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2002 Publications

InP-Based Edge-Emitters

IA. Tunable 1.55µm SGDBR Lasers

IB. Quantum-Well-Intermixing for Photonic ICs

  • E.J. Skogen, J.S. Barton, S.P. Denbaars, and L.A. Coldren, “Wavelength Agile Photonic Integrated Circuits using a Novel Quantum Well Intermixing Process,” Proc. OFC 2002, paper no. FB8-1, Anaheim, CA, (March 17–22, 2002)
  • J. Getty, E.J. Skogen, and L.A. Coldren, “Improved Quantum Well Intermixing (QWI) Method using Implantation into an Undoped Sacrificial Layer,” Proc. 2002 Electronic Materials Conf., Late News Abstracts, paper no. GG10, Santa Barbara, CA (June 26-28, 2002)
  • E.J. Skogen, J.S. Barton, S.P. DenBaars, and L.A. Coldren, “On Tuning Efficiency of Sampled Grating DBR Lasers using Quantum Well Intermixing,” Proc. Integrated Photonics Research Conf., paper no. IFC2, Vancouver, Canada, (July 17 – 19, 2002)
  • E.J. Skogen, J.S. Barton, S.P. Denbaars, and L.A. Coldren, “A Quantum-Well-Intermixing Process for Wavelength-Agile Photonic Integrated Circuits,” Journal of Selected Topics in Quantum Electronics, 8, (4), pp. 863-869, (July/August 2002)
  • E.J. Skogen, J.S. Barton, S.P. DenBaars, and L.A. Coldren, “Tunable Sampled-Grating DBR Lasers using Quantum Well Intermixing,” Photonics Technology Letters, 14, (9), pp. 1243-1245 (September 2002)
  • E.J. Skogen, J.S. Barton, M. Masanovic, J. Getty, S.P. DenBaars, and L.A. Coldren, “Use of Post-Growth Control of the Quantum-Well Band Edge for Optimized Widely-Tunable Laser-X Devices,” Proc. IEEE International Semiconductor Laser Conf., paper no. TuB5, Garmisch, Germany (Sept. 29-Oct. 3, 2002)

IC. Integrated Biosensors using InP-Based PICs

ID. Multiple-Active-Region 1.55µm Edge-Emitters

IE. Passive Waveguide Components

II. InP-Based Vertical-Cavity Devices

IIA. Long-Wavelength VCSELs

IIB. Vertical-Cavity Amplifiers at 1.55µm

  • P. Royo, R. Koda, and L.A. Coldren, “Vertical Cavity Semiconductor Optical Amplifiers: Comparison of Fabry-Perot and Rate Equation Approaches,” IEEE Journal of Quantum Electronics, 38, (3), pp. 279-284, (March 2002).
  • P. Royo, R. Koda, and L.A. Coldren, “Rate Equations of Vertical-Cavity Semiconductor Optical Amplifiers,” Applied Physics Letters, 80, (17), pp. 3057-3059, (April 2002)

IIC. Long-Wavelength Photodiodes

  • X.G. Zheng, J. Hsu, X. Sun, J.B. Hurst, X. Li, S. Wang, A.L. Holmes, Jr., J. Campbell, A.S. Huntington, and L.A. Coldren, “A 12 X 12 InGaAs/InAlAs Avalanche Photodetector Array,” Proc. Integrated Photonics Research Conf., paper no. IThE1-1, Vancouver, Canada (July 17-19, 2002)
  • X.G. Zheng, J.S. Hsu, X. Sun, J.B. Hurst, X. Li, S. Wang, Archie L. Holmes, Jr., J.C. Campbell, A.S. Huntington, and L.A. Coldren, “A 12 X 12 In0.53Ga0.47As-In0.52Al0.48As Avalanche Photodiode Array,” IEEE Journal of Quantum Electronics, 38, (11), pp.1536-1540, (Nov. 2002)
  • S. Wang, J.B. Hurst, F. Ma, R. Sidhu, X. Sun, X.G. Zheng, A.L. Holmes, Jr., A. Huntington, and L.A. Coldren, “Low-Noise Impact-Ionization-Engineered Avlanche Photodiodes Grown on InP Substrates,” Photonics Techology Letters, 14, (12), pp. 1722-1724, (Dec. 2002)

III. GaAs-Based Vertical-Cavity Devices

IV. GaN-Based Lasers