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research article
Motion of Spin Polariton Bullets in Semiconductor Microcavities
The dynamics of optical switching in semiconductor microcavities in the strong coupling regime is studied by using time-and spatially resolved spectroscopy. The switching is triggered by polarized short pulses which create spin bullets of high polariton density. The spin packets travel with speeds of the order of 10(6) m/s due to the ballistic propagation and drift of exciton polaritons from high to low density areas. The speed is controlled by the angle of incidence of the excitation beams, which changes the polariton group velocity.
Type
research article
Web of Science ID
WOS:000296285800018
Authors
Adrados, C.
•
Liew, T. C. H.
•
Amo, A.
•
Martin, M. D.
•
Sanvitto, D.
•
Anton, C.
•
Giacobino, E.
•
Kavokin, A.
•
Bramati, A.
•
Vina, L.
Publication date
2011
Published in
Volume
107
Article Number
146402
Subjects
Peer reviewed
REVIEWED
EPFL units
Available on Infoscience
December 16, 2011
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