Molecular spintronics: Coherent spin transfer in coupled quantum dots
- 26 May 2004
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review B
- Vol. 69 (19) , 195315
- https://doi.org/10.1103/physrevb.69.195315
Abstract
Time-resolved Faraday rotation has recently demonstrated coherent transfer of electron spin between quantum dots coupled by conjugated molecules. Using a transfer Hamiltonian ansatz for the coupled quantum dots, we calculate the Faraday rotation signal as a function of the probe frequency in a pump-probe setup using neutral quantum dots. Additionally, we study the signal of one spin-polarized excess electron in the coupled dots. We show that, in both cases, the Faraday rotation angle is determined by the spin transfer probabilities and the Heisenberg spin-exchange energy. By comparison of our results with experimental data, we find that the transfer matrix element for electrons in the conduction band is of order 0.08 eV and the spin transfer probabilities are of order 10%.Keywords
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This publication has 27 references indexed in Scilit:
- Spin and energy transfer in nanocrystals without tunnelingPhysical Review B, 2003
- Coherent Spin Transfer Between Molecularly Bridged Quantum DotsScience, 2003
- Tight-bindingg-factor calculations of CdSe nanostructuresPhysical Review B, 2003
- Effect of the surface on the electron quantum size levels and electrongfactor in spherical semiconductor nanocrystalsPhysical Review B, 2003
- Spin dynamics in semiconductor nanocrystalsPhysical Review B, 2002
- Spintronics: A Spin-Based Electronics Vision for the FutureScience, 2001
- Excitonic exchange splitting in bulk semiconductorsPhysical Review B, 1999
- Quantum computation with quantum dotsPhysical Review A, 1998
- Room-Temperature Spin Memory in Two-Dimensional Electron GasesScience, 1997
- Luminescence polarization of CdSe microcrystalsPhysical Review B, 1992