7,173 research outputs found
Entanglement-assisted local operations and classical communications conversion in the quantum critical systems
Conversions between the ground states in quantum critical systems via
entanglement-assisted local operations and classical communications (eLOCC) are
studied. We propose a new method to reveal the different convertibility by
local operations when a quantum phase transition occurs. We have studied the
ground state local convertibility in the one dimensional transverse field Ising
model, XY model and XXZ model. It is found that the eLOCC convertibility sudden
changes at the phase transition points. In transverse field Ising model the
eLOCC convertibility between the first excited state and the ground state are
also distinct for different phases. The relation between the order of quantum
phase transitions and the local convertibility is discussed.Comment: 7 pages, 5 figures, 5 table
Magnetoresistance in the s-d Model with Arbitrary Impurity Spin
The magnetoresistance, the number of the localized electrons, and the s-wave
scattering phase shift at the Fermi level for the s-d model with arbitrary
impurity spin are obtained in the ground state. To obtain above results some
known exact results of the Bethe ansatz method are used. As the impurity spin S
= 1/2, our results coincide with those obtained by Ishii \textit{et al%}. The
compairsion between the theoretical and experimental magneticresistence for
impurity S = 1/2 is re-examined.Comment: 6 pages, 2 figure
Thick branes with a nonminimally coupled bulk-scalar field
In this paper, we investigate thick branes with a nonminimally coupled
background scalar field, whose solution is a single-kink or a double-kink. The
effects of the nonminimal coupling constant on the structure of the thick
branes and the localization of gravity, fermions, scalars and vectors are
discussed. It is shown that each brane will split into two sub-branes as
increasing the nonminimal coupling constant . By investigating the tensor
perturbation equations of gravity and the general covariant Dirac equation of
fermions, we find that both the gravity zero mode and left-chiral fermion zero
mode are localized at the center of the single-kink branes and localized
between the two sub-branes generated by the double-kink, which indicates that
the constant does not effect the localization of these zero modes.
However, the zero mode of scalars is localized on each sub-brane (for both
single-kink and double-kink branes) when is larger than its critical
value . The effects of the nonminimal coupling constant on the
resonances of gravity and fermions with finite lifetime on the branes are also
discussed.Comment: V2: 33 pages, 17 figures, 3 tables, published versio
Null-stream veto for two co-located detectors: Implementation issues
Time-series data from multiple gravitational wave (GW) detectors can be
linearly combined to form a null-stream, in which all GW information will be
cancelled out. This null-stream can be used to distinguish between actual GW
triggers and spurious noise transients in a search for GW bursts using a
network of detectors. The biggest source of error in the null-stream analysis
comes from the fact that the detector data are not perfectly calibrated. In
this paper, we present an implementation of the null-stream veto in the
simplest network of two co-located detectors. The detectors are assumed to have
calibration uncertainties and correlated noise components. We estimate the
effect of calibration uncertainties in the null-stream veto analysis and
propose a new formulation to overcome this. This new formulation is
demonstrated by doing software injections in Gaussian noise.Comment: Minor changes; To appear in Class. Quantum Grav. (Proc. GWDAW10
Fermion Resonances on a Thick Brane with a Piecewise Warp Factor
In this paper, we mainly investigate the problems of resonances of massive KK
fermions on a single scalar constructed thick brane with a piecewise warp
factor matching smoothly. The distance between two boundaries and the other
parameters are determined by one free parameter through three junction
conditions. For the generalized Yukawa coupling
with odd , the mass eigenvalue , width , lifetime
, and maximal probability of fermion resonances are obtained.
Our numerical calculations show that the brane without internal structure also
favors the appearance of resonant states for both left- and right-handed
fermions. The scalar-fermion coupling and the thickness of the brane influence
the resonant behaviors of the massive KK fermions.Comment: V3: 15 pages, 7 figures, published versio
Localization of Bulk Matters on a Thick Anti-de Sitter Brane
In this paper, we investigate the localization and the mass spectra of
gravity and various bulk matter fields on a thick anti-de Sitter (AdS) brane,
by presenting the mass-independent potentials of the Kaluza-Klein (KK) modes in
the corresponding Schr\"{o}dinger equations. For gravity, the potential of the
KK modes tends to infinity at the boundaries of the extra dimension, which
leads to an infinite number of the bound KK modes. Although the gravity zero
mode cannot be localized on the AdS brane, the massive modes are trapped on the
brane. The scalar perturbations of the thick AdS brane have been analyzed, and
the brane is stable under the scalar perturbations. For spin-0 scalar fields
and spin-1 vector fields, the potentials of the KK modes also tend to infinity
at the boundaries of the extra dimension, and the characteristic of the
localization is the same as the case of gravity. For spin-1/2 fermions, by
introducing the usual Yukawa coupling with the
positive coupling constant , the four-dimensional massless left-chiral
fermion and massive Dirac fermions are obtained on the AdS thick brane.Comment: 23 pages, 9 figure
Reduced fidelity susceptibility and its finite-size scaling behaviors
We derive a general formula of the reduced fidelity susceptibility when the
reduced density matrix is block-diagonal. By using this result and
the continuous unitary transformations, we study finite-size scaling of the
reduced fidelity susceptibility in the Lipkin-Meshkov-Glick Model. It is found
that it can be used to characterize quantum phase transitions, implying that we
can extract information of quantum phase transitions only from the fidelity of
a subsystem, which is of practical meaning in experiments.Comment: 7 pages, 3 figure
The long egress of GJ~436b's giant exosphere
The M dwarf GJ 436 hosts a transiting warm Neptune known to experience
atmospheric escape. Previous observations revealed the presence of a giant
hydrogen exosphere transiting the star for more than 5 h, and absorbing up to
56% of the flux in the blue wing of the stellar Lyman-{\alpha} line of neutral
hydrogen (H i Ly{\alpha}). The unexpected size of this comet-like exosphere
prevented observing the full transit of its tail. In this Letter, we present
new Ly{\alpha} observations of GJ 436 obtained with the Space Telescope Imaging
Spectrograph (STIS) instrument onboard the Hubble Space Telescope. The
stability of the Ly{\alpha} line over six years allowed us to combine these new
observations with archival data sets, substantially expanding the coverage of
the exospheric transit. Hydrogen atoms in the tail of the exospheric cloud keep
occulting the star for 10-25 h after the transit of the planet, remarkably
confirming a previous prediction based on 3D numerical simulations with the
EVaporating Exoplanet code (EVE). This result strengthens the interpretation
that the exosphere of GJ 436b is shaped by both radiative braking and charge
exchanges with the stellar wind. We further report flux decreases of 15 +/- 2%
and 47 +/- 10% in the red wing of the Ly{\alpha} line and in the line of
ionised silicon (Si iii). Despite some temporal variability possibly linked
with stellar activity, these two signals occur during the exospheric transit
and could be of planetary origin. Follow-up observations will be required to
assess the possibility that the redshifted Ly{\alpha} and Si iii absorption
signatures arise from interactions between the exospheric flow and the magnetic
field of the star.Comment: 10 pages, 7 figures, published in A&
Some mass relations for mesons and baryons in Regge phenomenology
In the quasilinear Regge trajectory ansatz, some useful linear mass
inequalities, quadratic mass inequalities and quadratic mass equalities are
derived for mesons and baryons. Based on these relations, mass ranges of some
mesons and baryons are given. The masses of bc-bar and ss-bar belonging to the
pseudoscalar, vector and tensor meson multiplets are also extracted. The J^P of
the baryon Xi_cc(3520) is assigned to be 1/2^+. The numerical values for Regge
slopes and intercepts of the 1/2^+ and 3/2^+ SU(4) baryon trajectories are
extracted and the masses of the orbital excited baryons lying on the 1/2^+ and
3/2^+ trajectories are estimated. The J^P assignments of baryons Xi_c(2980),
Xi_c(3055), Xi_c(3077) and Xi_c(3123) are discussed. The predictions are in
reasonable agreement with the existing experimental data and those suggested in
many other different approaches. The mass relations and the predictions may be
useful for the discovery of the unobserved meson and baryon states and the J^P
assignment of these states.Comment: 41 pages, 1 figure, Late
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