B.C. Cavenett scite author profile

MgS has been grown by molecular beam epitaxy in the zincblende crystal structure on GaAs ͑100͒ substrates using a technique where the sources are Mg and ZnS. Layers up to 134 nm thick have been grown without any degradation in the crystal structure. The lattice constant was found to be 0.5619Ϯ0.0001 nm and Poisson's ratio was estimated to be 0.425. The success of this growth technique has allowed the fabrication of MgS/ZnSe/MgS quantum wells that show sharp photoluminescence and transmission spectra indicating less than 1 ML fluctuations of the well widths. The small inhomogeneous broadening of the samples has allowed magneto-optical studies of the exciton absorption where the observation of higher excited exciton states have been observed and the exciton binding energies, E X , have been measured directly, notably E X (1s -2s) Ͼh LO in a 5 nm well. The full width at half maximum of the heavy-hole absorption transitions for this sample has been measured as a function of temperature and no broadening of the excitonic transitions has been observed up to 150 K showing that the exciton-LO phonon scattering has been suppressed.

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Optically detected magnetic resonance (O.D.M.R.) investigations of recombination processes in semiconductors

Cavenett

1981

Advances in Physics

337

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Compensation processes in nitrogen doped ZnSe

Hauksson¹,

Simpson²,

Wang³

et al. 1992

189

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We have examined the compensation processes in nitrogen doped ZnSe grown by molecular beam epitaxy. Two independent donor–acceptor pair emission processes have been observed in photoassisted grown layers and detailed temperature dependence measurements have allowed us to conclude that a deep compensation donor with a binding energy of 44 meV exists in more heavily doped material. We propose that the compensating donor is a complex involving a native defect such as the (VSe-Zn-NSe) single donor and this suggestion is supported by the observation of changes in the carrier concentration profile with time.

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Growth of zinc blende MgS/ZnSe single quantum wells by molecular-beam epitaxy using ZnS as a sulphur source

Bradford

O'Donnell

Urbaszek

et al. 2000

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Zinc blende MgS has been grown on GaAs by molecular beam epitaxy using a novel method where the sources were Mg and ZnS. A reaction at the surface results in the formation of MgS layers with a Zn content estimated by secondary ion mass spectrometry and Auger spectroscopy to be between 0.5% and 2%. Double crystal x-ray rocking curve measurements of ZnSe/MgS/ZnSe layers show layers with good crystallinity. Using this growth technique layers up to 67 nm thick have been grown. Photoluminescence measurements of MgS/ZnSe/MgS single-quantum-well structures show that the confinement of the heavy hole excitons can be as large as 430 meV for a 1.7 nm well.

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Electron spin resonance of axially symmetric Cr³⁺centres in KMgF₃and KZnF₃

Patel

Davies

Cavenett

et al. 1976

J. Phys. C: Solid State Phys.

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B.C. Cavenett

Highly confined excitons in MgS/ZnSe quantum wells grown by molecular beam epitaxy

Optically detected magnetic resonance (O.D.M.R.) investigations of recombination processes in semiconductors

Compensation processes in nitrogen doped ZnSe

Growth of zinc blende MgS/ZnSe single quantum wells by molecular-beam epitaxy using ZnS as a sulphur source

Electron spin resonance of axially symmetric Cr³⁺centres in KMgF₃and KZnF₃

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B.C. Cavenett

Highly confined excitons in MgS/ZnSe quantum wells grown by molecular beam epitaxy

Optically detected magnetic resonance (O.D.M.R.) investigations of recombination processes in semiconductors

Compensation processes in nitrogen doped ZnSe

Growth of zinc blende MgS/ZnSe single quantum wells by molecular-beam epitaxy using ZnS as a sulphur source

Electron spin resonance of axially symmetric Cr3+centres in KMgF3and KZnF3

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Electron spin resonance of axially symmetric Cr³⁺centres in KMgF₃and KZnF₃