Effects of hydrogen on the recently discovered defect-engineered spin filtering in GaNAs are investigated by optical spin orientation and optically detected magnetic resonance. Post-growth hydrogen treatments are shown to lead to nearly complete quenching of the room-temperature spin-filtering effect in both GaNAs epilayers and GaNAs/GaAs multiple quantum wells, accompanied by a reduction in concentrations of Gai interstitial defects. Our finding provides strong evidence for efficient hydrogen passivation of these spin-filtering defects, likely via formation of complexes between Gai defects and hydrogen, as being responsible for the observed strong suppression of the spin-filtering effect after the hydrogen treatments. © 2011 American Institute of Physics.
Room temperature spin filtering effect in GaNAs: Role of hydrogen / Y., Puttisong; D., Dagnelund; I. A., Buyanova; C. W., Tu; Polimeni, Antonio; Capizzi, Mario; W. M., Chen. - In: APPLIED PHYSICS LETTERS. - ISSN 0003-6951. - STAMPA. - 99:15(2011), pp. 152109-1-152109-3. [10.1063/1.3651761]
Room temperature spin filtering effect in GaNAs: Role of hydrogen
POLIMENI, Antonio;CAPIZZI, Mario;
2011
Abstract
Effects of hydrogen on the recently discovered defect-engineered spin filtering in GaNAs are investigated by optical spin orientation and optically detected magnetic resonance. Post-growth hydrogen treatments are shown to lead to nearly complete quenching of the room-temperature spin-filtering effect in both GaNAs epilayers and GaNAs/GaAs multiple quantum wells, accompanied by a reduction in concentrations of Gai interstitial defects. Our finding provides strong evidence for efficient hydrogen passivation of these spin-filtering defects, likely via formation of complexes between Gai defects and hydrogen, as being responsible for the observed strong suppression of the spin-filtering effect after the hydrogen treatments. © 2011 American Institute of Physics.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
