Analytical technique for determining the polarization dependence of optical matrix elements in quantum wires with band-coupling effects
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[1] Yasuhiko Arakawa,et al. Quantum noise and dynamics in quantum well and quantum wire lasers , 1984 .
[2] M. Asada,et al. Gain and the threshold of three-dimensional quantum-box lasers , 1986 .
[3] J. M. Luttinger. Quantum Theory of Cyclotron Resonance in Semiconductors: General Theory , 1956 .
[4] Gaines,et al. Optical anisotropy in a quantum-well-wire array with two-dimensional quantum confinement. , 1989, Physical review letters.
[5] K. Vahala,et al. Gain spectra of quantum wires with inhomogeneous broadening , 1989 .
[6] M. Asada,et al. Theoretical Gain of Quantum-Well Wire Lasers , 1985 .
[7] H. Sakaki,et al. Formation of planar superlattice states in new grid‐inserted quantum well structures , 1989 .
[8] N. O. Lipari,et al. Spherical Model of Shallow Acceptor States in Semiconductors , 1973 .
[9] E. Kane,et al. Band structure of indium antimonide , 1957 .
[10] Kerry J. Vahala,et al. Quantum box fabrication tolerance and size limits in semiconductors and their effect on optical gain , 1988 .