2,113 research outputs found
Spin and charge optical conductivities in spin-orbit coupled systems
We study the frequency dependent spin- and charge- conductivity tensors of a
two-dimensional electron gas (2DEG) with Rashba and Dresselhaus spin-orbit
interaction. We show that the angular anisotropy of the spin-splitting energy
induced by the interplay between the Rashba and Dresselhaus couplings gives
rise to a characteristic spectral behavior of the spin and charge response
which is significantly different from that of pure Rashba or Dresselhaus case.
Such new spectral structures open the possibility for control of the optical
response by applying an external bias and/or by adjusting the light frequency.
In addition, it is shown that the relative strength of the spin-orbit coupling
parameters can be obtained through optical probing.Comment: 13 pages, 4 figures. Revised versio
Small-angle impurity scattering and the spin Hall conductivity in 2D systems
An arbitrarily small concentration of impurities can affect the spin Hall
conductivity in a two-dimensional semiconductor system. We develop a
Boltzmann-like equation that can be used for impurity scattering with arbitrary
angular dependence, and for arbitrary angular dependence of the spin-orbit
field b(k) around the Fermi surface. For a model applicable to a 2D hole system
in GaAs, if the impurity scattering is not isotropic, we find that the spin
Hall conductivity depends on the derivative of b with respect to the energy and
on deviations from a parabolic band structure, as well as on the angular
dependence of the scattering. In principle, the resulting spin Hall
conductivity can be larger or smaller than the ``intrinsic value'', and can
have opposite sign. In the limit of small angle scattering, in a model
appropriate for small hole concentrations, where the band is parabolic and b ~
k^3, the spin Hall conductivity has opposite sign from the intrinsic value, and
has larger magnitude. Our analysis assumes that the spin-orbit splitting
and the transport scattering rate tau^{-1} are both small compared to the Fermi
energy, but the method is valid for for arbitrary value of b*tau.Comment: Errors corrected, references adde
Room temperature electron spin coherence in telecom-wavelength quaternary quantum wells
Time-resolved Kerr rotation spectroscopy is used to monitor the room
temperature electron spin dynamics of optical telecommunication wavelength
AlInGaAs multiple quantum wells lattice-matched to InP. We found that electron
spin coherence times and effective g-factors vary as a function of aluminum
concentration. The measured electron spin coherence times of these multiple
quantum wells, with wavelengths ranging from 1.26 microns to 1.53 microns,
reach approximately 100 ps at room temperature, and the measured electron
effective g-factors are in the range from -2.3 to -1.1.Comment: 4 pages, 4 figure
Fluktuasi Curah Hujan Dan Komunitas Serangga Di Hutan Tropis Taman Nasional Gunung Halimun*[fluctuation of Rainfall and Insect Community in a Tropical Forest, Gunung Halimun National Park]
Study on fluctuation of rainfall and insect community was conducted in a tropical forest, Gunung Halimun National Park. Ten years rainfall data was available to discuss their fluctuations. Rainfall was relatively non-seasonal with high number of almost entire monthly rainfalls.Although fluctuation of rainfall in GHNP did not show clear seasonal trend, however appearance of less rainfall showed from June to September. There were several slight fluctuations in the number of rainfalls from a month to another and some time showed major and minor peaks. Monthly dry months had never reached 0 mm. In ordinary years, only one-month drought occurred in July 1991 (90 mm) and December 2000 (8 mm). Strong drought occurred only during El Nino of 1994 and 1997, which have 3 to 4 dry months. Fluctuation of insect community was studied from March 2000 up to February 2001. Two insect collection methods were applied by setting up light traps and pitfall traps. Total individual of each order of insect counted monthly and to be compared one to another. Changing the number of monthly individual of each order was interpreted to the number of monthly rainfall in order to analyze the relation of changing of the number of rainfall and the individual of each order of the insect collected. Fluctuation of the number of monthly rainfall was synchronous to the number of insect community collected by light traps (night flying insect) but tend to opposite to the number of insect collected by pitfall traps (ground insect)
Generating Spin Currents in Semiconductors with the Spin Hall Effect
We investigate electrically-induced spin currents generated by the spin Hall
effect in GaAs structures that distinguish edge effects from spin transport.
Using Kerr rotation microscopy to image the spin polarization, we demonstrate
that the observed spin accumulation is due to a transverse bulk electron spin
current, which can drive spin polarization nearly 40 microns into a region in
which there is minimal electric field. Using a model that incorporates the
effects of spin drift, we determine the transverse spin drift velocity from the
magnetic field dependence of the spin polarization.Comment: 4 pages, 4 figure
Mechanical control of spin-orbit splitting in GaAs and InGaAs epilayers
Time-resolved Kerr rotation spectroscopy as a function of pump-probe
distance, voltage and magnetic field is used to measure the momentum-dependent
spin splitting energies in GaAs and InGaAs epilayers. The strain of the samples
can be reproducibly controlled in the cryostat using three- and four-point
bending applied with a mechanical vise. We find that the magnitude of the spin
splitting increases linearly with applied tension and voltage. A strain-drift
diffusion model is used to relate the magnitude of the measured spin-orbit
splitting to the amount of strain in the sample.Comment: 4 pages, 5 figure
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