Standard

Exciton spectroscopy of optical reflection from wide quantum wells. / Khramtsov, E. S. ; Grigoryev, P. S. ; Loginov, D. K. ; Ignatiev, I. V. ; Efimov, Yu. P. ; Eliseev, S. A. ; Shapochkin, P. Yu. ; Ivchenko, E. L. ; Bayer, M.

In: Physical Review B - Condensed Matter and Materials Physics, Vol. 99, No. 3, 035431, 22.01.2019, p. с 035431-1 по 035431-9.

Research output: Contribution to journalArticlepeer-review

Harvard

Khramtsov, ES, Grigoryev, PS, Loginov, DK, Ignatiev, IV, Efimov, YP, Eliseev, SA, Shapochkin, PY, Ivchenko, EL & Bayer, M 2019, 'Exciton spectroscopy of optical reflection from wide quantum wells', Physical Review B - Condensed Matter and Materials Physics, vol. 99, no. 3, 035431, pp. с 035431-1 по 035431-9. https://doi.org/10.1103/PhysRevB.99.035431

APA

Khramtsov, E. S., Grigoryev, P. S., Loginov, D. K., Ignatiev, I. V., Efimov, Y. P., Eliseev, S. A., Shapochkin, P. Y., Ivchenko, E. L., & Bayer, M. (2019). Exciton spectroscopy of optical reflection from wide quantum wells. Physical Review B - Condensed Matter and Materials Physics, 99(3), с 035431-1 по 035431-9. [035431]. https://doi.org/10.1103/PhysRevB.99.035431

Vancouver

Khramtsov ES, Grigoryev PS, Loginov DK, Ignatiev IV, Efimov YP, Eliseev SA et al. Exciton spectroscopy of optical reflection from wide quantum wells. Physical Review B - Condensed Matter and Materials Physics. 2019 Jan 22;99(3):с 035431-1 по 035431-9. 035431. https://doi.org/10.1103/PhysRevB.99.035431

Author

Khramtsov, E. S. ; Grigoryev, P. S. ; Loginov, D. K. ; Ignatiev, I. V. ; Efimov, Yu. P. ; Eliseev, S. A. ; Shapochkin, P. Yu. ; Ivchenko, E. L. ; Bayer, M. / Exciton spectroscopy of optical reflection from wide quantum wells. In: Physical Review B - Condensed Matter and Materials Physics. 2019 ; Vol. 99, No. 3. pp. с 035431-1 по 035431-9.

BibTeX

@article{d1fd6dae2ae541749bf435a141996e17,
title = "Exciton spectroscopy of optical reflection from wide quantum wells",
abstract = "Optical spectroscopy of resonant reflection has been used for both experimental and theoretical studies of the exciton-light interaction in wide, high-quality quantum-well structures with the widths exceeding the exciton Bohr radius by an order of magnitude or more. The light mixes the low-lying confined exciton states which are captured by the generalized model developed by M. M. Voronov et al. [Phys. Solid State 49, 1792 (2007)PSOSED1063-783410.1134/S1063783407090302]. We demonstrate that the high-energy confined states in the wide QWs can still be described by the standard model in which the amplitude reflection coefficient from the QW is a sum of individual size-quantized exciton resonances. The excitonic parameters extracted from fitting the experimental spectrum to the standard model agree with those obtained by the numerical solution of the two-particle Schr{\"o}dinger equation in a rectangular quantum well. The measured and microscopically calculated spectra are compared with those found with the widely used model of the center-of-mass exciton quantization and the polaritonic model. The comparison shows that the two approximate models considerably underestimate the interaction of confined excitons with light because they ignore the strong modification of the exciton wave function near the QW interfaces.",
keywords = "EXCITON, EXCITON POLARITONS, Quantum wells, Nanostructures, Numerical techniques",
author = "Khramtsov, {E. S.} and Grigoryev, {P. S.} and Loginov, {D. K.} and Ignatiev, {I. V.} and Efimov, {Yu. P.} and Eliseev, {S. A.} and Shapochkin, {P. Yu.} and Ivchenko, {E. L.} and M. Bayer",
year = "2019",
month = jan,
day = "22",
doi = "10.1103/PhysRevB.99.035431",
language = "English",
volume = "99",
pages = "с 035431--1 по 035431--9",
journal = "Physical Review B-Condensed Matter",
issn = "1098-0121",
publisher = "American Physical Society",
number = "3",

}

RIS

TY - JOUR

T1 - Exciton spectroscopy of optical reflection from wide quantum wells

AU - Khramtsov, E. S.

AU - Grigoryev, P. S.

AU - Loginov, D. K.

AU - Ignatiev, I. V.

AU - Efimov, Yu. P.

AU - Eliseev, S. A.

AU - Shapochkin, P. Yu.

AU - Ivchenko, E. L.

AU - Bayer, M.

PY - 2019/1/22

Y1 - 2019/1/22

N2 - Optical spectroscopy of resonant reflection has been used for both experimental and theoretical studies of the exciton-light interaction in wide, high-quality quantum-well structures with the widths exceeding the exciton Bohr radius by an order of magnitude or more. The light mixes the low-lying confined exciton states which are captured by the generalized model developed by M. M. Voronov et al. [Phys. Solid State 49, 1792 (2007)PSOSED1063-783410.1134/S1063783407090302]. We demonstrate that the high-energy confined states in the wide QWs can still be described by the standard model in which the amplitude reflection coefficient from the QW is a sum of individual size-quantized exciton resonances. The excitonic parameters extracted from fitting the experimental spectrum to the standard model agree with those obtained by the numerical solution of the two-particle Schrödinger equation in a rectangular quantum well. The measured and microscopically calculated spectra are compared with those found with the widely used model of the center-of-mass exciton quantization and the polaritonic model. The comparison shows that the two approximate models considerably underestimate the interaction of confined excitons with light because they ignore the strong modification of the exciton wave function near the QW interfaces.

AB - Optical spectroscopy of resonant reflection has been used for both experimental and theoretical studies of the exciton-light interaction in wide, high-quality quantum-well structures with the widths exceeding the exciton Bohr radius by an order of magnitude or more. The light mixes the low-lying confined exciton states which are captured by the generalized model developed by M. M. Voronov et al. [Phys. Solid State 49, 1792 (2007)PSOSED1063-783410.1134/S1063783407090302]. We demonstrate that the high-energy confined states in the wide QWs can still be described by the standard model in which the amplitude reflection coefficient from the QW is a sum of individual size-quantized exciton resonances. The excitonic parameters extracted from fitting the experimental spectrum to the standard model agree with those obtained by the numerical solution of the two-particle Schrödinger equation in a rectangular quantum well. The measured and microscopically calculated spectra are compared with those found with the widely used model of the center-of-mass exciton quantization and the polaritonic model. The comparison shows that the two approximate models considerably underestimate the interaction of confined excitons with light because they ignore the strong modification of the exciton wave function near the QW interfaces.

KW - EXCITON

KW - EXCITON POLARITONS

KW - Quantum wells

KW - Nanostructures

KW - Numerical techniques

UR - http://www.scopus.com/inward/record.url?scp=85060386153&partnerID=8YFLogxK

U2 - 10.1103/PhysRevB.99.035431

DO - 10.1103/PhysRevB.99.035431

M3 - Article

VL - 99

SP - с 035431-1 по 035431-9

JO - Physical Review B-Condensed Matter

JF - Physical Review B-Condensed Matter

SN - 1098-0121

IS - 3

M1 - 035431

ER -

ID: 36392068