Your search keyword '"Mintairov, A. M."' showing total 2 results

1. Atomic ordering and bond relaxation in optical spectra of self-organized InP/GaInP2 Wigner molecule structures.

Author

Mintairov, A. M., Lebedev, D. V., Bert, N., Belyaev, K. G., Nevedomskiy, V. N., Rakhlin, M. V., Toropov, A. A., Vlasov, A. S., Gocalinska, A., Juska, G., Pelucchi, E., Arredondo, M. A., Naden, A. B., Shelaev, A. V., and Bykov, V. A.

Subjects

*OPTICAL spectra, *TRANSMISSION electron microscopy, *MAGNETIC fields, *QUANTUM dots, *RELAXATION for health, *PHOTOLUMINESCENCE

Abstract

We used transmission electron microscopy, Raman, and photoluminescence spectroscopy to identify the effect of CuPt-type GaP-InP atomic ordering (AO) on the structural and emission properties of self-organized (SO) InP/GaInP2 Wigner molecule (WM) quantum dot (QD) structures. We found that the correlation of AO and SO growth results in the formation of InP/GaInP2 QD/AO-domain (QD/AOD) core-shell composites. This observation shows that intrinsic WMs in this system emerge due to a strong piezoelectric field generated by AODs, which induces QD doping and a built-in magnetic field. We found that the bond relaxation of AODs leads to a decrease in the emission energy of WMs of 80 meV. The photoluminescence spectra of single WMs having an emission energy ∼1.53 eV are presented here, the lowest one reported for this system. [ABSTRACT FROM AUTHOR]

Published

2019

2. Excitonic lasing of strain-free InP(As) quantum dots in AlInAs microdisk.

Author

Lebedev, D. V., Kulagina, M. M., Troshkov, S. I., Vlasov, A. S., Davydov, V. Y., Smirnov, A. N., Bogdanov, A. A., Merz, J. L., Kapaldo, J., Gocalinska, A., Juska, G., Moroni, S. T., Pelucchi, E., Barettin, D., Rouvimov, S., and Mintairov, A. M.

Subjects

QUANTUM dots, QUANTUM electronics, INDIUM phosphide, TRANSMISSION electron microscopy, PHOTOLUMINESCENCE

Abstract

Formation, emission, and lasing properties of strain-free InP(As)/AlInAs quantum dots (QDs) embedded in AlInAs microdisk (MD) cavity were investigated using transmission electron microscopy and photoluminescence (PL) techniques. In MD structures, the QDs have the nano-pan-cake shape with the height of ~2 nm, the lateral size of 20-50 nm, and the density of ~5×109 cm-2. Their emission observed at ~940 nm revealed strong temperature quenching, which points to exciton decomposition. It also showed unexpected type-I character, indicating In-As intermixing as confirmed by band structure calculations. We observed lasing of InP(As) QD excitons into whispering gallery modes in MD having the diameter of ~3.2 lm and providing a free spectral range of ~27 nm and quality factors up to Q~13 000. Threshold of ~50 W/cm2 and spontaneous emission coupling coefficient of ~0.2 were measured for this MD-QD system. [ABSTRACT FROM AUTHOR]

Published

2017