5,315 research outputs found
Chiral expansion of the decay width
A chiral field theory of mesons has been applied to study the contribution of
the current quark masses to the decay width at
the next leading order. enhancement has been predicted and there is no
new parameter.Comment: 9 page
Spin interference and Fano effect in electron transport through a mesoscopic ring side-coupled with a quantum dot
We investigate the electron transport through a mesoscopic ring side-coupled
with a quantum dot(QD) in the presence of Rashba spin-orbit(SO) interaction. It
is shown that both the Fano resonance and the spin interference effects play
important roles in the electron transport properties. As the QD level is around
the Fermi energy, the total conductance shows typical Fano resonance line
shape. By applying an electrical gate voltage to the QD, the total transmission
through the system can be strongly modulated. By threading the mesoscopic ring
with a magnetic flux, the time-reversal symmetry of the system is broken, and a
spin polarized current can be obtained even though the incident current is
unpolarized.Comment: 5 pages, 5 figure
Aharonov-Bohm Oscillation and Chirality Effect in Optical Activity of Single Wall Carbon Nanotubes
We study the Aharonov-Bohm effect in the optical phenomena of single wall
carbon nanotubes (SWCN) and also their chirality dependence. Specially, we
consider the natural optical activity as a proper observable and derive it's
general expression based on a comprehensive symmetry analysis, which reveals
the interplay between the enclosed magnetic flux and the tubule chirality for
arbitrary chiral SWCN. A quantitative result for this optical property is given
by a gauge invariant tight-binding approximation calculation to stimulate
experimental measurements.Comment: Submitted on 15 Jan 04, REVISED on 28 Apr 04, To appear in Phys. Rev.
B(Brief Report
GCRT J1745-3009 as a Transient White Dwarf Pulsar
A transient radio source in the direction of the Galactic Center, GCRT
J1745-3009, exhibited 5 peculiar consecutive outbursts at 0.33 GHz with a
period of 77.13 minutes and a duration of ~10 minutes for each outburst. It has
been claimed to be the prototype of a hitherto unknown class of transient radio
sources. We interpret it as a transient white dwarf pulsar with a period of
77.13 minutes. The ~10-minute flaring duration corresponds to the epoch when
the radio beam sweeps our line of sight. The bursting epoch corresponds to the
episodes when stronger sunspot-like magnetic fields emerge into the white dwarf
polar cap region during which the pair production condition is satisfied and
the white dwarf behaves like a radio pulsar. It switches off as the pair
production condition breaks down.Comment: minor changes, ApJL, in pres
Transverse multi-mode effects on the performance of photon-photon gates
The multi-mode character of quantum fields imposes constraints on the
implementation of high-fidelity quantum gates between individual photons. So
far this has only been studied for the longitudinal degree of freedom. Here we
show that effects due to the transverse degrees of freedom significantly affect
quantum gate performance. We also discuss potential solutions, in particular
separating the two photons in the transverse direction.Comment: 5 pages, 3 figures, published versio
Universality and properties of neutron star type I critical collapses
We study the neutron star axisymmetric critical solution previously found in
the numerical studies of neutron star mergers. Using neutron star-like initial
data and performing similar merger simulations, we demonstrate that the
solution is indeed a semi-attractor on the threshold plane separating the basin
of a neutron star and the basin of a black hole in the solution space of the
Einstein equations. In order to explore the extent of the attraction basin of
the neutron star semiattractor, we construct initial data phase spaces for
these neutron star-like initial data. From these phase spaces, we also observe
several interesting dynamical scenarios where the merged object is supported
from prompt collapse. The properties of the critical index of the solution, in
particular, its dependence on conserved quantities, are then studied. From the
study, it is found that a family of neutron star semi-attractors exist that can
be classified by both their rest masses and ADM masses.Comment: 13 pages, 12 figures, 1 new reference adde
Anomalous Meissner effect in pnictide superconductors
The Meissner effect has been studied in Ba(Fe0.926Co0.074)2As2 and
Ba0.6K0.4Fe2As2 single crystals and compared to well known, type-II
superconductors LuNi2B2C and V3Si. Whereas flux penetration is mostly
determined by the bulk pinning (and, perhaps, surface barrier) resulting in a
large negative magnetization, the flux expulsion upon cooling in a magnetic
field is very small, which could also be due to pinning and/or surface barrier
effects. However, in stark contrast with the expected behavior, the amount of
the expelled flux increases almost linearly with the applied magnetic field, at
least up to our maximum field of 5.5 T, which far exceeds the upper limit for
the surface barrier. One interpretation of the observed behavior is that there
is a field-driven suppression of magnetic pair-breaking
Cross-Kerr nonlinearity between continuous-mode coherent states and single photons
Weak cross-Kerr nonlinearities between single photons and coherent states are
the basis for many applications in quantum information processing. These
nonlinearities have so far mainly been discussed in terms of highly idealized
single-mode models. We develop a general theory of the interaction between
continuous-mode photonic pulses and apply it to the case of a single photon
interacting with a coherent state. We quantitatively study the validity of the
usual single-mode approximation using the concepts of fidelity and conditional
phase. We show that high fidelities, non-zero conditional phases and high
photon numbers are compatible, under conditions where the pulses fully pass
through each other and where unwanted transverse-mode effects are suppressed.Comment: 8 pages, 2 figures, more general results in section V
Counting statistics of tunneling through a single molecule: effect of distortion and displacement of vibrational potential surface
We analyze the effects of a distortion of the nuclear potential of a
molecular quantum dot (QD), as well as a shift of its equilibrium position, on
nonequilibrium-vibration-assisted tunneling through the QD with a single level
() coupled to the vibrational mode. For this purpose, we derive an
explicit analytical expression for the Franck-Condon (FC) factor for a
displaced-distorted oscillator surface of the molecule and establish rate
equations in the joint electron-phonon representation to examine the
current-voltage characteristics and zero-frequency shot noise, and skewness as
well. Our numerical analyses shows that the distortion has two important
effects. The first one is that it breaks the symmetry between the excitation
spectra of the charge states, leading to asymmetric tunneling properties with
respect to and . Secondly, distortion (frequency
change of the oscillator) significantly changes the voltage-activated cascaded
transition mechanism, and consequently gives rise to a different nonequilibrium
vibrational distribution from that of the case without distortion. Taken in
conjunction with strongly modified FC factors due to distortion, this results
in some new transport features: the appearance of strong NDC even for a
single-level QD with symmetric tunnel couplings; a giant Fano factor even for a
molecule with an extremely weak electron-phonon interaction; and enhanced
skewness that can have a large negative value under certain conditions.Comment: 29 pages, 11 figures, published versio
Phase transition and hysteresis in scale-free network traffic
We model information traffic on scale-free networks by introducing the node
queue length L proportional to the node degree and its delivering ability C
proportional to L. The simulation gives the overall capacity of the traffic
system, which is quantified by a phase transition from free flow to congestion.
It is found that the maximal capacity of the system results from the case of
the local routing coefficient \phi slightly larger than zero, and we provide an
analysis for the optimal value of \phi. In addition, we report for the first
time the fundamental diagram of flow against density, in which hysteresis is
found, and thus we can classify the traffic flow with four states: free flow,
saturated flow, bistable, and jammed.Comment: 5 pages, 4 figure
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