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Device Physics of Superlattices and Small Structures /

MARC record from Internet Archive

Record ID ia:devicephysicsofs00mcgi
Source Internet Archive
Download MARC XML https://archive.org/download/devicephysicsofs00mcgi/devicephysicsofs00mcgi_marc.xml
Download MARC binary https://www.archive.org/download/devicephysicsofs00mcgi/devicephysicsofs00mcgi_meta.mrc

LEADER: 02616nam 2200505Mu 4500
001 ocn227699675
003 OCoLC
005 20101015145008.0
008 080511s1987 vau 000 0 eng d
040 $aDTICE$cDTICE
035 $a(OCoLC)227699675
245 00 $aDevice Physics of Superlattices and Small Structures.
260 $aFt. Belvoir$bDefense Technical Information Center$c10 APR 1987.
300 $a88 p.
506 $aAPPROVED FOR PUBLIC RELEASE
520 $aExperimental and theoretical studies are presented of HgTe CdTe superlattices. We report the first study of the photoluminescence and photoconductivity spectra of superlattices. We find that Photoluminescence, photoconductivity and infrared absorption all point to the same band gap for the superlattice. Theoretical studies of these superlattices have given the first estimates of the magnitude of the optical absorption, the first study of the role of strain, and the first study of the role of the band offset in determining the properties of superlattices. We have also invented a novel electronic device that has negative resistance based on HgCdTe-CdTe-HgCdTe heterostructures. We have carried out the first theoretical studies of superlattices that include dilute magnetic semiconductors. Superlattices of CdTe-ZnTe have been studied experimentally and theoretically to give the first investigations of the properties of possible II-IV visible light emitters.
650 17 $aRadiation and Nuclear Chemistry.$2scgdst
650 27 $aSolid State Physics.$2scgdst
650 27 $aInfrared Detection and Detectors.$2scgdst
650 17 $aPhotoconductivity.$2dtict
650 17 $aCrystal lattices.$2dtict
650 17 $aInfrared detectors.$2dtict
650 17 $aPhotoluminescence.$2dtict
650 17 $aSolid state physics.$2dtict
650 27 $aDilution.$2dtict
650 27 $aElectronic equipment.$2dtict
650 27 $aEstimates.$2dtict
650 27 $aInfrared radiation.$2dtict
650 27 $aMagnetic materials.$2dtict
650 27 $aNegative resistance circuits.$2dtict
650 27 $aOptical properties.$2dtict
650 27 $aSemiconductors.$2dtict
650 27 $aStructures.$2dtict
650 27 $aLattice dynamics.$2dtict
650 27 $aCadmium tellurides.$2dtict
650 27 $aMercury compounds.$2dtict
650 27 $aZinc tellurides.$2dtict
650 27 $aRadiation absorption.$2dtict
653 2 $aSuperlattices
653 2 $aMercury tellurides
700 1 $aMcGill,T C
710 2 $aCALIFORNIA INST OF TECH PASADENA.
029 0 $aDTICE$bADA180473
994 $aZ0$bPMR
948 $hNO HOLDINGS IN PMR - 1 OTHER HOLDINGS