2,028 research outputs found
Consequences of viscous anisotropy in a deforming, two-phase aggregate. Why is porosity-band angle lowered by viscous anisotropy?
In laboratory experiments that impose shear deformation on partially molten
aggregates of initially uniform porosity, melt segregates into high-porosity
sheets (bands in cross-section). The bands emerge at 15-20 degrees to the shear
plane. A model of viscous anisotropy can explain these low angles whereas
previous, simpler models have failed to do so. The anisotropic model is
complex, however, and the reason that it produces low-angle bands has not been
understood. Here we show that there are two mechanisms: (i) suppression of the
well-known tensile instability, and (ii) creation of a new, shear-driven
instability. We elucidate these mechanisms using linearised stability analysis
in a coordinate system that is aligned with the perturbations. We consider the
general case of anisotropy that varies dynamically with deviatoric stress, but
approach it by first considering uniform anisotropy that is imposed a priori
and showing the difference between static and dynamic cases. We extend the
model of viscous anisotropy to include a strengthening in the direction of
maximum compressive stress. Our results support the hypothesis that viscous
anisotropy is the cause of low band-angles in experiments.Comment: 32 pages, 8 figures. Accepted for publication in the Journal of Fluid
Mechanics on 4 October 201
Evolution of the single-hole spectral function across a quantum phase transition in the anisotropic-triangular-lattice antiferromagnet
We study the evolution of the single-hole spectral function when the ground
state of the anisotropic-triangular-lattice antiferromagnet changes from the
incommensurate magnetically-ordered phase to the spin-liquid state. In order to
describe both of the ground states on equal footing, we use the large-N
approach where the transition between these two phases can be obtained by
controlling the quantum fluctuations via an 'effective' spin magnitude. Adding
a hole into these ground states is described by a t-J type model in the
slave-fermion representation. Implications of our results to possible future
ARPES experiments on insulating frustrated magnets, especially CsCuCl,
are discussed.Comment: 8 pages, 7 figure
Effect of adult thymectomy on tumour immunity in mice.
The effect of adult thymectomy in DBA/2J mice on the in vitro response to syngeneic tumour cells was investigated. Spleen cells from adult mice which had been thymectomized 8 weeks previously demonstrated a severely impaired primary cytotoxic response to P815 tumour cells, whereas their cytotoxic responses to allogeneic cells (C57BL/6) and to non-H-2 antigens (BALB/c), and their ability to form a primary antibody response to sheep red blood cells was unimpaired. Suppressor T cells, specific for P815 cells, appeared early in the thymuses of animals inoculated with P815 cells (between 4 and 8 days after tumour-cell injection). No differences in tumour growth between animals thymectomized as adults and sham-operated controls were observed, and thymectomized tumour-bearing animals had levels of specific suppressor cells in their lymph nodes equivalent to the levels found in untreated controls. Severely thymocyte-deprived animals which had been thymectomized, irradiated and reconstituted with either marrow or spleen cells 8 weeks before tumour implantation succumbed more rapidly to metastatic tumour than did control animals
An experimental test of the viscous anisotropy hypothesis for partially molten rocks
Chemical differentiation of rocky planets occurs by melt segregation away
from the region of melting. The mechanics of this process, however, are complex
and incompletely understood. In partially molten rocks undergoing shear
deformation, melt pockets between grains align coherently in the stress field;
it has been hypothesized that this anisotropy in microstructure creates an
anisotropy in the viscosity of the aggregate. With the inclusion of anisotropic
viscosity, continuum, two-phase-flow models reproduce the emergence and angle
of melt-enriched bands that form in laboratory experiments. In the same
theoretical context, these models also predict sample-scale melt migration due
to a gradient in shear stress. Under torsional deformation, melt is expected to
segregate radially inward. Here we present new torsional deformation
experiments on partially molten rocks that test this prediction.
Microstructural analyses of the distribution of melt and solid reveal a radial
gradient in melt fraction, with more melt toward the centre of the cylinder.
The extent of this radial melt segregation grows with progressive strain,
consistent with theory. The agreement between theoretical prediction and
experimental observation provides a validation of this theory, which is
critical to understanding the large-scale geodynamic and geochemical evolution
of Earth.Comment: 21 pages, 4 figures, 1 table, supplementary inf
Long period polytype boundaries in silicon carbide
A significant gap in our understanding of polytypism exists, caused partly by the lack of experimental data on the spatial distribution of polytype coalescence and knowledge of the regions between adjoining polytypes. Few observations, Takei & Francombe (1967) apart, of the relative location of different polytypes have been reported. A phenomenological description of the boundaries, exact position of one-dimensional disorder (1DD) and long period polytypes (LPP’s) has been made possible by synchrotron X-ray diffraction topography (XRDT)
Studying the WHIM with Gamma Ray Bursts
We assess the possibility to detect and characterize the physical state of
the missing baryons at low redshift by analyzing the X-ray absorption spectra
of the Gamma Ray Burst [GRB] afterglows, measured by a micro calorimeters-based
detector with 3 eV resolution and 1000 cm2 effective area and capable of fast
re-pointing, similar to that on board of the recently proposed X-ray satellites
EDGE and XENIA. For this purpose we have analyzed mock absorption spectra
extracted from different hydrodynamical simulations used to model the
properties of the Warm Hot Intergalactic Medium [WHIM]. These models predict
the correct abundance of OVI absorption lines observed in UV and satisfy
current X-ray constraints. According to these models space missions like EDGE
and XENIA should be able to detect about 60 WHIM absorbers per year through the
OVII line. About 45 % of these have at least two more detectable lines in
addition to OVII that can be used to determine the density and the temperature
of the gas. Systematic errors in the estimates of the gas density and
temperature can be corrected for in a robust, largely model-independent
fashion. The analysis of the GRB absorption spectra collected in three years
would also allow to measure the cosmic mass density of the WHIM with about 15 %
accuracy, although this estimate depends on the WHIM model. Our results suggest
that GRBs represent a valid, if not preferable, alternative to Active Galactic
Nuclei to study the WHIM in absorption. The analysis of the absorption spectra
nicely complements the study of the WHIM in emission that the spectrometer
proposed for EDGE and XENIA would be able to carry out thanks to its high
sensitivity and large field of view.Comment: 16 pages, 16 figures, accepted for publication by Ap
Experimental demonstration of quantum teleportation of a squeezed state
Quantum teleportation of a squeezed state is demonstrated experimentally. Due
to some inevitable losses in experiments, a squeezed vacuum necessarily becomes
a mixed state which is no longer a minimum uncertainty state. We establish an
operational method of evaluation for quantum teleportation of such a state
using fidelity, and discuss the classical limit for the state. The measured
fidelity for the input state is 0.85 0.05 which is higher than the
classical case of 0.730.04. We also verify that the teleportation process
operates properly for the nonclassical state input and its squeezed variance is
certainly transferred through the process. We observe the smaller variance of
the teleported squeezed state than that for the vacuum state input.Comment: 7 pages, 1 new figure, comments adde
Orientational Defects in Ice Ih: An Interpretation of Electrical Conductivity Measurements
We present a first-principles study of the structure and energetics of
Bjerrum defects in ice Ih and compare the results to experimental electrical
conductivity data. While the DFT result for the activation energy is in good
agreement with experiment, we find that its two components have quite different
values. Aside from providing new insight into the fundamental parameters of the
microscopic electrical theory of ice, our results suggest the activity of traps
in doped ice in the temperature regime typically assumed to be controlled by
the free migration of L defects.Comment: 4 pages, 4 Figures, 1 Tabl
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