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Near room-temperature continuous-wave operation of electrically pumped 1.55 μm vertical cavity lasers with InGaAsP/InP bottom mirror

, , , , , , , , and . Electronics Letters, 35 (1): 49-50 (January 1999)
DOI: 10.1049/el:19990014

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Long-wavelength vertical-cavity lasers, , , , , , , , , and 9 other author(s). 3625, page 304--314. SPIE, (1999)All epitaxial single-fused 1.55 μm vertical cavity laser based on an InP Bragg reflector, , , , , , and . page 303-306. (May 1998)Novel technologies for 1.55-mu m vertical cavity lasers, , , , , , , , , and 12 other author(s). Optical Engineering, 39 (2): 488--497 (2000)Systematics of electrical conductivity across InP to GaAs wafer fused interfaces, , , , , , , and . page 801-804. (May 1998)Temperature-dependent performance of 1.55 μm vertical-cavity lasers with InGaAsP/InP bottom mirror, , , , , , , and . page 223-226. (1999)Near room-temperature continuous-wave operation of electrically pumped 1.55 μm vertical cavity lasers with InGaAsP/InP bottom mirror, , , , , , , , and . Electronics Letters, 35 (1): 49-50 (January 1999)Evaluating a hardware-in-the-loop system intended for testing ventricular-assist device control and sensing algorithms., , , , and . ACC, page 1341-1346. IEEE, (2020)