.-I. Chyi, “Extremely high saturation current-bandwidth product performance of a near-ballistic uni-traveling-carrier photodiode with a flip-chip bonding structure,” IEEE J. Quantum Electron.46(1), 80–86 (2010).
[CrossRef]

E. Rouvalis, C. C. Renaud, D. G. Moodie, M. J. Robertson, and A. J. Seeds, “Traveling-wave uni-traveling carrier photodiodes for continuous wave THz generation,” Opt. Express18(11), 11105–11110 (2010).
[CrossRef] [PubMed]

2006

J. W. Raring, E. J. Skogen, C. S. Wang, J. S. Barton, G. B. Morrison, S. Demiguel, S. P. Denbaars, and L. A. Coldren, “Design and demonstration of novel QW intermixing scheme for the integration of UTC-type photodiodes with QW-based components,” IEEE J. Quantum Electron.42(2), 171–181 (2006).
[CrossRef]

2005

F. Xia, S. Dutta, and S. R. Forrest, “A monolithically integrated optical heterodyne receiver,” IEEE Photon. Technol. Lett.17(8), 1716–1718 (2005).
[CrossRef]

R. Nagarajan, M. Kato, V. G. Dominic, C. H. Joyner, R. P. Schneider, A. G. Dentai, T. Desikan, P. W. Evans, M. Kauffman, D. J. H. Lambert, S. K. Mathis, A. Mathur, M. L. Mitchell, M. J. Missey, S. Murthy, A. C. Nilsson, F. H. Peters, J. L. Pleumeekers, R. A. Salvatore, R. B. Taylor, M. F. Van Leeuwen, J. Webjorn, M. Ziari, S. G. Grubb, D. Perkins, M. Reffle, D. G. Mehuys, F. A. Kish, and D. F. Welch, “400 Gbit/s (10 channel × 40 Gbit/s) DWDM photonic integrated circuits,” Electron. Lett.41(6), 347–349 (2005).
[CrossRef]

2004

H. Ito, S. Kodama, Y. Muramoto, T. Furuta, T. Nagatsuma, and T. Ishibashi, “High-speed and high-output InP-InGaAs unitraveling-carrier photodiodes,” IEEE J. Sel. Top. Quantum Electron.10(4), 709–727 (2004).
[CrossRef]

2000

H. Ito, T. Furuta, S. Kodama, and T. Ishibashi, “InP/InGaAs uni-travelling-carrier photodiode with 310 GHz bandwidth,” Electron. Lett.36(21), 1809–1810 (2000).
[CrossRef]

T. Ishibashi, T. Furuta, H. Fushimi, S. Kodama, H. Ito, T. Nagatsuma, N. Shimizu, and Y. Miyamoto, “InP/InGaAs uni-traveling-carrier photodiodes,” IEICE Trans. Electron. E83-C(6), 938–949 (2000).

Accard, A.

Babiel, S.

A. Stohr, S. Babiel, P. J. Cannard, B. Charbonnier, F. van Dijk, S. Fedderwitz, D. Moodie, L. Pavlovic, L. Ponnampalam, C. C. Renaud, D. Rogers, V. Rymanov, A. Seeds, A. G. Steffan, A. Umbach, and M. Weiß, “Millimeter-wave photonic components for broadband wireless systems,” IEEE Trans. Microw. Theory Tech.58(11), 3071–3082 (2010).
[CrossRef]

Barton, J. S.

J. W. Raring, E. J. Skogen, C. S. Wang, J. S. Barton, G. B. Morrison, S. Demiguel, S. P. Denbaars, and L. A. Coldren, “Design and demonstration of novel QW intermixing scheme for the integration of UTC-type photodiodes with QW-based components,” IEEE J. Quantum Electron.42(2), 171–181 (2006).
[CrossRef]

Cannard, P. J.

A. Stohr, S. Babiel, P. J. Cannard, B. Charbonnier, F. van Dijk, S. Fedderwitz, D. Moodie, L. Pavlovic, L. Ponnampalam, C. C. Renaud, D. Rogers, V. Rymanov, A. Seeds, A. G. Steffan, A. Umbach, and M. Weiß, “Millimeter-wave photonic components for broadband wireless systems,” IEEE Trans. Microw. Theory Tech.58(11), 3071–3082 (2010).
[CrossRef]

Carpintero, G.

Chang, C. L.

J.-W. Shi, F.-M. Kuo, C.-J. Wu, C. L. Chang, C.-Y. Liu, C. Y. Chen, and J.-I. Chyi, “Extremely high saturation current-bandwidth product performance of a near-ballistic uni-traveling-carrier photodiode with a flip-chip bonding structure,” IEEE J. Quantum Electron.46(1), 80–86 (2010).
[CrossRef]

Charbonnier, B.

A. Stohr, S. Babiel, P. J. Cannard, B. Charbonnier, F. van Dijk, S. Fedderwitz, D. Moodie, L. Pavlovic, L. Ponnampalam, C. C. Renaud, D. Rogers, V. Rymanov, A. Seeds, A. G. Steffan, A. Umbach, and M. Weiß, “Millimeter-wave photonic components for broadband wireless systems,” IEEE Trans. Microw. Theory Tech.58(11), 3071–3082 (2010).
[CrossRef]

Chen, C. Y.

J.-W. Shi, F.-M. Kuo, C.-J. Wu, C. L. Chang, C.-Y. Liu, C. Y. Chen, and J.-I. Chyi, “Extremely high saturation current-bandwidth product performance of a near-ballistic uni-traveling-carrier photodiode with a flip-chip bonding structure,” IEEE J. Quantum Electron.46(1), 80–86 (2010).
[CrossRef]

Chtioui, M.

Chyi, J.-I.

J.-W. Shi, F.-M. Kuo, C.-J. Wu, C. L. Chang, C.-Y. Liu, C. Y. Chen, and J.-I. Chyi, “Extremely high saturation current-bandwidth product performance of a near-ballistic uni-traveling-carrier photodiode with a flip-chip bonding structure,” IEEE J. Quantum Electron.46(1), 80–86 (2010).
[CrossRef]

Coldren, L. A.

J. W. Raring, E. J. Skogen, C. S. Wang, J. S. Barton, G. B. Morrison, S. Demiguel, S. P. Denbaars, and L. A. Coldren, “Design and demonstration of novel QW intermixing scheme for the integration of UTC-type photodiodes with QW-based components,” IEEE J. Quantum Electron.42(2), 171–181 (2006).
[CrossRef]

Demiguel, S.

J. W. Raring, E. J. Skogen, C. S. Wang, J. S. Barton, G. B. Morrison, S. Demiguel, S. P. Denbaars, and L. A. Coldren, “Design and demonstration of novel QW intermixing scheme for the integration of UTC-type photodiodes with QW-based components,” IEEE J. Quantum Electron.42(2), 171–181 (2006).
[CrossRef]

Denbaars, S. P.

J. W. Raring, E. J. Skogen, C. S. Wang, J. S. Barton, G. B. Morrison, S. Demiguel, S. P. Denbaars, and L. A. Coldren, “Design and demonstration of novel QW intermixing scheme for the integration of UTC-type photodiodes with QW-based components,” IEEE J. Quantum Electron.42(2), 171–181 (2006).
[CrossRef]

Dentai, A. G.

R. Nagarajan, M. Kato, V. G. Dominic, C. H. Joyner, R. P. Schneider, A. G. Dentai, T. Desikan, P. W. Evans, M. Kauffman, D. J. H. Lambert, S. K. Mathis, A. Mathur, M. L. Mitchell, M. J. Missey, S. Murthy, A. C. Nilsson, F. H. Peters, J. L. Pleumeekers, R. A. Salvatore, R. B. Taylor, M. F. Van Leeuwen, J. Webjorn, M. Ziari, S. G. Grubb, D. Perkins, M. Reffle, D. G. Mehuys, F. A. Kish, and D. F. Welch, “400 Gbit/s (10 channel × 40 Gbit/s) DWDM photonic integrated circuits,” Electron. Lett.41(6), 347–349 (2005).
[CrossRef]

Desikan, T.

R. Nagarajan, M. Kato, V. G. Dominic, C. H. Joyner, R. P. Schneider, A. G. Dentai, T. Desikan, P. W. Evans, M. Kauffman, D. J. H. Lambert, S. K. Mathis, A. Mathur, M. L. Mitchell, M. J. Missey, S. Murthy, A. C. Nilsson, F. H. Peters, J. L. Pleumeekers, R. A. Salvatore, R. B. Taylor, M. F. Van Leeuwen, J. Webjorn, M. Ziari, S. G. Grubb, D. Perkins, M. Reffle, D. G. Mehuys, F. A. Kish, and D. F. Welch, “400 Gbit/s (10 channel × 40 Gbit/s) DWDM photonic integrated circuits,” Electron. Lett.41(6), 347–349 (2005).
[CrossRef]

Dominic, V. G.

R. Nagarajan, M. Kato, V. G. Dominic, C. H. Joyner, R. P. Schneider, A. G. Dentai, T. Desikan, P. W. Evans, M. Kauffman, D. J. H. Lambert, S. K. Mathis, A. Mathur, M. L. Mitchell, M. J. Missey, S. Murthy, A. C. Nilsson, F. H. Peters, J. L. Pleumeekers, R. A. Salvatore, R. B. Taylor, M. F. Van Leeuwen, J. Webjorn, M. Ziari, S. G. Grubb, D. Perkins, M. Reffle, D. G. Mehuys, F. A. Kish, and D. F. Welch, “400 Gbit/s (10 channel × 40 Gbit/s) DWDM photonic integrated circuits,” Electron. Lett.41(6), 347–349 (2005).
[CrossRef]

Dutta, S.

F. Xia, S. Dutta, and S. R. Forrest, “A monolithically integrated optical heterodyne receiver,” IEEE Photon. Technol. Lett.17(8), 1716–1718 (2005).
[CrossRef]

Evans, P. W.

R. Nagarajan, M. Kato, V. G. Dominic, C. H. Joyner, R. P. Schneider, A. G. Dentai, T. Desikan, P. W. Evans, M. Kauffman, D. J. H. Lambert, S. K. Mathis, A. Mathur, M. L. Mitchell, M. J. Missey, S. Murthy, A. C. Nilsson, F. H. Peters, J. L. Pleumeekers, R. A. Salvatore, R. B. Taylor, M. F. Van Leeuwen, J. Webjorn, M. Ziari, S. G. Grubb, D. Perkins, M. Reffle, D. G. Mehuys, F. A. Kish, and D. F. Welch, “400 Gbit/s (10 channel × 40 Gbit/s) DWDM photonic integrated circuits,” Electron. Lett.41(6), 347–349 (2005).
[CrossRef]

Fedderwitz, S.

A. Stohr, S. Babiel, P. J. Cannard, B. Charbonnier, F. van Dijk, S. Fedderwitz, D. Moodie, L. Pavlovic, L. Ponnampalam, C. C. Renaud, D. Rogers, V. Rymanov, A. Seeds, A. G. Steffan, A. Umbach, and M. Weiß, “Millimeter-wave photonic components for broadband wireless systems,” IEEE Trans. Microw. Theory Tech.58(11), 3071–3082 (2010).
[CrossRef]

Federici, J.

J. Federici and L. Moeller, “Review of terahertz and subterahertz wireless communications,” J. Appl. Phys.107(11), 111101 (2010).
[CrossRef]

Fice, M. J.

Forrest, S. R.

F. Xia, S. Dutta, and S. R. Forrest, “A monolithically integrated optical heterodyne receiver,” IEEE Photon. Technol. Lett.17(8), 1716–1718 (2005).
[CrossRef]

Furuta, T.

H. Ito, S. Kodama, Y. Muramoto, T. Furuta, T. Nagatsuma, and T. Ishibashi, “High-speed and high-output InP-InGaAs unitraveling-carrier photodiodes,” IEEE J. Sel. Top. Quantum Electron.10(4), 709–727 (2004).
[CrossRef]

T. Ishibashi, T. Furuta, H. Fushimi, S. Kodama, H. Ito, T. Nagatsuma, N. Shimizu, and Y. Miyamoto, “InP/InGaAs uni-traveling-carrier photodiodes,” IEICE Trans. Electron. E83-C(6), 938–949 (2000).

H. Ito, T. Furuta, S. Kodama, and T. Ishibashi, “InP/InGaAs uni-travelling-carrier photodiode with 310 GHz bandwidth,” Electron. Lett.36(21), 1809–1810 (2000).
[CrossRef]

Fushimi, H.

T. Ishibashi, T. Furuta, H. Fushimi, S. Kodama, H. Ito, T. Nagatsuma, N. Shimizu, and Y. Miyamoto, “InP/InGaAs uni-traveling-carrier photodiodes,” IEICE Trans. Electron. E83-C(6), 938–949 (2000).

Grubb, S. G.

R. Nagarajan, M. Kato, V. G. Dominic, C. H. Joyner, R. P. Schneider, A. G. Dentai, T. Desikan, P. W. Evans, M. Kauffman, D. J. H. Lambert, S. K. Mathis, A. Mathur, M. L. Mitchell, M. J. Missey, S. Murthy, A. C. Nilsson, F. H. Peters, J. L. Pleumeekers, R. A. Salvatore, R. B. Taylor, M. F. Van Leeuwen, J. Webjorn, M. Ziari, S. G. Grubb, D. Perkins, M. Reffle, D. G. Mehuys, F. A. Kish, and D. F. Welch, “400 Gbit/s (10 channel × 40 Gbit/s) DWDM photonic integrated circuits,” Electron. Lett.41(6), 347–349 (2005).
[CrossRef]

Ishibashi, T.

H. Ito, S. Kodama, Y. Muramoto, T. Furuta, T. Nagatsuma, and T. Ishibashi, “High-speed and high-output InP-InGaAs unitraveling-carrier photodiodes,” IEEE J. Sel. Top. Quantum Electron.10(4), 709–727 (2004).
[CrossRef]

T. Ishibashi, T. Furuta, H. Fushimi, S. Kodama, H. Ito, T. Nagatsuma, N. Shimizu, and Y. Miyamoto, “InP/InGaAs uni-traveling-carrier photodiodes,” IEICE Trans. Electron. E83-C(6), 938–949 (2000).

H. Ito, T. Furuta, S. Kodama, and T. Ishibashi, “InP/InGaAs uni-travelling-carrier photodiode with 310 GHz bandwidth,” Electron. Lett.36(21), 1809–1810 (2000).
[CrossRef]

Ito, H.

H. Ito, S. Kodama, Y. Muramoto, T. Furuta, T. Nagatsuma, and T. Ishibashi, “High-speed and high-output InP-InGaAs unitraveling-carrier photodiodes,” IEEE J. Sel. Top. Quantum Electron.10(4), 709–727 (2004).
[CrossRef]

H. Ito, T. Furuta, S. Kodama, and T. Ishibashi, “InP/InGaAs uni-travelling-carrier photodiode with 310 GHz bandwidth,” Electron. Lett.36(21), 1809–1810 (2000).
[CrossRef]

T. Ishibashi, T. Furuta, H. Fushimi, S. Kodama, H. Ito, T. Nagatsuma, N. Shimizu, and Y. Miyamoto, “InP/InGaAs uni-traveling-carrier photodiodes,” IEICE Trans. Electron. E83-C(6), 938–949 (2000).

Joyner, C. H.

R. Nagarajan, M. Kato, V. G. Dominic, C. H. Joyner, R. P. Schneider, A. G. Dentai, T. Desikan, P. W. Evans, M. Kauffman, D. J. H. Lambert, S. K. Mathis, A. Mathur, M. L. Mitchell, M. J. Missey, S. Murthy, A. C. Nilsson, F. H. Peters, J. L. Pleumeekers, R. A. Salvatore, R. B. Taylor, M. F. Van Leeuwen, J. Webjorn, M. Ziari, S. G. Grubb, D. Perkins, M. Reffle, D. G. Mehuys, F. A. Kish, and D. F. Welch, “400 Gbit/s (10 channel × 40 Gbit/s) DWDM photonic integrated circuits,” Electron. Lett.41(6), 347–349 (2005).
[CrossRef]

Kato, M.

R. Nagarajan, M. Kato, V. G. Dominic, C. H. Joyner, R. P. Schneider, A. G. Dentai, T. Desikan, P. W. Evans, M. Kauffman, D. J. H. Lambert, S. K. Mathis, A. Mathur, M. L. Mitchell, M. J. Missey, S. Murthy, A. C. Nilsson, F. H. Peters, J. L. Pleumeekers, R. A. Salvatore, R. B. Taylor, M. F. Van Leeuwen, J. Webjorn, M. Ziari, S. G. Grubb, D. Perkins, M. Reffle, D. G. Mehuys, F. A. Kish, and D. F. Welch, “400 Gbit/s (10 channel × 40 Gbit/s) DWDM photonic integrated circuits,” Electron. Lett.41(6), 347–349 (2005).
[CrossRef]

Kauffman, M.

R. Nagarajan, M. Kato, V. G. Dominic, C. H. Joyner, R. P. Schneider, A. G. Dentai, T. Desikan, P. W. Evans, M. Kauffman, D. J. H. Lambert, S. K. Mathis, A. Mathur, M. L. Mitchell, M. J. Missey, S. Murthy, A. C. Nilsson, F. H. Peters, J. L. Pleumeekers, R. A. Salvatore, R. B. Taylor, M. F. Van Leeuwen, J. Webjorn, M. Ziari, S. G. Grubb, D. Perkins, M. Reffle, D. G. Mehuys, F. A. Kish, and D. F. Welch, “400 Gbit/s (10 channel × 40 Gbit/s) DWDM photonic integrated circuits,” Electron. Lett.41(6), 347–349 (2005).
[CrossRef]

Kish, F. A.

R. Nagarajan, M. Kato, V. G. Dominic, C. H. Joyner, R. P. Schneider, A. G. Dentai, T. Desikan, P. W. Evans, M. Kauffman, D. J. H. Lambert, S. K. Mathis, A. Mathur, M. L. Mitchell, M. J. Missey, S. Murthy, A. C. Nilsson, F. H. Peters, J. L. Pleumeekers, R. A. Salvatore, R. B. Taylor, M. F. Van Leeuwen, J. Webjorn, M. Ziari, S. G. Grubb, D. Perkins, M. Reffle, D. G. Mehuys, F. A. Kish, and D. F. Welch, “400 Gbit/s (10 channel × 40 Gbit/s) DWDM photonic integrated circuits,” Electron. Lett.41(6), 347–349 (2005).
[CrossRef]

Kleine-Ostmann, T.

T. Kleine-Ostmann and T. Nagatsuma, “A review on terahertz communications research,” Int. J. Infrared Millim. Waves32(2), 143–171 (2011).
[CrossRef]

Kodama, S.

H. Ito, S. Kodama, Y. Muramoto, T. Furuta, T. Nagatsuma, and T. Ishibashi, “High-speed and high-output InP-InGaAs unitraveling-carrier photodiodes,” IEEE J. Sel. Top. Quantum Electron.10(4), 709–727 (2004).
[CrossRef]

H. Ito, T. Furuta, S. Kodama, and T. Ishibashi, “InP/InGaAs uni-travelling-carrier photodiode with 310 GHz bandwidth,” Electron. Lett.36(21), 1809–1810 (2000).
[CrossRef]

T. Ishibashi, T. Furuta, H. Fushimi, S. Kodama, H. Ito, T. Nagatsuma, N. Shimizu, and Y. Miyamoto, “InP/InGaAs uni-traveling-carrier photodiodes,” IEICE Trans. Electron. E83-C(6), 938–949 (2000).

Kuo, F.-M.

J.-W. Shi, F.-M. Kuo, C.-J. Wu, C. L. Chang, C.-Y. Liu, C. Y. Chen, and J.-I. Chyi, “Extremely high saturation current-bandwidth product performance of a near-ballistic uni-traveling-carrier photodiode with a flip-chip bonding structure,” IEEE J. Quantum Electron.46(1), 80–86 (2010).
[CrossRef]

Lambert, D. J. H.

R. Nagarajan, M. Kato, V. G. Dominic, C. H. Joyner, R. P. Schneider, A. G. Dentai, T. Desikan, P. W. Evans, M. Kauffman, D. J. H. Lambert, S. K. Mathis, A. Mathur, M. L. Mitchell, M. J. Missey, S. Murthy, A. C. Nilsson, F. H. Peters, J. L. Pleumeekers, R. A. Salvatore, R. B. Taylor, M. F. Van Leeuwen, J. Webjorn, M. Ziari, S. G. Grubb, D. Perkins, M. Reffle, D. G. Mehuys, F. A. Kish, and D. F. Welch, “400 Gbit/s (10 channel × 40 Gbit/s) DWDM photonic integrated circuits,” Electron. Lett.41(6), 347–349 (2005).
[CrossRef]

Lelarge, F.

Liu, C.-Y.

J.-W. Shi, F.-M. Kuo, C.-J. Wu, C. L. Chang, C.-Y. Liu, C. Y. Chen, and J.-I. Chyi, “Extremely high saturation current-bandwidth product performance of a near-ballistic uni-traveling-carrier photodiode with a flip-chip bonding structure,” IEEE J. Quantum Electron.46(1), 80–86 (2010).
[CrossRef]

Mathis, S. K.

R. Nagarajan, M. Kato, V. G. Dominic, C. H. Joyner, R. P. Schneider, A. G. Dentai, T. Desikan, P. W. Evans, M. Kauffman, D. J. H. Lambert, S. K. Mathis, A. Mathur, M. L. Mitchell, M. J. Missey, S. Murthy, A. C. Nilsson, F. H. Peters, J. L. Pleumeekers, R. A. Salvatore, R. B. Taylor, M. F. Van Leeuwen, J. Webjorn, M. Ziari, S. G. Grubb, D. Perkins, M. Reffle, D. G. Mehuys, F. A. Kish, and D. F. Welch, “400 Gbit/s (10 channel × 40 Gbit/s) DWDM photonic integrated circuits,” Electron. Lett.41(6), 347–349 (2005).
[CrossRef]

Mathur, A.

R. Nagarajan, M. Kato, V. G. Dominic, C. H. Joyner, R. P. Schneider, A. G. Dentai, T. Desikan, P. W. Evans, M. Kauffman, D. J. H. Lambert, S. K. Mathis, A. Mathur, M. L. Mitchell, M. J. Missey, S. Murthy, A. C. Nilsson, F. H. Peters, J. L. Pleumeekers, R. A. Salvatore, R. B. Taylor, M. F. Van Leeuwen, J. Webjorn, M. Ziari, S. G. Grubb, D. Perkins, M. Reffle, D. G. Mehuys, F. A. Kish, and D. F. Welch, “400 Gbit/s (10 channel × 40 Gbit/s) DWDM photonic integrated circuits,” Electron. Lett.41(6), 347–349 (2005).
[CrossRef]

Mehuys, D. G.

R. Nagarajan, M. Kato, V. G. Dominic, C. H. Joyner, R. P. Schneider, A. G. Dentai, T. Desikan, P. W. Evans, M. Kauffman, D. J. H. Lambert, S. K. Mathis, A. Mathur, M. L. Mitchell, M. J. Missey, S. Murthy, A. C. Nilsson, F. H. Peters, J. L. Pleumeekers, R. A. Salvatore, R. B. Taylor, M. F. Van Leeuwen, J. Webjorn, M. Ziari, S. G. Grubb, D. Perkins, M. Reffle, D. G. Mehuys, F. A. Kish, and D. F. Welch, “400 Gbit/s (10 channel × 40 Gbit/s) DWDM photonic integrated circuits,” Electron. Lett.41(6), 347–349 (2005).
[CrossRef]

Missey, M. J.

R. Nagarajan, M. Kato, V. G. Dominic, C. H. Joyner, R. P. Schneider, A. G. Dentai, T. Desikan, P. W. Evans, M. Kauffman, D. J. H. Lambert, S. K. Mathis, A. Mathur, M. L. Mitchell, M. J. Missey, S. Murthy, A. C. Nilsson, F. H. Peters, J. L. Pleumeekers, R. A. Salvatore, R. B. Taylor, M. F. Van Leeuwen, J. Webjorn, M. Ziari, S. G. Grubb, D. Perkins, M. Reffle, D. G. Mehuys, F. A. Kish, and D. F. Welch, “400 Gbit/s (10 channel × 40 Gbit/s) DWDM photonic integrated circuits,” Electron. Lett.41(6), 347–349 (2005).
[CrossRef]

Mitchell, M. L.

R. Nagarajan, M. Kato, V. G. Dominic, C. H. Joyner, R. P. Schneider, A. G. Dentai, T. Desikan, P. W. Evans, M. Kauffman, D. J. H. Lambert, S. K. Mathis, A. Mathur, M. L. Mitchell, M. J. Missey, S. Murthy, A. C. Nilsson, F. H. Peters, J. L. Pleumeekers, R. A. Salvatore, R. B. Taylor, M. F. Van Leeuwen, J. Webjorn, M. Ziari, S. G. Grubb, D. Perkins, M. Reffle, D. G. Mehuys, F. A. Kish, and D. F. Welch, “400 Gbit/s (10 channel × 40 Gbit/s) DWDM photonic integrated circuits,” Electron. Lett.41(6), 347–349 (2005).
[CrossRef]

Miyamoto, Y.

T. Ishibashi, T. Furuta, H. Fushimi, S. Kodama, H. Ito, T. Nagatsuma, N. Shimizu, and Y. Miyamoto, “InP/InGaAs uni-traveling-carrier photodiodes,” IEICE Trans. Electron. E83-C(6), 938–949 (2000).

Moeller, L.

J. Federici and L. Moeller, “Review of terahertz and subterahertz wireless communications,” J. Appl. Phys.107(11), 111101 (2010).
[CrossRef]

Moodie, D.

A. Stohr, S. Babiel, P. J. Cannard, B. Charbonnier, F. van Dijk, S. Fedderwitz, D. Moodie, L. Pavlovic, L. Ponnampalam, C. C. Renaud, D. Rogers, V. Rymanov, A. Seeds, A. G. Steffan, A. Umbach, and M. Weiß, “Millimeter-wave photonic components for broadband wireless systems,” IEEE Trans. Microw. Theory Tech.58(11), 3071–3082 (2010).
[CrossRef]

Moodie, D. G.

E. Rouvalis, C. C. Renaud, D. G. Moodie, M. J. Robertson, and A. J. Seeds, “Continuous wave terahertz generation from ultra-fast InP-based photodiodes,” IEEE Trans. Microw. Theory Tech.60(3), 509–517 (2012).
[CrossRef]

E. Rouvalis, C. C. Renaud, D. G. Moodie, M. J. Robertson, and A. J. Seeds, “Traveling-wave uni-traveling carrier photodiodes for continuous wave THz generation,” Opt. Express18(11), 11105–11110 (2010).
[CrossRef] [PubMed]

Morrison, G. B.

J. W. Raring, E. J. Skogen, C. S. Wang, J. S. Barton, G. B. Morrison, S. Demiguel, S. P. Denbaars, and L. A. Coldren, “Design and demonstration of novel QW intermixing scheme for the integration of UTC-type photodiodes with QW-based components,” IEEE J. Quantum Electron.42(2), 171–181 (2006).
[CrossRef]

Muramoto, Y.

H. Ito, S. Kodama, Y. Muramoto, T. Furuta, T. Nagatsuma, and T. Ishibashi, “High-speed and high-output InP-InGaAs unitraveling-carrier photodiodes,” IEEE J. Sel. Top. Quantum Electron.10(4), 709–727 (2004).
[CrossRef]

Murthy, S.

R. Nagarajan, M. Kato, V. G. Dominic, C. H. Joyner, R. P. Schneider, A. G. Dentai, T. Desikan, P. W. Evans, M. Kauffman, D. J. H. Lambert, S. K. Mathis, A. Mathur, M. L. Mitchell, M. J. Missey, S. Murthy, A. C. Nilsson, F. H. Peters, J. L. Pleumeekers, R. A. Salvatore, R. B. Taylor, M. F. Van Leeuwen, J. Webjorn, M. Ziari, S. G. Grubb, D. Perkins, M. Reffle, D. G. Mehuys, F. A. Kish, and D. F. Welch, “400 Gbit/s (10 channel × 40 Gbit/s) DWDM photonic integrated circuits,” Electron. Lett.41(6), 347–349 (2005).
[CrossRef]

Nagarajan, R.

R. Nagarajan, M. Kato, V. G. Dominic, C. H. Joyner, R. P. Schneider, A. G. Dentai, T. Desikan, P. W. Evans, M. Kauffman, D. J. H. Lambert, S. K. Mathis, A. Mathur, M. L. Mitchell, M. J. Missey, S. Murthy, A. C. Nilsson, F. H. Peters, J. L. Pleumeekers, R. A. Salvatore, R. B. Taylor, M. F. Van Leeuwen, J. Webjorn, M. Ziari, S. G. Grubb, D. Perkins, M. Reffle, D. G. Mehuys, F. A. Kish, and D. F. Welch, “400 Gbit/s (10 channel × 40 Gbit/s) DWDM photonic integrated circuits,” Electron. Lett.41(6), 347–349 (2005).
[CrossRef]

Nagatsuma, T.

H.-J. Song and T. Nagatsuma, “Present and future of terahertz communications,” IEEE Trans. Terahertz Sci. Technol.1(1), 256–263 (2011).
[CrossRef]

T. Kleine-Ostmann and T. Nagatsuma, “A review on terahertz communications research,” Int. J. Infrared Millim. Waves32(2), 143–171 (2011).
[CrossRef]

H. Ito, S. Kodama, Y. Muramoto, T. Furuta, T. Nagatsuma, and T. Ishibashi, “High-speed and high-output InP-InGaAs unitraveling-carrier photodiodes,” IEEE J. Sel. Top. Quantum Electron.10(4), 709–727 (2004).
[CrossRef]

T. Ishibashi, T. Furuta, H. Fushimi, S. Kodama, H. Ito, T. Nagatsuma, N. Shimizu, and Y. Miyamoto, “InP/InGaAs uni-traveling-carrier photodiodes,” IEICE Trans. Electron. E83-C(6), 938–949 (2000).

Nilsson, A. C.

R. Nagarajan, M. Kato, V. G. Dominic, C. H. Joyner, R. P. Schneider, A. G. Dentai, T. Desikan, P. W. Evans, M. Kauffman, D. J. H. Lambert, S. K. Mathis, A. Mathur, M. L. Mitchell, M. J. Missey, S. Murthy, A. C. Nilsson, F. H. Peters, J. L. Pleumeekers, R. A. Salvatore, R. B. Taylor, M. F. Van Leeuwen, J. Webjorn, M. Ziari, S. G. Grubb, D. Perkins, M. Reffle, D. G. Mehuys, F. A. Kish, and D. F. Welch, “400 Gbit/s (10 channel × 40 Gbit/s) DWDM photonic integrated circuits,” Electron. Lett.41(6), 347–349 (2005).
[CrossRef]

Pavlovic, L.

A. Stohr, S. Babiel, P. J. Cannard, B. Charbonnier, F. van Dijk, S. Fedderwitz, D. Moodie, L. Pavlovic, L. Ponnampalam, C. C. Renaud, D. Rogers, V. Rymanov, A. Seeds, A. G. Steffan, A. Umbach, and M. Weiß, “Millimeter-wave photonic components for broadband wireless systems,” IEEE Trans. Microw. Theory Tech.58(11), 3071–3082 (2010).
[CrossRef]

Perkins, D.

R. Nagarajan, M. Kato, V. G. Dominic, C. H. Joyner, R. P. Schneider, A. G. Dentai, T. Desikan, P. W. Evans, M. Kauffman, D. J. H. Lambert, S. K. Mathis, A. Mathur, M. L. Mitchell, M. J. Missey, S. Murthy, A. C. Nilsson, F. H. Peters, J. L. Pleumeekers, R. A. Salvatore, R. B. Taylor, M. F. Van Leeuwen, J. Webjorn, M. Ziari, S. G. Grubb, D. Perkins, M. Reffle, D. G. Mehuys, F. A. Kish, and D. F. Welch, “400 Gbit/s (10 channel × 40 Gbit/s) DWDM photonic integrated circuits,” Electron. Lett.41(6), 347–349 (2005).
[CrossRef]

Peters, F. H.

R. Nagarajan, M. Kato, V. G. Dominic, C. H. Joyner, R. P. Schneider, A. G. Dentai, T. Desikan, P. W. Evans, M. Kauffman, D. J. H. Lambert, S. K. Mathis, A. Mathur, M. L. Mitchell, M. J. Missey, S. Murthy, A. C. Nilsson, F. H. Peters, J. L. Pleumeekers, R. A. Salvatore, R. B. Taylor, M. F. Van Leeuwen, J. Webjorn, M. Ziari, S. G. Grubb, D. Perkins, M. Reffle, D. G. Mehuys, F. A. Kish, and D. F. Welch, “400 Gbit/s (10 channel × 40 Gbit/s) DWDM photonic integrated circuits,” Electron. Lett.41(6), 347–349 (2005).
[CrossRef]

Pleumeekers, J. L.

R. Nagarajan, M. Kato, V. G. Dominic, C. H. Joyner, R. P. Schneider, A. G. Dentai, T. Desikan, P. W. Evans, M. Kauffman, D. J. H. Lambert, S. K. Mathis, A. Mathur, M. L. Mitchell, M. J. Missey, S. Murthy, A. C. Nilsson, F. H. Peters, J. L. Pleumeekers, R. A. Salvatore, R. B. Taylor, M. F. Van Leeuwen, J. Webjorn, M. Ziari, S. G. Grubb, D. Perkins, M. Reffle, D. G. Mehuys, F. A. Kish, and D. F. Welch, “400 Gbit/s (10 channel × 40 Gbit/s) DWDM photonic integrated circuits,” Electron. Lett.41(6), 347–349 (2005).
[CrossRef]

Ponnampalam, L.

A. Stohr, S. Babiel, P. J. Cannard, B. Charbonnier, F. van Dijk, S. Fedderwitz, D. Moodie, L. Pavlovic, L. Ponnampalam, C. C. Renaud, D. Rogers, V. Rymanov, A. Seeds, A. G. Steffan, A. Umbach, and M. Weiß, “Millimeter-wave photonic components for broadband wireless systems,” IEEE Trans. Microw. Theory Tech.58(11), 3071–3082 (2010).
[CrossRef]

Raring, J. W.

J. W. Raring, E. J. Skogen, C. S. Wang, J. S. Barton, G. B. Morrison, S. Demiguel, S. P. Denbaars, and L. A. Coldren, “Design and demonstration of novel QW intermixing scheme for the integration of UTC-type photodiodes with QW-based components,” IEEE J. Quantum Electron.42(2), 171–181 (2006).
[CrossRef]

Reffle, M.

R. Nagarajan, M. Kato, V. G. Dominic, C. H. Joyner, R. P. Schneider, A. G. Dentai, T. Desikan, P. W. Evans, M. Kauffman, D. J. H. Lambert, S. K. Mathis, A. Mathur, M. L. Mitchell, M. J. Missey, S. Murthy, A. C. Nilsson, F. H. Peters, J. L. Pleumeekers, R. A. Salvatore, R. B. Taylor, M. F. Van Leeuwen, J. Webjorn, M. Ziari, S. G. Grubb, D. Perkins, M. Reffle, D. G. Mehuys, F. A. Kish, and D. F. Welch, “400 Gbit/s (10 channel × 40 Gbit/s) DWDM photonic integrated circuits,” Electron. Lett.41(6), 347–349 (2005).
[CrossRef]

Renaud, C. C.

M. J. Fice, E. Rouvalis, F. van Dijk, A. Accard, F. Lelarge, C. C. Renaud, G. Carpintero, and A. J. Seeds, “146-GHz millimeter-wave radio-over-fiber photonic wireless transmission system,” Opt. Express20(2), 1769–1774 (2012).
[CrossRef] [PubMed]

E. Rouvalis, M. Chtioui, M. Tran, F. Lelarge, F. van Dijk, M. J. Fice, C. C. Renaud, G. Carpintero, and A. J. Seeds, “High-speed photodiodes for InP-based photonic integrated circuits,” Opt. Express20(8), 9172–9177 (2012).
[CrossRef] [PubMed]

E. Rouvalis, C. C. Renaud, D. G. Moodie, M. J. Robertson, and A. J. Seeds, “Continuous wave terahertz generation from ultra-fast InP-based photodiodes,” IEEE Trans. Microw. Theory Tech.60(3), 509–517 (2012).
[CrossRef]

A. Stohr, S. Babiel, P. J. Cannard, B. Charbonnier, F. van Dijk, S. Fedderwitz, D. Moodie, L. Pavlovic, L. Ponnampalam, C. C. Renaud, D. Rogers, V. Rymanov, A. Seeds, A. G. Steffan, A. Umbach, and M. Weiß, “Millimeter-wave photonic components for broadband wireless systems,” IEEE Trans. Microw. Theory Tech.58(11), 3071–3082 (2010).
[CrossRef]

E. Rouvalis, C. C. Renaud, D. G. Moodie, M. J. Robertson, and A. J. Seeds, “Traveling-wave uni-traveling carrier photodiodes for continuous wave THz generation,” Opt. Express18(11), 11105–11110 (2010).
[CrossRef] [PubMed]

Robertson, M. J.

E. Rouvalis, C. C. Renaud, D. G. Moodie, M. J. Robertson, and A. J. Seeds, “Continuous wave terahertz generation from ultra-fast InP-based photodiodes,” IEEE Trans. Microw. Theory Tech.60(3), 509–517 (2012).
[CrossRef]

E. Rouvalis, C. C. Renaud, D. G. Moodie, M. J. Robertson, and A. J. Seeds, “Traveling-wave uni-traveling carrier photodiodes for continuous wave THz generation,” Opt. Express18(11), 11105–11110 (2010).
[CrossRef] [PubMed]

Rogers, D.

A. Stohr, S. Babiel, P. J. Cannard, B. Charbonnier, F. van Dijk, S. Fedderwitz, D. Moodie, L. Pavlovic, L. Ponnampalam, C. C. Renaud, D. Rogers, V. Rymanov, A. Seeds, A. G. Steffan, A. Umbach, and M. Weiß, “Millimeter-wave photonic components for broadband wireless systems,” IEEE Trans. Microw. Theory Tech.58(11), 3071–3082 (2010).
[CrossRef]

Rouvalis, E.

Rymanov, V.

A. Stohr, S. Babiel, P. J. Cannard, B. Charbonnier, F. van Dijk, S. Fedderwitz, D. Moodie, L. Pavlovic, L. Ponnampalam, C. C. Renaud, D. Rogers, V. Rymanov, A. Seeds, A. G. Steffan, A. Umbach, and M. Weiß, “Millimeter-wave photonic components for broadband wireless systems,” IEEE Trans. Microw. Theory Tech.58(11), 3071–3082 (2010).
[CrossRef]

Salvatore, R. A.

R. Nagarajan, M. Kato, V. G. Dominic, C. H. Joyner, R. P. Schneider, A. G. Dentai, T. Desikan, P. W. Evans, M. Kauffman, D. J. H. Lambert, S. K. Mathis, A. Mathur, M. L. Mitchell, M. J. Missey, S. Murthy, A. C. Nilsson, F. H. Peters, J. L. Pleumeekers, R. A. Salvatore, R. B. Taylor, M. F. Van Leeuwen, J. Webjorn, M. Ziari, S. G. Grubb, D. Perkins, M. Reffle, D. G. Mehuys, F. A. Kish, and D. F. Welch, “400 Gbit/s (10 channel × 40 Gbit/s) DWDM photonic integrated circuits,” Electron. Lett.41(6), 347–349 (2005).
[CrossRef]

Schneider, R. P.

R. Nagarajan, M. Kato, V. G. Dominic, C. H. Joyner, R. P. Schneider, A. G. Dentai, T. Desikan, P. W. Evans, M. Kauffman, D. J. H. Lambert, S. K. Mathis, A. Mathur, M. L. Mitchell, M. J. Missey, S. Murthy, A. C. Nilsson, F. H. Peters, J. L. Pleumeekers, R. A. Salvatore, R. B. Taylor, M. F. Van Leeuwen, J. Webjorn, M. Ziari, S. G. Grubb, D. Perkins, M. Reffle, D. G. Mehuys, F. A. Kish, and D. F. Welch, “400 Gbit/s (10 channel × 40 Gbit/s) DWDM photonic integrated circuits,” Electron. Lett.41(6), 347–349 (2005).
[CrossRef]

Seeds, A.

A. Stohr, S. Babiel, P. J. Cannard, B. Charbonnier, F. van Dijk, S. Fedderwitz, D. Moodie, L. Pavlovic, L. Ponnampalam, C. C. Renaud, D. Rogers, V. Rymanov, A. Seeds, A. G. Steffan, A. Umbach, and M. Weiß, “Millimeter-wave photonic components for broadband wireless systems,” IEEE Trans. Microw. Theory Tech.58(11), 3071–3082 (2010).
[CrossRef]

Seeds, A. J.

Shi, J.-W.

J.-W. Shi, F.-M. Kuo, C.-J. Wu, C. L. Chang, C.-Y. Liu, C. Y. Chen, and J.-I. Chyi, “Extremely high saturation current-bandwidth product performance of a near-ballistic uni-traveling-carrier photodiode with a flip-chip bonding structure,” IEEE J. Quantum Electron.46(1), 80–86 (2010).
[CrossRef]

Shimizu, N.

T. Ishibashi, T. Furuta, H. Fushimi, S. Kodama, H. Ito, T. Nagatsuma, N. Shimizu, and Y. Miyamoto, “InP/InGaAs uni-traveling-carrier photodiodes,” IEICE Trans. Electron. E83-C(6), 938–949 (2000).

Skogen, E. J.

J. W. Raring, E. J. Skogen, C. S. Wang, J. S. Barton, G. B. Morrison, S. Demiguel, S. P. Denbaars, and L. A. Coldren, “Design and demonstration of novel QW intermixing scheme for the integration of UTC-type photodiodes with QW-based components,” IEEE J. Quantum Electron.42(2), 171–181 (2006).
[CrossRef]

Song, H.-J.

H.-J. Song and T. Nagatsuma, “Present and future of terahertz communications,” IEEE Trans. Terahertz Sci. Technol.1(1), 256–263 (2011).
[CrossRef]

Steffan, A. G.

A. Stohr, S. Babiel, P. J. Cannard, B. Charbonnier, F. van Dijk, S. Fedderwitz, D. Moodie, L. Pavlovic, L. Ponnampalam, C. C. Renaud, D. Rogers, V. Rymanov, A. Seeds, A. G. Steffan, A. Umbach, and M. Weiß, “Millimeter-wave photonic components for broadband wireless systems,” IEEE Trans. Microw. Theory Tech.58(11), 3071–3082 (2010).
[CrossRef]

Stohr, A.

A. Stohr, S. Babiel, P. J. Cannard, B. Charbonnier, F. van Dijk, S. Fedderwitz, D. Moodie, L. Pavlovic, L. Ponnampalam, C. C. Renaud, D. Rogers, V. Rymanov, A. Seeds, A. G. Steffan, A. Umbach, and M. Weiß, “Millimeter-wave photonic components for broadband wireless systems,” IEEE Trans. Microw. Theory Tech.58(11), 3071–3082 (2010).
[CrossRef]

Taylor, R. B.

R. Nagarajan, M. Kato, V. G. Dominic, C. H. Joyner, R. P. Schneider, A. G. Dentai, T. Desikan, P. W. Evans, M. Kauffman, D. J. H. Lambert, S. K. Mathis, A. Mathur, M. L. Mitchell, M. J. Missey, S. Murthy, A. C. Nilsson, F. H. Peters, J. L. Pleumeekers, R. A. Salvatore, R. B. Taylor, M. F. Van Leeuwen, J. Webjorn, M. Ziari, S. G. Grubb, D. Perkins, M. Reffle, D. G. Mehuys, F. A. Kish, and D. F. Welch, “400 Gbit/s (10 channel × 40 Gbit/s) DWDM photonic integrated circuits,” Electron. Lett.41(6), 347–349 (2005).
[CrossRef]

Tran, M.

Umbach, A.

A. Stohr, S. Babiel, P. J. Cannard, B. Charbonnier, F. van Dijk, S. Fedderwitz, D. Moodie, L. Pavlovic, L. Ponnampalam, C. C. Renaud, D. Rogers, V. Rymanov, A. Seeds, A. G. Steffan, A. Umbach, and M. Weiß, “Millimeter-wave photonic components for broadband wireless systems,” IEEE Trans. Microw. Theory Tech.58(11), 3071–3082 (2010).
[CrossRef]

van Dijk, F.

E. Rouvalis, M. Chtioui, M. Tran, F. Lelarge, F. van Dijk, M. J. Fice, C. C. Renaud, G. Carpintero, and A. J. Seeds, “High-speed photodiodes for InP-based photonic integrated circuits,” Opt. Express20(8), 9172–9177 (2012).
[CrossRef] [PubMed]

M. J. Fice, E. Rouvalis, F. van Dijk, A. Accard, F. Lelarge, C. C. Renaud, G. Carpintero, and A. J. Seeds, “146-GHz millimeter-wave radio-over-fiber photonic wireless transmission system,” Opt. Express20(2), 1769–1774 (2012).
[CrossRef] [PubMed]

A. Stohr, S. Babiel, P. J. Cannard, B. Charbonnier, F. van Dijk, S. Fedderwitz, D. Moodie, L. Pavlovic, L. Ponnampalam, C. C. Renaud, D. Rogers, V. Rymanov, A. Seeds, A. G. Steffan, A. Umbach, and M. Weiß, “Millimeter-wave photonic components for broadband wireless systems,” IEEE Trans. Microw. Theory Tech.58(11), 3071–3082 (2010).
[CrossRef]

Van Leeuwen, M. F.

R. Nagarajan, M. Kato, V. G. Dominic, C. H. Joyner, R. P. Schneider, A. G. Dentai, T. Desikan, P. W. Evans, M. Kauffman, D. J. H. Lambert, S. K. Mathis, A. Mathur, M. L. Mitchell, M. J. Missey, S. Murthy, A. C. Nilsson, F. H. Peters, J. L. Pleumeekers, R. A. Salvatore, R. B. Taylor, M. F. Van Leeuwen, J. Webjorn, M. Ziari, S. G. Grubb, D. Perkins, M. Reffle, D. G. Mehuys, F. A. Kish, and D. F. Welch, “400 Gbit/s (10 channel × 40 Gbit/s) DWDM photonic integrated circuits,” Electron. Lett.41(6), 347–349 (2005).
[CrossRef]

Wang, C. S.

J. W. Raring, E. J. Skogen, C. S. Wang, J. S. Barton, G. B. Morrison, S. Demiguel, S. P. Denbaars, and L. A. Coldren, “Design and demonstration of novel QW intermixing scheme for the integration of UTC-type photodiodes with QW-based components,” IEEE J. Quantum Electron.42(2), 171–181 (2006).
[CrossRef]

Webjorn, J.

R. Nagarajan, M. Kato, V. G. Dominic, C. H. Joyner, R. P. Schneider, A. G. Dentai, T. Desikan, P. W. Evans, M. Kauffman, D. J. H. Lambert, S. K. Mathis, A. Mathur, M. L. Mitchell, M. J. Missey, S. Murthy, A. C. Nilsson, F. H. Peters, J. L. Pleumeekers, R. A. Salvatore, R. B. Taylor, M. F. Van Leeuwen, J. Webjorn, M. Ziari, S. G. Grubb, D. Perkins, M. Reffle, D. G. Mehuys, F. A. Kish, and D. F. Welch, “400 Gbit/s (10 channel × 40 Gbit/s) DWDM photonic integrated circuits,” Electron. Lett.41(6), 347–349 (2005).
[CrossRef]

Weiß, M.

A. Stohr, S. Babiel, P. J. Cannard, B. Charbonnier, F. van Dijk, S. Fedderwitz, D. Moodie, L. Pavlovic, L. Ponnampalam, C. C. Renaud, D. Rogers, V. Rymanov, A. Seeds, A. G. Steffan, A. Umbach, and M. Weiß, “Millimeter-wave photonic components for broadband wireless systems,” IEEE Trans. Microw. Theory Tech.58(11), 3071–3082 (2010).
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J.-W. Shi, F.-M. Kuo, C.-J. Wu, C. L. Chang, C.-Y. Liu, C. Y. Chen, and J.-I. Chyi, “Extremely high saturation current-bandwidth product performance of a near-ballistic uni-traveling-carrier photodiode with a flip-chip bonding structure,” IEEE J. Quantum Electron.46(1), 80–86 (2010).
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F. Xia, S. Dutta, and S. R. Forrest, “A monolithically integrated optical heterodyne receiver,” IEEE Photon. Technol. Lett.17(8), 1716–1718 (2005).
[CrossRef]

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R. Nagarajan, M. Kato, V. G. Dominic, C. H. Joyner, R. P. Schneider, A. G. Dentai, T. Desikan, P. W. Evans, M. Kauffman, D. J. H. Lambert, S. K. Mathis, A. Mathur, M. L. Mitchell, M. J. Missey, S. Murthy, A. C. Nilsson, F. H. Peters, J. L. Pleumeekers, R. A. Salvatore, R. B. Taylor, M. F. Van Leeuwen, J. Webjorn, M. Ziari, S. G. Grubb, D. Perkins, M. Reffle, D. G. Mehuys, F. A. Kish, and D. F. Welch, “400 Gbit/s (10 channel × 40 Gbit/s) DWDM photonic integrated circuits,” Electron. Lett.41(6), 347–349 (2005).
[CrossRef]

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H. Ito, S. Kodama, Y. Muramoto, T. Furuta, T. Nagatsuma, and T. Ishibashi, “High-speed and high-output InP-InGaAs unitraveling-carrier photodiodes,” IEEE J. Sel. Top. Quantum Electron.10(4), 709–727 (2004).
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F. Xia, S. Dutta, and S. R. Forrest, “A monolithically integrated optical heterodyne receiver,” IEEE Photon. Technol. Lett.17(8), 1716–1718 (2005).
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E. Rouvalis, C. C. Renaud, D. G. Moodie, M. J. Robertson, and A. J. Seeds, “Continuous wave terahertz generation from ultra-fast InP-based photodiodes,” IEEE Trans. Microw. Theory Tech.60(3), 509–517 (2012).
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A. Stohr, S. Babiel, P. J. Cannard, B. Charbonnier, F. van Dijk, S. Fedderwitz, D. Moodie, L. Pavlovic, L. Ponnampalam, C. C. Renaud, D. Rogers, V. Rymanov, A. Seeds, A. G. Steffan, A. Umbach, and M. Weiß, “Millimeter-wave photonic components for broadband wireless systems,” IEEE Trans. Microw. Theory Tech.58(11), 3071–3082 (2010).
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Other

J.-W. Shi, F.-M. Kuo, M. Rodwell, and J. E. Bowers, “Ultra-high speed (270 GHz) near-ballistic uni-traveling-carrier photodiode with very-high saturation current (17 mA) under a 50 Ω load,” in Proc. 2011 IEEE Photonics Conference (PHO), 21–22, 9–13 Oct. 2011.

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Figures (5)

Fig. 1
Fig. 1

Image of Coplanar Waveguide (CPW)-integrated UTC-PD chip with 2 × 10 μm2 active area and a 70 μm long optical input waveguide.

Fig. 2
Fig. 2

Experimental arrangement used for measurements in different frequency bands ranging from 90 to 220 GHz. Measurements up to 50 GHz were performed without a sub-harmonic down-converting mixer. For measurements up to 90 GHz, a calibrated power meter was used instead of the sub-harmonic mixer.

Fig. 3
Fig. 3

Responsivity measurement from a UTC-PD with 2 × 10 μm2 active area dimensions. The measurement was taken at a reverse bias voltage of 3 V.

Fig. 4
Fig. 4

Frequency response up to 200 GHz from UTC-PDs with 2 × 10 μm2 active area dimensions. The measurements were taken at a photocurrent of 5 mA and a reverse bias of 3 V.

Fig. 5
Fig. 5

Power saturation in the G-Band (140-220 GHz) from UTC-PDs with 2 × 10 μm2 active area dimensions. Reverse bias voltage was 3 V for all measurements.

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