Allan S. Bracker, Daniel Gammon, Vladimir L. Korenev
Published 2008-09-10Version 1
We review spin properties of semiconductor quantum dots and their effect on optical spectra. Photoluminescence and other types of spectroscopy are used to probe neutral and charged excitons in individual quantum dots with high spectral and spatial resolution. Spectral fine structure and polarization reveal how quantum dot spins interact with each other and with their environment. By taking advantage of the selectivity of optical selection rules and spin relaxation, optical spin pumping of the ground state electron and nuclear spins is achieved. Through such mechanisms, light can be used to process spins for use as a carrier of information.
Graphene channels interfaced with an array of individual quantum dots
Valley polarization in MoS2 monolayers by optical pumping
Bistability of the Nuclear Polarisation created through optical pumping in InGaAs Quantum Dots
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