565 research outputs found
General Criterion for the existence of Supertube and BIon in Curved Target Space
The supertube and BIon spike solutions are examined in a general curved
target space. The criteria for the existence of these solutions are explicitly
derived. Also the equation which the general BIon solution should satisfy is
derived.Comment: 12 pages, no figur
Supersphere
The spherical D2-brane solution is obtained without RR external background.
The solution is shown to preserve supersymmetries. The configurations
obtained depend on the integration constant . For the shape
of the solution is a deformed sphere. When, however, , the D2-brane
system seems to exhibit a brane-anti-brane configuration.Comment: 11 pages, 2 figure
MRI size assessment of cerebral microvasculature using diffusion-time-dependent stimulated-echo acquisition: A feasibility study in rodent
In this study, a stimulated-echo (STE) method was employed to robustify the cerebral vessel size estimation nearair-tissue, bone-tissue interfaces, and large vessels. The proposed solution is to replace the relaxation rate changefrom gradient-echo (GRE) with that from STE with long diffusion time after the injection of an intravascularcontrast agent, superparamagnetic iron oxide nanoparticles. The corresponding diffusion length of STE is shorterthan the length over which the unwanted macroscopicfield inhomogeneities but is still longer than the corre-lation length of thefields induced by small vessels. Therefore, the unwantedfield inhomogeneities are refocused,while preserving microscopic susceptibility contrast from cerebral vessels. The mean vessel diameter (dimen-sionless) derived from the diffusion-time-varying STE method was compared to the mean vessel diameter ob-tained by a conventional spin-echo (SE) and GRE combination based on Monte-Carlo proton diffusion simulationsand in vivo rat experiments at 7 T. The in vivo mean vessel diameter from the MRI experiments was directlycompared to available reference mouse brain vasculature obtained by a knife-edge scanning microscope (KESM),which is considered to be the gold standard. Monte-Carlo simulation revealed that SE and GRE-based MRrelaxation rate changes (??R2and??R2*, respectively) can be enhanced using single STE-based MR relaxation ratechange (??RSTE) by regulating diffusion time, especially for small vessels. The in vivo mean vessel diameter fromthe STE method demonstrated a closer agreement with that from the KESM compared to the combined SE andGRE method, especially in the olfactory bulb and cortex. This study demonstrates that STE relaxation rate changescan be used as consistent measures for assessing small cerebral microvasculature, where macroscopicfield in-homogeneity is severe and signal contamination from adjacent large vessels is significant
Vacuumless topological defects in Lyra geometry
Few years ago, Cho and Vilenkin have proposed that topological defects can
arise in symmetry breaking models without having degenerate vacua. These types
of defects are known as vacuumless defects. In the present work, the
gravitational field of a vacuumless global string and global monopole have been
investigated in the context of Lyra geometry. We find the metric of the
vacuumless global string and global monopole in the weak field approximations.
It has been shown that the vacuumless global string can have repulsive whereas
global monopole exerts attractive gravitational effects on a test particle. It
is dissimilar to the case studied in general relativity.Comment: 14 pages, 9 figures. To appear in Astrophys.Space.Sc
Greybody Factors for Rotating Black Holes on Codimension-2 Branes
We study the absorption probability and Hawking radiation of the scalar field
in the rotating black holes on codimension-2 branes. We find that finite brane
tension modifies the standard results in Hawking radiation if compared with the
case when brane tension is completely negligible. We observe that the rotation
of the black hole brings richer physics. Nonzero angular momentum triggers the
super-radiance which becomes stronger when the angular momentum increases. We
also find that rotations along different angles influence the result in
absorption probability and Hawking radiation. Compared with the black hole
rotating orthogonal to the brane, in the background that black hole spins on
the brane, its angular momentum brings less super-radiance effect and the brane
tension increases the range of frequency to accommodate super-radiance. These
information can help us know more about the rotating codimension-2 black holes.Comment: 16 pages, 7 figures, minor modification, accepted for publication in
JHE
Influence of a Brane Tension on Phantom and Massive Scalar Field Emission
We elaborate the signature of the extra dimensions and brane tension in the
process of phantom and massive scalar emission in the spacetime of
(4+n)-dimensional tense brane black hole. Absorption cross section, luminosity
of Hawking radiation and cross section in the low-energy approximation were
found. We envisage that parameter connected with the existence of a brane
imprints its role in the Hawking radiation of the considered fields.Comment: 7 pages, * figures, RevTex, to be published in General Relativity and
Gravitatio
Dynamic nuclear polarization and spin-diffusion in non-conducting solids
There has been much renewed interest in dynamic nuclear polarization (DNP),
particularly in the context of solid state biomolecular NMR and more recently
dissolution DNP techniques for liquids. This paper reviews the role of spin
diffusion in polarizing nuclear spins and discusses the role of the spin
diffusion barrier, before going on to discuss some recent results.Comment: submitted to Applied Magnetic Resonance. The article should appear in
a special issue that is being published in connection with the DNP Symposium
help in Nottingham in August 200
The role of proteomics in defining the human embryonic secretome
Non-invasive gamete and embryo assessment is considered an important focus in assisted reproductive technologies (ART). Currently, the selection of embryos for transfer is based on morphological indices. Though successful, the field of ART would benefit from a non-invasive quantitative method of viability determination. Omics technologies, including transcriptomics, proteomics and metabolomics, have already begun providing evidence that viable gametes and embryos possess unique molecular profiles with potential biomarkers that can be utilized for developmental and/or viability selection. Unlike the human genome that is relatively fixed and steady throughout the human body, the human proteome, estimated at over a million proteins, is more complex, diverse and dynamic. It is the proteins themselves that contribute to the physiological homeostasis in any cell or tissue. Of particular interest in ART is the secretome, those proteins that are produced within the embryo and secreted into the surrounding environment. Defining the human embryonic secretome has the potential to expand our knowledge of embryonic cellular processes, including the complex dialogue between the developing embryo and its maternal environment, and may also assist in identifying those embryos with the highest implantation potential. Advances in proteomic technologies have allowed the non-invasive profiling of the human embryonic secretome with ongoing research focused on correlation with outcome. From a clinical perspective, embryo selection based on morphological assessment and non-invasive analysis of the human embryonic secretome may improve IVF success and lead to routine single embryo transfers
Probing exotic phenomena at the interface of nuclear and particle physics with the electric dipole moments of diamagnetic atoms: A unique window to hadronic and semi-leptonic CP violation
The current status of electric dipole moments of diamagnetic atoms which
involves the synergy between atomic experiments and three different theoretical
areas -- particle, nuclear and atomic is reviewed. Various models of particle
physics that predict CP violation, which is necessary for the existence of such
electric dipole moments, are presented. These include the standard model of
particle physics and various extensions of it. Effective hadron level combined
charge conjugation (C) and parity (P) symmetry violating interactions are
derived taking into consideration different ways in which a nucleon interacts
with other nucleons as well as with electrons. Nuclear structure calculations
of the CP-odd nuclear Schiff moment are discussed using the shell model and
other theoretical approaches. Results of the calculations of atomic electric
dipole moments due to the interaction of the nuclear Schiff moment with the
electrons and the P and time-reversal (T) symmetry violating
tensor-pseudotensor electron-nucleus are elucidated using different
relativistic many-body theories. The principles of the measurement of the
electric dipole moments of diamagnetic atoms are outlined. Upper limits for the
nuclear Schiff moment and tensor-pseudotensor coupling constant are obtained
combining the results of atomic experiments and relativistic many-body
theories. The coefficients for the different sources of CP violation have been
estimated at the elementary particle level for all the diamagnetic atoms of
current experimental interest and their implications for physics beyond the
standard model is discussed. Possible improvements of the current results of
the measurements as well as quantum chromodynamics, nuclear and atomic
calculations are suggested.Comment: 46 pages, 19 tables and 16 figures. A review article accepted for
EPJ
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