K. Hansen scite author profile

Carrier concentration and mobility of unintentionally doped InP layers, grown directly on Si using metal-organic vapor-phase epitaxy, have been studied. The formation of antiphase domains (APDs) was found to depend on annealing of the Si substrate in an AsH3 flow prior to epitaxial growth. Dislocation densities determined by the wet chemical delineation technique were (8±1)×107 cm−3, seemingly uncorrelated to APDs in the layers. In addition to a shallow donor and a compensating acceptor, a deep donor was observed affecting the temperature dependence of the free-electron concentration between 77 and 300 K. The electron mobility in this temperature range could be described in terms of the scattering mechanisms which are dominant in homoepitaxial InP, namely, scattering due to polar optical phonons, to ionized impurities, and to space charges. Electron scattering due to either of these mechanisms was strongly influenced by the occurrence of antiphase boundaries (APBs). The space-charge density as well as the degree of compensation of the epitaxial layers increases with the density of APBs. Degraded 300 K mobilities were obtained indicating the effect of local stress at the APB.

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Dopant activation energy and hole effective mass in heavily Zn-Doped InP

Hansen

Peiner

Schlachetzki

et al. 1994

JEM

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Unintentional Redistribution of Zn in InGaAsP/InP Heterostructures

Peiner

Hansen

Lübbe

et al. 1996

jjap

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Thickness control of InP and In0.53 Ga0.47 As thin films by energy-dispersive X-ray spectrometry

1995

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K. Hansen

Shubnikov-de Haas effect and effective mass inn-InP in dependence on carrier concentration

Scattering mechanisms and defects in InP epitaxially grown on (001) Si substrates

Dopant activation energy and hole effective mass in heavily Zn-Doped InP

Unintentional Redistribution of Zn in InGaAsP/InP Heterostructures

Thickness control of InP and In0.53 Ga0.47 As thin films by energy-dispersive X-ray spectrometry

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