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This article is cited in 8 scientific papers (total in 8 papers)
CONDENSED MATTER
Unusual narrowing of the ESR line width in ordered structures with linear chains of Ge/Si quantum dots
A. F. Zinovievaa, Zh. V. Smaginaa, A. V. Nenashevab, L. V. Kulikcb, A. V. Dvurechenskiiab a Rzhanov Institute of Semiconductor Physics SB of the RAS, 630090 Novosibirsk, Russia
b Novosibirsk State University, 630090 Novosibirsk, Russia
c Voevodsky Institute of Chemical Kinetics and Combustion SB of the RAS, 630090 Novosibirsk, Russia
Abstract:
Electron states in ordered Ge/Si heterostructures with linear chains of quantum dots (QDs) were studied by the electron spin resonance (ESR) method. A new ESR signal with principal $g$-factor values $g_{zz}=1.9993\pm0.0001$, $g_{xx}=g_{yy}=1.9990\pm0.0001$ was detected. Unlike non-ordered QD structures, where ESR line broadening is usually observed (evidence of Dyakonov–Perel mechanism efficiency), the structures under study demonstrate the narrowing of ESR line when the external magnetic field deviates from the growth direction. The ESR line width is $\Delta H=1.2$ Oe for perpendicular magnetic field (along the growth direction) and $\Delta H=0.8 $ Oe for in-plane magnetic field. The narrowing of ESR line can be explained by combination of two mechanisms. The first one is suppression of Dyakonov–Perel spin relaxation due to a settled direction of electron motion and finiteness of QD chains. The second one is cancelation of the wave function shrinking effect with decreasing the perpendicular component of the magnetic field.
Received: 04.06.2015 Revised: 15.06.2015
Citation:
A. F. Zinovieva, Zh. V. Smagina, A. V. Nenashev, L. V. Kulik, A. V. Dvurechenskii, “Unusual narrowing of the ESR line width in ordered structures with linear chains of Ge/Si quantum dots”, Pis'ma v Zh. Èksper. Teoret. Fiz., 102:2 (2015), 120–124; JETP Letters, 102:2 (2015), 108–112
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https://www.mathnet.ru/eng/jetpl4687 https://www.mathnet.ru/eng/jetpl/v102/i2/p120
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Abstract page: | 157 | Full-text PDF : | 46 | References: | 38 | First page: | 6 |
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