E. G. Kuzminov scite author profile

E. G. Kuzminov

5Publications

125Citation Statements Received

72Citation Statements Given

How they've been cited

131

114

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Affiliations

Physico-Technical Institute, Ioffe Institute, Russian Academy of Sciences

Publications

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The Self-Compression of Injected Electron-Hole Plasma in Silicon

Altukhov¹,

Kuzminov²

2002

phys. stat. sol. (b)

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A recombination radiation line of electron-hole plasma, observed in electroluminescence spectra of tunneling silicon MOS diodes, has been investigated at the temperature K T 300 ≥. The internal quantum efficiency of the luminescence, equal to 3 10) 3 1 (− × ÷ , appears to be unexpectedly high. The spectral position of the luminescence line indicates, that a weak overheating of the diode by the diode current results in an anomalously strong reduction of the semiconductor energy gap inside the electron-hole plasma. A unique threshold optical hysteresis is observed in the luminescence intensity with changing diode current. These results are explained by condensation of injected electron-hole plasma into a dense state. A reduction of the semiconductor energy gap due to generation of phonons by the plasma is discussed as a reason of the plasma condensation. The plasma condensation is identified as the plasma self-compression. 3

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Condensation of a hot electron–hole plasma in tunneling silicon MOS structures

Altukhov

Kuzminov

1999

Solid State Communications

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Raman scattering in ordered and disordered perovskite type crystals

et al. 1976

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Direct evidence of the self‐compression of injected electron–hole plasma in silicon

Altukhov

Kuzminov

2008

Physica Status Solidi (b)

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A surface distribution of the electroluminescence intensity of silicon p–n light‐emitting diodes is obtained under space‐scanning experiments at room temperature. An emitting surface of the diodes, represented by a few small bright emitting dots and a weakly emitting area outside the dots, serves as direct evidence of the self‐compression of injected electron–hole plasma in silicon. The plasma self‐compression explains concentration of injected carriers into one or a few strongly emitting plasma drops. (© 2008 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim)

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Light scattering study op the phase transition in TSCC

et al. 1980

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E. G. Kuzminov

The Self-Compression of Injected Electron-Hole Plasma in Silicon

Condensation of a hot electron–hole plasma in tunneling silicon MOS structures

Raman scattering in ordered and disordered perovskite type crystals

Direct evidence of the self‐compression of injected electron–hole plasma in silicon

Light scattering study op the phase transition in TSCC

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