E. Altunkaya scite author profile

We report an enhancement of the electron spin relaxation time (T1) in a (110) InAs/GaSb superlattice by more than an order of magnitude (25 times) relative to the corresponding (001) structure. The spin dynamics were measured using polarization sensitive pump probe techniques and a mid-infrared, subpicosecond PPLN OPO. Longer T1 times in (110) superlattices are attributed to the suppression of the native interface asymmetry and bulk inversion asymmetry contributions to the precessional D'yakonov Perel spin relaxation process. Calculations using a nonperturbative 14-band nanostructure model give good agreement with experiment and indicate that possible structural inversion asymmetry contributions to T1 associated with compositional mixing at the superlattice interfaces may limit the observed spin lifetime in (110) superlattices. Our findings have implications for potential spintronics applications using InAs/GaSb heterostructures.Comment: 4 pages, 2 figure

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Interface contributions to spin relaxation in a short-period InAs/GaSb superlattice

Olesberg

Lau

Flatté

et al. 2001

Phys. Rev. B

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Linear and nonlinear coupling between transverse modes of a nanomechanical resonator

Truitt

Hertzberg

Altunkaya

et al. 2013

Journal of Applied Physics

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We measure both the linear and nonlinear coupling between transverse modes in a nanomechanical resonator. The nonlinear coupling is due to the displacement dependent tension of the resonator and leads to a frequency shift ("pulling") of each mode proportional to the square of the orthogonal mode's displacement amplitude. The linear coupling is apparent as an avoided crossing of the resonant frequencies that occurs when one electrostatically tunes the modes into degeneracy via a nearby DC gate. We consider the possibility that the linear coupling results from an electrostatic interaction and find that this effect can only partially explain the magnitude of the observed coupling. By measuring the coupled amplitudes magnetomotively at various angles to the applied field, we find that as the modes are tuned through the degeneracy point, they remain linearly polarized, while their planes of vibration rotate by 90. V C 2013 AIP Publishing LLC.[http://dx

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Growth, characterization, and spin dynamics of AlSb/GaSb/InAs heterostructures in [100] and [110] orientations

Zinck

Barvosa-Carter

Skeith

et al.

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

Boggess

Olesberg

Altunkaya

et al.

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E. Altunkaya

Spin relaxation in (110) and (001) InAs/GaSb superlattices

Interface contributions to spin relaxation in a short-period InAs/GaSb superlattice

Linear and nonlinear coupling between transverse modes of a nanomechanical resonator

Growth, characterization, and spin dynamics of AlSb/GaSb/InAs heterostructures in [100] and [110] orientations

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

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