Journal
SOLID STATE COMMUNICATIONS
Volume 336, Issue -, Pages -Publisher
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.ssc.2021.114285
Keywords
Spin coherence; Spin stiffness; Time-resolved Kerr rotation; Two-dimensional electron system
Categories
Funding
- Russian Science Foundation [18-72-00126, 18-12-00246]
- Russian Science Foundation [18-12-00246, 18-72-00126] Funding Source: Russian Science Foundation
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The study investigates the structure of a time-resolved Kerr rotation signal for different spin states of a two-dimensional electron system subjected to a quantizing magnetic field. At low temperatures, with spin-spin correlations defining the ground state, the data show nonlinear damping of Larmor oscillations.
The spin coherence of two-dimensional electrons is determined by two independent mechanisms: a single particle relaxation owing to spatially fluctuating magnetic field, and a many-particle exchange interaction maintaining collective precession of the electron spins with a common Larmor frequency. In this study, we investigate the structure of a time-resolved Kerr rotation signal for the different spin states of two-dimensional electron system subjected to the quantizing magnetic field. At low temperatures, when spin-spin correlations define the ground state of the two-dimensional electron system, our data show a nonlinear damping of Larmor oscillations. The amplitude and the correlation length of the fluctuating magnetic field acting on individual electron spins are estimated.
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