Ultraslow Electron Spin Dynamics in GaAs Quantum Wells Probed by Optically Pumped NMR

(2) Bell Laboratories; K. W. West (2) ((1) Department of Physics; L. N. Pfeiffer (2); Lucent Technologies); N. N. Kuzma (1); P. Khandelwal (1); S. E. Barrett (1); Yale University

arxiv: cond-mat/9907279 · v2 · submitted 1999-07-19 · ❄️ cond-mat.mes-hall

Ultraslow Electron Spin Dynamics in GaAs Quantum Wells Probed by Optically Pumped NMR

N. N. Kuzma (1) , P. Khandelwal (1) , S. E. Barrett (1) , L. N. Pfeiffer (2) , K. W. West (2) ((1) Department of Physics , Yale University , (2) Bell Laboratories , Lucent Technologies) This is my paper

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keywords electronquantumgroundmicrosecondsopticallypumpedspinstate

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Optically pumped nuclear magnetic resonance (OPNMR) measurements were performed in two different electron-doped multiple quantum well samples near the fractional quantum Hall effect ground state nu=1/3. Below 0.5K, the spectra provide evidence that spin-reversed charged excitations of the nu=1/3 ground state are localized over the NMR time scale of ~40 microseconds. Furthermore, by varying NMR pulse parameters, the electron spin temperature (as measured by the Knight shift) could be driven above the lattice temperature, which shows that the value of the electron spin-lattice relaxation time lies between 100 microseconds and 500 milliseconds at nu=1/3.

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Ultraslow Electron Spin Dynamics in GaAs Quantum Wells Probed by Optically Pumped NMR

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