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28 results on '"Zegrya, G. G."'

1. Competition between isotropic and strongly anisotropic terms in the impact ionization rate of narrow- and middle-gap cubic semiconductors

Author

Afanasiev, A. N., Greshnov, A. A., and Zegrya, G. G.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We report on the strong anisotropy of the inter-band process of impact ionization in direct-gap cubic semiconductors with either weak or strong spin-orbit coupling at low effective temperatures of electron distribution $T$, and the crossover to isotropic behavior with increasing $T$. Such anisotropy is related to specific mechanism of the impact ionization involving coupling of the electron and heavy hole states $\it via$ remote bands, which is vanishing for some high-symmetry propagation directions of an initial electron, namely $\mathrm{[100]}$ and $\mathrm{[111]}$. At room temperature impact ionization rate in narrow-gap semiconductors $\mathrm{InSb}$, $\mathrm{InAs}$, $\mathrm{GaSb}$ and $\mathrm{In}_{0.53}\mathrm{Ga}_{0.47}\mathrm{As}$ is isotropic while in middle-gap $\mathrm{InP}$, $\mathrm{GaAs}$ and $\mathrm{CdTe}$ both terms are comparable. We propose simple and justified analytic generalization of Keldysh formula for the impact ionization rate valid for direct-gap semiconductors with $E_g$ up to $\mathrm{1.5}~\mathrm{eV}$, which is suitable for incorporation into modelling software., Comment: 8 pages, 5 figures

Published
2021

2. Size Effect in Electron Paramagnetic Resonance Spectra of Impurity Centers in Diamond Nanoparticles

Author

Zegrya, G. G., Samosvat, D. M., Osipov, V. Yu., Vul', A. Ya., and Shames, A. I.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The evolution of the polycrystalline pattern of electron paramagnetic resonance (EPR) spectra of intrinsic and induced paramagnetic centers in an ensemble of submicrometer diamond particles on diminishing average particle size is considered. Recent experimental data unambiguously demonstrate consistent reduction and then zeroing of typical hyperfine pattern from P1 centers on approaching a certain particle size and below it. These changes are accompanied by appearance and strengthening of new structureless signals. In small particles the electron wave function of a surface paramagnetic center is delocalized over the whole nanoparticle. In result the electron spin "experiences" the average field of all surrounding nuclei, which is zero. At the same time, the paramagnetic centers localized in the bulk of a nanoparticle are also cut off the hyperfine interaction due to the electron spin diffusion. Thus, upon the nanodiamond particle size decreases the hyperfine related features of the polycrystalline EPR spectrum become weaker and the spectrum appear to be structureless.

Published
2019

3. Resonance electronic excitation energy transfer in the quantum dot system

Author

Chikalova-Luzina, O. P., Samosvat, D. M., Vyatkin, V. M., and Zegrya, G. G.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Microscopic theory of the nonradiative energy transfer in a system of III-V semiconductor quantum dots is elaborated in our work. The energy transfer both due to direct Coulomb and due to exchange interactions between two quantum dots (energy donor and acceptor) is considered. An analysis of energy transfer process is performed in the frame of the Kane model that provides the most adequate description of the real energy spectra and wave functions of III-V semiconductors. The density-matrix method is applied, which enabled us to analyze the energy transfer rate both in the weak-interaction approximation and in the strong-interaction approximation. For the first time the detailed analytical calculations of the exchange energy transfer rate for the quantum dot system are performed. The analytical expressions for contributions to the transfer rate are derived. The numerical calculations showed that at nearly contact distances between two quantum dots the rate of the energy transfer due to the direct Coulomb interaction as well as by exchange interaction can reach the saturation. At the small distances, these two contributions can be of the same order and can have the same value in the saturation range. It is revealed that the exchange interaction should be taken into consideration in qualitative describing the energy transfer at small distances between the quantum dot donor and the quantum dot acceptor., Comment: 58 pages 7 figures

Published
2017
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4. On the impact ionization rate in direct gap semiconductors

Author

Afanasiev, A. N., Greshnov, A. A., and Zegrya, G . G.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We present quantum-mechanical theory of impact ionization in semiconductors with the direct band gap in \$\Gamma\$-point. It is shown that energy dependence of the impact ionization rate \$\mathcal{W}(E)\$ near a threshold \$E_{th}\$ is given by superposition of the two terms, one of which is strongly anisotropic and quadratic in \$E-E_{th}\$, while another one is isotropic and cubic in \$E-E_{th}\$. Explicit form of the coefficients in such representation is derived in the framework of the 14-band \${\bf k\cdot p}\$ model, and we claim the room temperature domination of the cubic contribution for most of the direct-gap materials with \$E_g\$ up to 1.5 eV., Comment: 9 pages (in Russian), 3 figures, JETP Letters vol. 105, iss. 9 (2017)

Published
2017
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5. Precision of Quantization of the Hall Conductivity in a Sample of Finite Size: Power Law

Author

Greshnov, A. A., Zegrya, G. G., and Kolesnikova, E. N.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

A microscopic calculation of the conductivity in the integer quantum Hall effect (IQHE) regime is carried out. The problem of precision of quantization is analyzed for samples of finite size. It is demonstrated that the precision of quantization shows a power-law dependence on the sample size. A new scaling parameter describing a dependence of this kind is introduced. It is also demonstrated that the precision of quantization linearly depends on the ratio between the amplitude of the chaotic potential and the cyclotron energy. The results obtained are compared with the magnetotransport measurements in mesoscopic samples., Comment: 5 pages, 4 figures

Published
2005
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15. Luminescence studies of HgCdTe- and InAsSb-based quantum-well structures.

Author

Izhnin, I. I., Izhnin, A. I., Fitsych, O. I., Voitsekhovskii, A. V., Gorn, D. I., Semakova, A. A., Bazhenov, N. L., Mynbaev, K. D., and Zegrya, G. G.

Subjects
QUANTUM wells, ELECTROLUMINESCENCE, MOLECULAR beam epitaxy, LUMINESCENCE, CHEMICAL vapor deposition, MESONS, ELECTRONIC materials
Abstract

Results of photoluminescence studies of single-quantum-well HgCdTe-based structures and electroluminescence studies of multiple-quantum-well InAsSb-based structures are reported. HgCdTe structures were grown with molecular beam epitaxy on GaAs substrates. InAsSb-based structures were grown with metal-organic chemical vapor deposition on InAs substrates. The common feature of luminescence spectra of all the structures was the presence of peaks with the energy much larger than that of calculated optical transitions between the first quantization levels for electrons and heavy holes. Possibility of observation of optical transitions between the quantization levels of electrons and first and/or second heavy and light hole levels is discussed in the paper in relation to the specifics of the electronic structure of the materials under consideration. [ABSTRACT FROM AUTHOR]

Published
2019
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16. AUGER RECOMBINATION IN QUANTUM WELL LASER WITH PARTICIPATION OF ELECTRONS IN WAVEGUIDE REGION.

Author

Karpova, A. A., Samosvat, D. M., Zegrya, A. G., Zegrya, G. G., and Bugrov, V. E.

Subjects
ELECTRONS, QUANTUM wells, COULOMB functions, SEMICONDUCTORS, CRYSTAL structure
Abstract

A new mechanism of nonradiative recombination of nonequilibrium carriers in semiconductor quantum wells is suggested and discussed. For a studied Auger recombination process the energy of localized electron-hole pair is transferred to barrier carriers due to Coulomb interaction. The analysis of the rate and the coefficient of this process is carried out. It is shown, that there exists two processes of thresholdless and quasithreshold types, and thresholdless one is dominant. The coefficient of studied process is a non-monotonous function of quantum well width having maximum in region of narrow quantum wells. Comparison of this process with CHCC process shows that these two processes of nonradiative recombination are competing in narrow quantum wells, but prevail at different quantum well widths. [ABSTRACT FROM AUTHOR]

Published
2018
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23. Theoretical Investigation of Intraband Absorption of Electromagnetic Radiation by Holes in Quantum Wells

Author

RUSSIAN ACADEMY OF SCIENCES SAINT PETERSBURG IOFFE PHYSICAL-TECHNICAL INST, Nezlobin, N. A., Polkovnikov, A. S., Zegrya, G. G., RUSSIAN ACADEMY OF SCIENCES SAINT PETERSBURG IOFFE PHYSICAL-TECHNICAL INST, Nezlobin, N. A., Polkovnikov, A. S., and Zegrya, G. G.

Abstract

Using four-band Kane model we calculate intraband absorption coefficient of light by holes followed by their transition to the spin-orbital split-off band for A(III)B(v) semiconductor quantum wells. It is shown that such an absorption mechanism is possible without any participation of a third particle like a phonon or an impurity and this mechanism can give the major contribution to the absorption of light in semiconductor quantum well lasers., Pres: 8th Int Symp Nanostructures: Physics and Technology, St Petersburg, Russia, 19-23 Jun 2000, p194-197. This article is from ADA407315 Nanostructures: Physics and Technology International Symposium (8th) Held in St. Petersburg, Russia on June 19-23, 2000 Proceedings

Published
2000

24. Mid Infrared Range Laser Based on Intersubband Transitions and Resonant Auger Processes in Quantum Wells

Author

RUSSIAN ACADEMY OF SCIENCES SAINT PETERSBURG IOFFE PHYSICAL-TECHNICAL INST, Vorobjev, L. E., Zegrya, G. G., Firsov, D. A., RUSSIAN ACADEMY OF SCIENCES SAINT PETERSBURG IOFFE PHYSICAL-TECHNICAL INST, Vorobjev, L. E., Zegrya, G. G., and Firsov, D. A.

Abstract

A new type of mid infrared semiconductor laser based on intersubband optical electron transitions in type II quantum wells with electrical or optical pumping is suggested. Inversion of population is created due to special shape of quantum well and resonant Auger recombination providing additional pumping of excited level., Pres: 8th Int Symp Nanostructures: Physics and Technology, St Petersburg, Russia, 19-23 Jun 2000, p84-87. This article is from ADA407315 Nanostructures: Physics and Technology International Symposium (8th) Held in St. Petersburg, Russia on June 19-23, 2000 Proceedings

Published
2000

25. Effect of Relaxation Processes on Auger Recombination in Semiconductor Quantum Wells

Author

RUSSIAN ACADEMY OF SCIENCES SAINT PETERSBURG IOFFE PHYSICAL-TECHNICAL INST, Polkovnikov, A. S., Dogonkine, E. B., Zegrya, G. G., RUSSIAN ACADEMY OF SCIENCES SAINT PETERSBURG IOFFE PHYSICAL-TECHNICAL INST, Polkovnikov, A. S., Dogonkine, E. B., and Zegrya, G. G.

Abstract

In this paper we study the effect of carrier relaxation processes on Auger recombination in semiconductor quantum wells. It is shown that the calculation in the framework of the conventional perturbation theory is not applicable in the case of narrow wells and wires because of its divergence. Therefore a more rigid Green function techniques is used. The relaxation processes are shown to increase Auger recombination coefficient. however their influence becomes weaker with decrease of the QW width. The transition from the QW to the bulk case is explicitly carried out., Pres: 7th Int Symp Nanostructures: Physics and Technology; St Petersburg, Russia, 14-18 Jun 1999. p386-389. This article is from ADA407055 Nanostructures: Physics and Technology. 7th International Symposium. St. Petersburg, Russia, June 14-18, 1999 Proceedings

Published
1999

26. Mechanisms of Auger Recombination in Semiconductor Quantum Wires

Author

RUSSIAN ACADEMY OF SCIENCES SAINT PETERSBURG IOFFE PHYSICAL-TECHNICAL INST, Dogonkine, E. B., Polkovnikov, A. S., Zegrya, G. G., RUSSIAN ACADEMY OF SCIENCES SAINT PETERSBURG IOFFE PHYSICAL-TECHNICAL INST, Dogonkine, E. B., Polkovnikov, A. S., and Zegrya, G. G.

Abstract

The principal mechanisms of Auger recombination (AR) of nonequilibrium carriers in cylindrical quantum wires (QWRs) are investigated. It is shown that there exist two different Auger recombination mechanisms of (i) quasithreshold and (ii) thresholdless types. These mechanisms onginate from the existence of barriers but have different nature. The quasithreshold mechanism is caused by confinement of carriers within the region of a quantum wire which makes the quasi- momentum conservation law approximate and enhances AR process. With increase of the wire radius this process turns to the threshold one. The thresholdless m%echanism relates to the violation of the momentum conservaflon law at the heteroboundary and disappears with the radius tending to infinity., Pres: 7th Int Symp Nanostructures: Physics and Technology, St Petersburg, Russia. 14-18 Jun 1999. p42-45. This article is from ADA407055 Nanostructures: Physics and Technology. 7th International Symposium. St. Petersburg, Russia, June 14-18, 1999 Proceedings

Published
1999

27. Blue Shift of Electroluminescence in AlGaAsSb/InGaAsSb Double Heterostructures with Asymmetric Band Offset Confinements

Author

RUSSIAN ACADEMY OF SCIENCES SAINT PETERSBURG IOFFE PHYSICAL-TECHNICAL INST, Mikhailova, M. P., Zhurtanov, B. E., Moiseev, K. D., Zegrya, G. G., Andreychuk, O. V., RUSSIAN ACADEMY OF SCIENCES SAINT PETERSBURG IOFFE PHYSICAL-TECHNICAL INST, Mikhailova, M. P., Zhurtanov, B. E., Moiseev, K. D., Zegrya, G. G., and Andreychuk, O. V.

Abstract

Pres: 6th Int Symp Nanostructures: Physics and Technology, St Petersburg, Russia. 22-26 Jun 1998. p406-409. This article is from ADA406591 Nanostructures: Physics and Technology International Symposium (6th) held in St. Petersburg, Russia on June 22-26, 1998 Proceedings

Published
1998

28. Auger Recombination in a Quantum Well in a Quantizing Magnetic Field

Author

RUSSIAN ACADEMY OF SCIENCES SAINT PETERSBURG IOFFE PHYSICAL-TECHNICAL INST, Zegrya, G. G., RUSSIAN ACADEMY OF SCIENCES SAINT PETERSBURG IOFFE PHYSICAL-TECHNICAL INST, and Zegrya, G. G.

Abstract

Basic mechanisms of Auger recombination of non-equilibrium carriers in quantum wells in the presence of a longitudinal quantizing magnetic field are studied. It is shown that two different recombination mechanisms are present: (i) a resonant non-threshold mechanism, (ii) a quasithreshold mechanism The rate of the resonant Auger process depends on the temperature slightly but on the magnetic field essentially. For the quasithreshold Auger recombination process, the threshold energy depends on both the quantum well width and mgnetic field. It is shown that the resonant Auger process dominates at low temperatures., Pres: 6th Int Symp Nanostructures: Physics and Technology, St Petersburg, Russia, 22-26 Jun 1998. p46-49. This article is from ADA406591 Nanostructures: Physics and Technology International Symposium (6th) held in St. Petersburg, Russia on June 22-26, 1998 Proceedings

Published
1998

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