2,604 research outputs found
Ground state properties of dissipative two state system coupled to phonons
We present a systematic analysis of ground state properties of a tunneling
system coupled to an Ohmic bath. The nonadiabatic effects induced by coupling
with tunneling particle , on the ground state properties of phonons are taken
into account. For this we have considered both displacement and deformation of
phonons via a variational treatment. The symmetry breaking transition , or the
delocalization-localization transition of tunneling particle is presented and
is compared with earlier known results. We also show that in the critical
regime a gap will be opened near the zero momentum in the spectrum of the
phonons. The modified phonon spectrum along with the phonon displacement field
correlation functions have been calculated. It is shown that in the critical
regime the tunneling system stabilizes the lattice against long wavelength
fluctuations.Comment: To appear in IJOMPB. 5 figures available on reques
Stochastic resonance and nonlinear response in a dissipative quantum two-state system
We study the dynamics of a dissipative two-level, system driven by a
monochromatic ac field, starting from the usual spin-boson Hamiltonian. The
quantum Langevin equations for the spin variables are obtained. The amplitude
of the coherent oscillations in the average position of the particle is studied
in the high temperature limit. The system exhibits quantum stochastic resonance
in qualitative agreement with earlier numerical results.Comment: PRB April 1997, figures available on reques
Dephasing via stochastic absorption: A case study in Aharonov-Bohm oscillations
The Aharonov-Bohm ring has been the mainstay of mesoscopic physics research
since its inception. In this paper we have dwelt on the problem of dephasing of
AB oscillations using a phenomenological model based on stochastic absorption.
To calculate the conductance in the presence of inelastic scattering we have
used the method due to Brouwer and Beenakker. We have shown that conductance is
symmetric under flux reversal and visibility of AB oscillations decay to zero
as a function of the incoherence parameter thus signalling dephasing in the
system. Some comments are made on the relative merits of stochastic absorption
with respect to optical potential model, which have been used to mimic
dephasing.Comment: 4 pages, 4 figures Minor corrections made and journal reference adde
Persistent currents in coupled mesoscopic rings
We have analysed the nature of persistent currents in open coupled mesoscopic
rings. Our system is comprised of two ideal loops connected to an electron
reservoir. We have obtained analytical expressions for the persistent current
densities in two rings in the presence of a magnetic field. We show that the
known even-odd parity effects in isolated single loops have to be generalised
for the case of coupled rings. We also show that when the two rings have
unequal circumferences, it is possible to observe opposite currents
(diamagnetic or paramagnetic) in the two rings for a given Fermi level.Comment: Submitted to PRB. 9 figures availabel on reques
Photocatalytic treatment of shower water using a pilot scale reactor
Treatment of shower water deserves special consideration for reuse not only because of its low pollutant loading but also because it is produced in large quantities. In this study, a pilot scale study of photocatalytic degradation of impurities in real shower water was performed in a 31 L volume reactor using titanium dioxide as the photocatalyst. The reactor was operated in a continuous slurry recirculation mode. Several operational parameters were studied including the slurry initial pH, catalyst concentration, air flow rate, and slurry recirculation rate. Up to 57 of total organic carbon (TOC) elimination was obtained after 6 hours of treatment (for 3.0 slurry initial pH, 0.07 gL -1 catalyst concentration, 1.8 Lmin -1 air flow rate, and 4.4 Lmin -1 slurry recirculation rate). This study showed that photocatalysis could be successfully transposed from bench scale to pilot scale. Furthermore, the ease of operation and the potential to use solar energy make photocatalysis an attractive prospect with respect to treatment of grey water. © 2012 Yash Boyjoo et al
Generation and Measurement of Non Equilibrium Spin Currents in Two Terminal Systems
Generation and measurement of non-equilibrium spin current in two probe
configuration is discussed. It is argued and shown that spin current can be
generated in two terminal non-magnetic system. Further it is shown that these
spin currents can be measured via conductance in two probe configuration when
the detector probe is ferromagnetic.Comment: 4 pages, 5 figure
Comparison between the two models of dephasing in mesoscopic systems
In mesoscopic systems to study the role of inelastic scattering on the phase
coherent motion of electrons two phenomenological models have been proposed. In
the first one, due to B\"uttiker, one adds a voltage probe into the system (or
in the scattering matrix). The second model invokes the complex (or optical)
potential in the system Hamiltonian. Studying a simple geometry of a metallic
loop in the presence of Aharonov-Bohm magnetic flux, we show that the two probe
conductance is symmetric in the reversal of the magnetic field in B\"uttiker's
approach. Whereas the two probe conductance within the complex potential model
is asymmetric in the magnetic flux reversal contrary to the expected behavior.Comment: 11 pages RevTex, 4 figures inculded, Communicated to PR
Ultrafast Control of the Dimensionality of Exciton-Exciton Annihilation in Atomically Thin Black Phosphorus
Using microtransient absorption spectroscopy, we show that the dynamical form of exciton-exciton annihilation in atomically thin black phosphorous can be made to switch between time varying 1D scattering and time-independent 2D scattering. At low carrier densities, anisotropy drives the 1D behavior, but as the photoexcitation density approaches the exciton saturation limit, the 2D nature of exciton-exciton scattering takes over. Furthermore, lowering the temperature provides a handle on the ultrafast timescale at which the 1D to 2D transition occurs. We understand our results quantitatively using a diffusion based model of exciton-exciton scattering
Aharonov-Bohm oscillations and spin transport in a mesoscopic ring with a magnetic impurity
We present a detailed analysis of the Aharonov-Bohm (AB) interference
oscillations manifested through transmission of an electron in a mesoscopic
ring with a magnetic impurity atom inserted in one of its arms. The spin
polarization transport is also studied. The electron interacts with the
impurity through the exchange interaction leading to exchange spin-flip
scattering. Transmission in the spin-flipped and spin-unflipped channels are
explicitly calculated. We show that the entanglement between electron and
spin-flipper states lead to a reduction of AB oscillations in spite of absence
of any inelastic scattering. The spin-conductance (related to spin-polarized
transmission coefficient) is asymmetric in the flux reversal as opposed to the
two probe conductance which is symmetric under flux reversal. We point out
certain limitations of this model in regard to the general notion of dephasing
in quantum mechanics.Comment: 6 pages RevTeX, 9 eps figures included, enlarged version of
cond-mat/000741
Blocking of inter-subspace tunneling by intra sub-space inelastic scattering
In recent years the notion of intrinsic decoherence and dephasing of a particle interacting with its environment is being investigated intensively. This has an important bearing on a plausible causal connection between incoherent c-axis resistivity and high-temperature superconductivity. In our work we study the tunnel supression and incoherent motion of a particle tunneling between two sites. The bosonic excitations of the environment are coupled to only one site inducing on-site spin flips. We show that this on-site spin flip scattering makes the tunnel motion incoherent. In the high-temperature limit incoherent rate or hopping rate has been calculated. We also briefly discuss the renormalization of the effective tunneling by environmental coupling at zero temperature following Wegner's renormalization group procedure
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