2014 - OSA Fellows Rui Qing Yang University of Oklahoma, U.S.A. For invention and development of the mid-infrared interband cascade laser and related optoelectronic devices.
Rui Q. Yang mostly deals with Optoelectronics, Laser, Quantum well, Interband cascade laser and Optics. Rui Q. Yang interconnects Quantum cascade laser and Infrared in the investigation of issues within Optoelectronics. His research in Laser focuses on subjects like Wavelength, which are connected to Excited state and Quantum dot.
The concepts of his Quantum well study are interwoven with issues in Population inversion and Conduction band. His work deals with themes such as Spectroscopy and Detection limit, which intersect with Interband cascade laser. His Optics research is multidisciplinary, incorporating perspectives in Quantum noise, Thermal fluctuations and Computational physics.
Rui Q. Yang spends much of his time researching Optoelectronics, Laser, Optics, Quantum well and Semiconductor laser theory. His study ties his expertise on Infrared together with the subject of Optoelectronics. His studies examine the connections between Laser and genetics, as well as such issues in Quantum efficiency, with regards to Photon.
In general Optics study, his work on Far-infrared laser, Optical communication and Quantum well infrared photodetector often relates to the realm of Cladding, thereby connecting several areas of interest. In Quantum well, he works on issues like Indium arsenide, which are connected to Gallium antimonide. His work is dedicated to discovering how Semiconductor laser theory, Quantum cascade laser are connected with Atomic physics and other disciplines.
His scientific interests lie mostly in Optoelectronics, Photodetector, Laser, Optics and Superlattice. His Optoelectronics study frequently intersects with other fields, such as Quantum well. His Quantum well study combines topics in areas such as Spontaneous emission, Doping, Gallium arsenide, Tunable laser and Continuous wave.
His biological study spans a wide range of topics, including Cutoff frequency, Quantum tunnelling, Infrared and Detector. His research in Laser intersects with topics in Photonics and Semiconductor. Rui Q. Yang combines subjects such as Threshold current and Waveguide with his study of Wavelength.
Optoelectronics, Optics, Photodetector, Infrared and Superlattice are his primary areas of study. His studies in Optoelectronics integrate themes in fields like Laser and Detector. He specializes in Laser, namely Quantum well.
His Quantum well research incorporates elements of Continuous wave and Semiconductor laser theory. His study looks at the relationship between Photodetector and topics such as Interband cascade laser, which overlap with Bandwidth and Wafer. He focuses mostly in the field of Superlattice, narrowing it down to topics relating to Band gap and, in certain cases, Energy conversion efficiency, Suns in alchemy, Photonic crystal, Absorption and Semiconductor.
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Infrared laser based on intersubband transitions in quantum wells
Rui Q. Yang.
Superlattices and Microstructures (1995)
Type-II and type-I interband cascade lasers
J.R. Meyer;I. Vurgaftman;R.Q. Yang;L.R. Ram-Mohan.
Electronics Letters (1996)
High power mid-infrared interband cascade lasers based on type-II quantum wells
Rui Q. Yang;B. H. Yang;D. Zhang;C.-H. Lin.
Applied Physics Letters (1997)
Type-II interband quantum cascade laser at 3.8 [micro sign]m
Chih-Hsiang Lin;Rui Q. Yang;D. Zhang;S. J. Murry.
Electronics Letters (1997)
Mid-infrared interband cascade lasers at thermoelectric cooler temperatures
K. Mansour;Y. Qiu;C.J. Hill;A. Soibel.
Electronics Letters (2006)
Selection rules of intersubband transitions in conduction-band quantum wells.
Rui Q. Yang;J. M. Xu;Mark Sweeny.
Physical Review B (1994)
Mid-infrared interband cascade lasers with quantum efficiencies >200%
B. H. Yang;D. Zhang;Rui Q. Yang;C.-H. Lin.
Applied Physics Letters (1998)
Mid-infrared type-II interband cascade lasers
R.Q. Yang;J.L. Bradshaw;J.D. Bruno;J.T. Pham.
IEEE Journal of Quantum Electronics (2002)
Type II mid‐infrared quantum well lasers
J. I. Malin;J. R. Meyer;C. L. Felix;J. R. Lindle.
Applied Physics Letters (1996)
Formaldehyde sensor using interband cascade laser based quartz-enhanced photoacoustic spectroscopy
M. Horstjann;Y.A. Bakhirkin;A.A. Kosterev;R.F. Curl.
Applied Physics B (2004)
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