Ultrafast electron spin relaxation in 6.1-angstrom-lattice-constant semiconductors

Ultrafast electron spin relaxation in 6.1-angstrom-lattice-constant semiconductors

Summary form only given. We describe ultrafast optical measurements of electron spin relaxation in InAs/GaSb superlattices with band gaps in the mid-infrared. Quantum structures comprised of semiconductors such as InAs and GaSb, with lattice constants of /spl sim/6.1-/spl Aring/, are currently being...

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Hauptverfasser: Boggess, T.F., Olesberg, J.T., Altunkaya, E., Yu, C., Flatte, M.E., Lau, W., Hasenberg, T.C., Shaw, E.M.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Electron optics
Gas lasers
Lattices
Optical superlattices
Optoelectronic devices
Photonic band gap
Resonance
Semiconductor diodes
Semiconductor superlattices
Ultrafast optics
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Zusammenfassung:Summary form only given. We describe ultrafast optical measurements of electron spin relaxation in InAs/GaSb superlattices with band gaps in the mid-infrared. Quantum structures comprised of semiconductors such as InAs and GaSb, with lattice constants of /spl sim/6.1-/spl Aring/, are currently being explored for application to a variety of advanced electronic and optoelectronic devices, including resonant-interband-tunneling diodes and mid-infrared lasers and detectors. The large spin-orbit coupling and interface asymmetry in these no-common-anion superlattices are expected to enhance the spin relaxation rates relative to, e.g., GaAs/Al(Ga)As heterostructures. We demonstrate that these factors lead to an unusual regime in which carrier spin relaxation occurs on a time scale comparable to energy relaxation.
DOI:10.1109/QELS.2001.962077