D. Botez
D. Botez
Philip Dunham Reed Professor, University of Wisconsin-Madison
Verified email at engr.wisc.edu
Cited by
Cited by
Coupled‐mode analysis of phase‐locked injection laser arrays
JK Butler, DE Ackley, D Botez
Applied Physics Letters 44 (3), 293-295, 1984
Diode Laser Arrays (Cambridge Studies in Modern Optics)
Cambridge, UK: Cambridge Univ. Press, 1994
High-power (≫ 10 W) continuous-wave operation from 100-μm-aperture 0.97-μm-emitting Al-free diode lasers
A Al-Muhanna, LJ Mawst, D Botez, DZ Garbuzov, RU Martinelli, ...
Applied physics letters 73 (9), 1182-1184, 1998
8 W continuous wave front‐facet power from broad‐waveguide Al‐free 980 nm diode lasers
LJ Mawst, A Bhattacharya, J Lopez, D Botez, DZ Garbuzov, L DeMarco, ...
Applied physics letters 69 (11), 1532-1534, 1996
Design considerations and analytical approximations for high continuous-wave power, broad-waveguide diode lasers
D Botez
Applied physics letters 74 (21), 3102-3104, 1999
73% CW power conversion efficiency at 50 W from 970 nm diode laser bars
M Kanskar, T Earles, TJ Goodnough, E Stiers, D Botez, LJ Mawst
Electronics Letters 41 (5), 245-247, 2005
Narrow spectral width high-power distributed feedback semiconductor lasers
D Botez, TL Earles, LJ Mawst, LJ Mawst
US Patent 6,195,381, 2001
Phase-locked arrays of antiguides: model content and discrimination
D Botez, LJ Mawst, GL Peterson, TJ Roth
IEEE journal of quantum electronics 26 (3), 482-495, 1990
High‐power phase‐locked arrays of index‐guided diode lasers
D Botez, JC Connolly
Applied physics letters 43 (12), 1096-1098, 1983
High‐power, diffraction‐limited‐beam operation from phase‐locked diode‐laser arrays of closely spaced ‘‘leaky’’waveguides (antiguides)
D Botez, L Mawst, P Hayashida, G Peterson, TJ Roth
Applied physics letters 53 (6), 464-466, 1988
Determination of location and amount of series compensation to increase power transfer capability
R Rajarman, F Alvarado, A Maniaci, R Camfield, S Jalali
IEEE Transactions on Power Systems 13 (2), 294-300, 1998
cw high‐power single‐mode operation of constricted double‐heterojunction AlGaAs lasers with a large optical cavity
D Botez
Applied Physics Letters 36 (3), 190-192, 1980
Components for optical communications systems: A review
D Botez, GJ Herskowitz
Proceedings of the IEEE 68 (6), 689-731, 1980
66% CW wallplug efficiency from Al-free 0.98/spl mu/m-emitting diode lasers
D Botez, LJ Mawst, A Bhattacharya, J Lopez, J Li, TF Kuech, VP Iakovlev, ...
Electronics Letters 32 (21), 2012-2013, 1996
Resonant optical transmission and coupling in phase‐locked diode laser arrays of antiguides: The resonant optical waveguide array
D Botez, LJ Mawst, G Peterson, TJ Roth
Applied physics letters 54 (22), 2183-2185, 1989
Quantum cascade lasers on silicon
A Spott, J Peters, ML Davenport, EJ Stanton, C Zhang, WW Bewley, ...
Proc. of SPIE Vol 10123, 101230I-1, 2017
High-power monolithic phase-locked arrays of antiguided semiconductor diode lasers
D Botez
IEE Proceedings J (Optoelectronics) 139 (1), 14-23, 1992
Watt‐range, coherent, uniphase powers from phase‐locked arrays of antiguided diode lasers
D Botez, M Jansen, LJ Mawst, G Peterson, TJ Roth
Applied physics letters 58 (19), 2070-2072, 1991
Temperature dependence of the key electro-optical characteristics for midinfrared emitting quantum cascade lasers
D Botez, S Kumar, JC Shin, LJ Mawst, I Vurgaftman, JR Meyer
Applied physics letters 97 (7), 071101, 2010
Growth characteristics of GaAs‐Ga1−xAlxAs structures fabricated by liquid‐phase epitaxy over preferentially etched channels
D Botez, WT Tsang, S Wang
Applied Physics Letters 28 (4), 234-237, 1976
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