3,358 research outputs found
VLBI Observations of Water Masers in the Circumstellar Envelope of IRC+60169
Water masers around an AGB star, IRC+60169, were observed at four epochs
using the Japanese VLBI networks. The distribution of the maser features is
limited in a thick-shell region, which has inner and outer expansion velocities
of 7 km/s and 14 km/s at radii of 25 mas and 120 mas, respectively. The
distribution of the red-shifted features exhibits a ring-like structure, the
diameter of which is 30 mas, and corresponds to the inner radius of the maser
shell. This implies that dense gas around the star obscures red-shifted
emission. Although a position--radial velocity diagram for the maser features
is consistent with a spherical shell model, the relative proper motions do not
indicate an expansion motion of the shell. A remarkable property has been found
that is a possible periodic change of the alignment pattern of water maser
spots.Comment: 9 pages including 7 figures, to appear in PASJ, Vol. 54, No.
Thermally Assisted Penetration and Exclusion of Single Vortex in Mesoscopic Superconductors
A single vortex overcoming the surface barrier in a mesoscopic superconductor
with lateral dimensions of several coherence lengths and thickness of several
nanometers provides an ideal platform to study thermal activation of a single
vortex. In the presence of thermal fluctuations, there is non-zero probability
for vortex penetration into or exclusion from the superconductor even when the
surface barrier does not vanish. We consider the thermal activation of a single
vortex in a mesoscopic superconducting disk of circular shape. To obtain
statistics for the penetration and exclusion magnetic fields, slow and periodic
magnetic fields are applied to the superconductor. We calculate the
distribution of the penetration and exclusion fields from the thermal
activation rate. This distribution can also be measured experimentally, which
allows for a quantitative comparison.Comment: 7 pages, 4 figure
Static and Dynamic Phases for Vortex Matter with Attractive Interactions
Exotic vortex states with long range attraction and short range repulsion
have recently been proposed to arise in superconducting hybrid structures and
multi-band superconductors. Using large scale simulations we examine the static
and dynamic properties of such vortex states interacting with random and
periodic pinning. In the absence of pinning this system does not form patterns
but instead completely phase separates. When pinning is present there is a
transition from inhomogeneous to homogeneous vortex configurations similar to a
wetting phenomenon. Under an applied drive, a dynamical dewetting process can
occur from a strongly pinned homogeneous state into pattern forming states. We
show that a signature of the exotic vortex interactions under transport
measurements is a robust double peak feature in the differential conductivity
curves.Comment: 5 pages, 4 postscript figure
Electric-field-induced lifting of the valley degeneracy in alpha-(BEDT-TTF)_2I_3 Dirac-like Landau levels
The relativistic Landau levels in the layered organic material
alpha-(BEDT-TTF)_2I_3 [BEDT-TTF=bis(ethylenedithio)tetrathiafulvalene] are
sensitive to the tilt of the Dirac cones, which, as in the case of graphene,
determine the low-energy electronic properties under appropriate pressure. We
show that an applied inplane electric field, which happens to be in competition
with the tilt of the cones, lifts the twofold valley degeneracy due to a
different level spacing. The scenario may be tested in infrared transmission
spectroscopy.Comment: 4 pages, 1 figure; version with minor corrections published in EP
High--Energy Photon--Hadron Scattering in Holographic QCD
This article provides an in-depth look at hadron high energy scattering by
using gravity dual descriptions of strongly coupled gauge theories. Just like
deeply inelastic scattering (DIS) and deeply virtual Compton scattering (DVCS)
serve as clean experimental probes into non-perturbative internal structure of
hadrons, elastic scattering amplitude of a hadron and a (virtual) "photon" in
gravity dual can be exploited as a theoretical probe. Since the scattering
amplitude at sufficiently high energy (small Bjorken x) is dominated by parton
contributions (= Pomeron contributions) even in strong coupling regime, there
is a chance to learn a lesson for generalized parton distribution (GPD) by
using gravity dual models. We begin with refining derivation of
Brower-Polchinski-Strassler-Tan (BPST) Pomeron kernel in gravity dual, paying
particular attention to the role played by complex spin variable j. The BPST
Pomeron on warped spacetime consists of a Kaluza-Klein tower of 4D Pomerons
with non-linear trajectories, and we clarify the relation between Pomeron
couplings and Pomeron form factor. We emphasize that the saddle point value j^*
of the scattering amplitude in the complex j-plane representation is a very
important concept in understanding qualitative behavior of the scattering
amplitude. The total Pomeron contribution to the scattering is decomposed into
the saddle point contribution and at most a finite number of pole
contributions, and when the pole contributions are absent (which we call saddle
point phase), kinematical variable (q,x,t) dependence of ln (1/q) evolution and
ln(1/x) evolution parameters gamma_eff. and lambda_eff. in DIS and t-slope
parameter B of DVCS in HERA experiment are all reproduced qualitatively in
gravity dual
Initial Investigations of the cranial size and shape of adult Eurasian otters (Lutra lutra) in Great Britain
Three-dimensional (3D) surface scans were carried out in order to determine the shapes of the upper sections of (skeletal) crania of adult Eurasian otters (Lutra lutra) from Great Britain. Landmark points were placed on these shapes using a graphical user interface (GUI) and distance measurements (i.e., the length, height, and width of the crania) were found by using the landmark points. Male otters had significantly larger skulls than females (P < 0.001). Differences in size also occurred by geographical area in Great Britain (P < 0.05). Multilevel Principal Components Analysis (mPCA) indicated that sex and geographical area explained 31.1% and 9.6% of shape variation in “unscaled” shape data and that they explained 17.2% and 9.7% of variation in “scaled” data. The first mode of variation at level 1 (sex) correctly reflected size changes between males and females for “unscaled” shape data. Modes at level 2 (geographical area) also showed possible changes in size and shape. Clustering by sex and geographical area was observed in standardized component scores. Such clustering in a cranial shape by geographical area might reflect genetic differences in otter populations in Great Britain, although other potentially confounding factors (e.g., population age-structure, diet, etc.) might also drive regional differences. This work provides a successful first test of the effectiveness of 3D surface scans and multivariate methods, such as mPCA, to study the cranial morphology of otters
- …