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W2017700098 abstract "Very recently, the electric dipole spin resonance (EDSR) of single electrons in quantum dots was discovered by three independent experimental groups. Remarkably, these observations revealed three different mechanisms of EDSR: coupling of electron spin to its momentum (spin-orbit), to the operator of its position (inhomogeneous Zeeman coupling), and to the hyperfine Overhauser field of nuclear spins. In this paper, I present a unified microscopic theory of these resonances in quantum dots. A mean field theory, derived for all three mechanisms and based on retaining only two-spin correlators, justifies applying macroscopic description of nuclear polarization to the EDSR theory. In the framework of the mean field theory, a fundamental difference in the time dependence of EDSR inherent of these mechanisms is revealed; it changes from the Rabi-type oscillations to a nearly monotonic growth. The theory provides a regular procedure to account for the higher nuclear-spin correlators that become of importance for a wider time span. For the hyperfine mechanism, they change the asymptotic behavior of EDSR dramatically. The theory also allows evaluating the effect of electron-spin dynamics on the effective coupling between nuclear spins." @default.
W2017700098 created "2016-06-24" @default.
W2017700098 creator A5003639347 @default.
W2017700098 date "2008-11-04" @default.
W2017700098 modified "2023-10-10" @default.
W2017700098 title "Theory of electric dipole spin resonance in quantum dots: Mean field theory with Gaussian fluctuations and beyond" @default.
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W2017700098 doi "https://doi.org/10.1103/physrevb.78.195302" @default.
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