None Kunitsyna E.V. scite author profile

None Kunitsyna E.V.

2Publications

0Citation Statements Received

76Citation Statements Given

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Ioffe Institute

Publications

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Gettering of epitaxial indium arsenide by the rare earth element holmium

E.V.

I.A.

et al. 2023

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The results of a study of the galvanomagnetic properties of indium arsenide grown by liquid-phase epitaxy are presented. It is shown that the use of the rare earth element holmium in the growth of InAs epitaxial layers makes it possible to reduce the electron concentration by two orders of magnitude to n=2.1·1015 cm-3 at T=77 K. This effect is due to the gettering of shallow background impurities with the formation of their compounds in the melt. With an increase in the holmium content of more than 0.12 mol.% the concentration of current carriers in the material begins to increase, while mobility decreases due to the influence of VAs-Ho donor centers. This method of gettering is promising for obtaining A3B5 materials with a low concentration of current carriers, which are in demand in the optoelectronic industry. Keywords: indium arsenide, rare earth element, Hall coefficient, concentration of current carriers, mobility of current carriers.

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Monopolarity of hot charge carrier multiplication in A-=SUP=-III-=/SUP=-B-=SUP=-V-=/SUP=- semiconductors at high electric field and noiseless avalanche photodiodes (a R e v i e w)

M.P.

A.P.

I.A.

et al. 2022

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The results of theoretical and experimental studies of impact ionization processes and charge carrier heating in multi-valley AIIIBV semiconductors at high electric field are presented and their relationship with the features of the band structure is discussed. A role of subsidiary L- and X-valleys, complex structure of the valence band and orientation dependence of the ionization coefficients are taken into account. A new approach to the choice of semiconductor materials with a large ratio of the ionization coefficients of holes and electrons to create the noiseless avalanche photodiodes due to monopolarity of hot charge carrier multiplication is proposed. Keywords: impact ionization, multi-valley semiconductors, band structure, monopolarity of multiplication, avalanche photodiodes.

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