J. Muszalski scite author profile

Photoluminescence (PL) from GaAs quantum wells with widths from 50 to 300 A and AI,Ga,.,As barriers ( x = 0.3 and 1) was studied under pressure up to 35 kbar at two temperatures (300 K and 77 K). We used (and compared) three types of pressure devices: gas cells, liquid cells and the diamond-anvil cell. Accurate values for the pressure variation of the PL energy were obtained. They reveal the small dependence on the parameters of the well, in agreement with the envelope-function calculation. Pressure shift of the PL lines is the same at 77 K and at 300 K. In several samples we found the change of the pressure coefficient of the direct (r) line at the T-X crossover pressure. We interpret this as the resonance effect due to the mixing of the r state in t h e well with the X continuum in the barriers. This means that the pressure dependence of the quantum-well pressure. From our results we obtain the linear pressure coefficient of the GaAs energy gap equal to 11.6 meV kbar-'. The deformation potential of the gap seems to be almost independent of pressure u p to 15 kbar. shouIci noi be iiiied Wiih a singie Cur".e 'irelow and above ihe r-x CiosBOvei

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Lattice dilation by free electrons in heavily doped GaAs:Si

Leszczyński

Bąk‐Misiuk

Domagała

et al. 1995

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Lattice constants of GaAs layers grown by molecular beam epitaxy were examined by using the high resolution x-ray diffractometer. For highly doped samples ͑up to 9ϫ10 18 cm Ϫ3 of free-electron concentration͒ we observed an increase of the lattice constant with respect to the undoped layers. Since substitutional silicon atoms decrease the lattice constant of GaAs, the results are explained by the influence of free-electrons via the deformation potential of the ⌫ minimum of the conduction band. The best fit to our diffractometric data was obtained for the band-gap deformation potential equal to Ϫ8.5 eV.

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The influence of the growth rate and V/III ratio on the crystal quality of InGaAs/GaAs QW structures grown by MBE and MOCVD methods

Jasik

Wnuk

Gaca

et al. 2009

Journal of Crystal Growth

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Molecular-beam epitaxy growth and characterization of mid-infrared quantum cascade laser structures

Kosiel

Kubacka-Traczyk

Karbownik

et al. 2009

Microelectronics Journal

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J. Muszalski

Measurement of linewidth enhancement factor in self-assembled quantum dot semiconductor lasers emitting at 1310 nm

The effect of pressure on the luminescence from GaAs/AlGaAs quantum wells

Lattice dilation by free electrons in heavily doped GaAs:Si

The influence of the growth rate and V/III ratio on the crystal quality of InGaAs/GaAs QW structures grown by MBE and MOCVD methods

Molecular-beam epitaxy growth and characterization of mid-infrared quantum cascade laser structures

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