Two scales of quantum effects in a mesoscopic system of degenerate electrons
S.E. Kuratov†a,
D.S. Shidlovskia,b,
S.I. Blinnikova,b,
S.Yu. Igashova aDukhov Research Institute of Automatics, ul. Sushchevskaya 22, Moscow, 119017, Russian Federation bNational Research Center "Kurchatov Institute", Alikhanov Institute of Theoretical and Experimental Physics, ul. B. Cheremushkinskaya 25, Moscow, 117218, Russian Federation
A new nontrivial manifestation of quantum effects in a spherical mesoscopic system of degenerate electrons (with Ne ≲ 109 electrons) is demonstrated. Analysis shows that the electron distribution function has a large spatial scale, of the order of the system size, which is much greater than the other spatial scale, the Fermi length of the electron. This result is obtained following four different strategies: an analytic method of semiclassical Green's functions, direct numerical summation of the exact solutions for electron wave functions in an infinite potential well, numerical construction of the exact Green's function using two linearly independent solutions, and the density functional method. The results obtained with these methods are in good qualitative and quantitative agreement with each other. We relate the nature of this phenomenon to quantum shell effects in a spherical mesoscopic system.
Keywords: electron distribution in a spherical potential, Green's function, density-functional theory, jellium model PACS:31.15.E−, 71.10.Ca, 71.15.Mb, 73.20.−r (all) DOI:10.3367/UFNe.2020.08.038817 URL: https://ufn.ru/en/articles/2021/8/e/ 000711503200009 2-s2.0-85119689311 2021PhyU...64..836K Citation: Kuratov S E, Shidlovski D S, Blinnikov S I, Igashov S Yu "Two scales of quantum effects in a mesoscopic system of degenerate electrons" Phys. Usp.64 836–851 (2021)
RT Journal
T1 Two scales of quantum effects in a mesoscopic system of degenerate electrons
A1 Kuratov,S.E.
A1 Shidlovski,D.S.
A1 Blinnikov,S.I.
A1 Igashov,S.Yu.
PB Physics-Uspekhi
PY 2021
FD 10 Aug, 2021
JF Physics-Uspekhi
JO Phys. Usp.
VO 64
IS 8
SP 836-851
DO 10.3367/UFNe.2020.08.038817
LK https://ufn.ru/en/articles/2021/8/e/
Received: 8th, July 2020, accepted: 11th, August 2020