Omar R. Qasaimeh, Ph.D.
Affiliations: | 2000 | University of Michigan, Ann Arbor, Ann Arbor, MI |
Area:
semiconductorsGoogle:
"Omar Qasaimeh"Mean distance: 16.24
Parents
Sign in to add mentorPallab K. Bhattacharya | grad student | 2000 | University of Michigan | |
(Monolithically integrated low-power phototransceivers and photoreceivers for application in an optoelectronic eye.) |
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Publications
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Qasaimeh O. (2020) Using graphene to tune vertical-cavity surface-emitting lasers Optical and Quantum Electronics. 52: 1-17 |
Qasaimeh O. (2020) Ultrafast and wide tunable VCSEL using graphene passive cavity Optical and Quantum Electronics. 52: 1-13 |
Qasaimeh O. (2019) An analytical model for vertical dual-cavity quantum-dot optical amplifiers Optical and Quantum Electronics. 51: 351 |
Qasaimeh O. (2018) All-optical multistability using cross-gain modulation in quantum-dot distributed feedback semiconductor optical amplifier Optical and Quantum Electronics. 50: 54 |
Qasaimeh O. (2017) Cross-Gain Modulation in Bistable Quantum-Dot VCSOAs Ieee Photonics Technology Letters. 29: 342-345 |
Qasaimeh O. (2017) Simple semi-analytical model for bistable cross-gain modulation in quantum dot VCSOAs Optical and Quantum Electronics. 49: 309 |
Qasaimeh O. (2017) Contrast ratio and hysteresis width of optical bistability in quantum-dot vertical-cavity semiconductor optical amplifiers integrated with MEMS membrane Optical and Quantum Electronics. 49: 109 |
Qasaimeh O. (2016) Novel Tunable Bistable Quantum-Dot Vertical-Cavity Semiconductor Optical Amplifiers Ieee Photonics Technology Letters. 28: 1553-1556 |
Qasaimeh O. (2016) Bistability characteristics of different types of optical modes amplified by quantum dot vertical cavity semiconductor optical amplifiers Optics Communications. 364: 115-122 |
Qasaimeh O. (2015) Novel closed-form solution for spin-polarization in quantum dot VCSEL Optics Communications. 350: 83-89 |