Comparison of laser cooling of the lattice of wide-band-gap semiconductors using nonlinear or linear optical excitations

A generalized nonlocal energy-balance equation for excited carriers and phonons is established for studying the laser cooling of a lattice of a wide-band-gap semiconductor such as AlN using a He-Ne laser through a three-photon nonlinear excitation process. The power-exchange densities of the system...

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Veröffentlicht in:	Physical review. A, Atomic, molecular, and optical physics Atomic, molecular, and optical physics, 2005-01, Vol.71 (1), Article 013810
Hauptverfasser:	Apostolova, T., Huang, Danhong, Alsing, P., Cardimona, D.
Format:	Artikel
Sprache:	eng
Schlagworte:	ABSORPTION ALUMINIUM NITRIDES ATOMIC AND MOLECULAR PHYSICS COMPARATIVE EVALUATIONS COOLING DENSITY ENERGY GAP EXCITATION NONLINEAR PROBLEMS PHONONS PHOTONS SEMICONDUCTOR MATERIALS ULTRAVIOLET RADIATION
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container_title	Physical review. A, Atomic, molecular, and optical physics
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creator	Apostolova, T. Huang, Danhong Alsing, P. Cardimona, D.
description	A generalized nonlocal energy-balance equation for excited carriers and phonons is established for studying the laser cooling of a lattice of a wide-band-gap semiconductor such as AlN using a He-Ne laser through a three-photon nonlinear excitation process. The power-exchange densities of the system are calculated and compared for different strengths of the excitation field. When the power-exchange density is positive, it implies laser cooling of the lattice. The effects of initial lattice temperature and field-frequency detuning on the laser-cooling phenomenon under the three-photon nonlinear excitation process are described. The power-exchange densities are compared for both laser cooling and heating using linear and nonlinear excitations. We find that the linear excitation seems more favorable than the nonlinear excitation for laser cooling. However, the resonant three-photon nonlinear absorption will allow us the use of a common He-Ne laser for laser cooling of the lattice in AlN, rather than a more expensive ultraviolet laser.
doi_str_mv	10.1103/PhysRevA.71.013810
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subjects	ABSORPTION ALUMINIUM NITRIDES ATOMIC AND MOLECULAR PHYSICS COMPARATIVE EVALUATIONS COOLING DENSITY ENERGY GAP EXCITATION NONLINEAR PROBLEMS PHONONS PHOTONS SEMICONDUCTOR MATERIALS ULTRAVIOLET RADIATION
title	Comparison of laser cooling of the lattice of wide-band-gap semiconductors using nonlinear or linear optical excitations
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