1,464 research outputs found
Recommended from our members
Excavations and survey at Coats Hill, near Moffat, 1990-1
This report describes the results of the survey and sample excavations of small cairns,
annular structures and other remains on Coats Hill, near Moffat. The difficulties of assessing
the dates and functions of certain of the structures are discussed. The project formed
part of the archaeological studies for the North Western Ethylene Pipeline (NWEP) Project
for Shell Chemicals UK Ltd, which wholly funded the archaeological work and the publication
of this report
Role of cannabinoids in the regulation of bone remodeling
The endocannabinoid system plays a key role in regulating a variety of physiological processes such as appetite control and energy balance, pain perception, and immune responses. Recent studies have implicated the endocannabinoid system in the regulation of bone cell activity and bone remodelling. These studies showed that endogenous cannabinoid ligands, cannabinoid receptors and the enzymes responsible for ligand synthesis and breakdown all play important roles in bone mass and in the regulation of bone disease. These findings suggest that the endocannabinoid pathway could be of value as a therapeutic target for the prevention and treatment of bone diseases. Here, we review the role of the skeletal endocannabinoid system in the regulation of bone remodelling in health and disease
Signatures of Pseudoscalar Photon Mixing in CMB Radiation
We model the effect of photon and ultra-light pseudoscalar mixing on the
propagation of electromagnetic radiation through the extragalactic medium. The
medium is modelled as a large number of magnetic domains, uncorrelated with one
another. We obtain an analytic expression for the different Stokes parameters
in the limit of small mixing angle. The different Stokes parameters are found
to increase linearly with the number of domains. We also verify this result by
direct numerical simulations. We use this formalism to estimate the effect of
pseudoscalar-photon mixing on the Cosmic Microwave Background (CMB)
polarization. We impose limits on the model parameters by the CMB observations.
We find that the currently allowed parameter range admits a CMB circular
polarization up to order .Comment: 17 pages, 5 figure
Locality of quark-hadron duality and deviations from quark counting rules above resonance region
We show how deviations from the dimensional scaling laws for exclusive
processes may be related to a breakdown in the locality of quark-hadron
duality. The essential principles are illustrated in a pedagogic model of a
composite system with two spinless charged constituents, for which a dual
picture for the low-energy resonance phenomena and high-energy scaling behavior
can be established. We introduce the concept of "restricted locality" of
quark-hadron duality and show how this results in deviations from the pQCD
quark counting rules above the resonance region. In particular it can be a
possible source for oscillations about the smooth quark counting rule, as seen
e.g. in the 90-degree differential cross sections for .Comment: The way to present Eqs. (2), (4), (7) are changed while physics
contents and calculations are left intact; Additional explanations for the
forward and large-angle duality are added; Three more references are
included; Version to appear on Phys. Rev. Let
Comparative study of radio pulses from simulated hadron-, electron-, and neutrino-initiated showers in ice in the GeV-PeV range
High energy particle showers produce coherent Cherenkov radio emission in
dense, radio-transparent media such as cold ice. Using PYTHIA and GEANT
simulation tools, we make a comparative study among electromagnetic (EM) and
hadronic showers initiated by single particles and neutrino showers initiated
by multiple particles produced at the neutrino-nucleon event vertex. We include
all the physics processes and do a complete 3-D simulation up to 100 TeV for
all showers and to 1 PeV for electron and neutrino induced showers. We
calculate the radio pulses for energies between 100 GeV and 1 PeV and find
hadron showers, and consequently neutrino showers, are not as efficient below 1
PeV at producing radio pulses as the electromagnetic showers. The agreement
improves as energy increases, however, and by a PeV and above the difference
disappears. By looking at the 3-D structure of the showers in time, we show
that the hadronic showers are not as compact as the EM showers and hence the
radiation is not as coherent as EM shower emission at the same frequency. We
show that the ratio of emitted pulse strength to shower tracklength is a
function only of a single, coherence parameter, independent of species and
energy of initiating particle.Comment: a few comments added, to bo published in PRD Nov. issue, 10 pages, 3
figures in tex file, 3 jpg figures in separate files, and 1 tabl
Magnetization screening from gluonic currents and scaling law violation in the ratio of magnetic form factors for neutron and proton
The ratio exhibits a decrease for four-momentum transfer
Q^2 increasing beyond 1 GeV^2 indicating different spatial distributions for
charge and for magnetization inside the proton. One-gluon exchange currents can
explain this behaviour. The SU(6) breaking induced by gluonic currents predicts
furthermore that the ratio of neutron to proton magnetic form factors
falls with increasing Q^2. We find that the
experimental data are consistent with our expectations of an almost linear
decrease of the ratio with increasing Q^2,
supporting the statement that the spatial distributions of magnetization are
different for protons and for neutrons.Comment: 10 pages, 3 figure
Addendum to "Coherent radio pulses from GEANT generated electromagnetic showers in ice"
We reevaluate our published calculations of electromagnetic showers generated
by GEANT 3.21 and the radio frequency pulses they produce in ice. We are
prompted by a recent report showing that GEANT 3.21-modeled showers are
sensitive to internal settings in the electron tracking subroutine. We report
the shower and pulse characteristics obtained with different settings of GEANT
3.21 and with GEANT 4. The default setting of electron tracking in GEANT 3.21
we used in previous work speeds up the shower simulation at the cost of
information near the end of the tracks. We find that settings tracking electron
and positron to lower energy yield a more accurate calculation, a more intense
shower, and proportionately stronger radio pulses at low frequencies. At high
frequencies the relation between shower tracking algorithm and pulse spectrum
is more complex. We obtain radial distributions of shower particles and phase
distributions of pulses from 100 GeV showers that are consistent with our
published results.Comment: 4 pages, 3 figure
Recommended from our members
Tablet PCs in schools: Case study report: A report for Becta by the Open University
The publication provides an analysis of twelve case studies involving schools in England that were using Tablet PCs. The analysis is complemented by brief individual reports describing aspects of how each of these schools was using Tablet PCs
Nucleon Structure Functions from a Chiral Soliton in the Infinite Momentum Frame
We study the frame dependence of nucleon structure functions obtained within
a chiral soliton model for the nucleon. Employing light cone coordinates and
introducing collective coordinates together with their conjugate momenta,
translational invariance of the solitonic quark fields (which describe the
nucleon as a localized object) is restored. This formulation allows us to
perform a Lorentz boost to the infinite momentum frame of the nucleon. The
major result is that the Lorentz contraction associated with this boost causes
the leading twist contribution to the structure functions to properly vanish
when the Bjorken variable exceeds unity. Furthermore we demonstrate that
for structure functions calculated in the valence quark approximation to the
Nambu--Jona--Lasinio chiral soliton model the Lorentz contraction also has
significant effects on the structure functions for moderate values of the
Bjorken variable .Comment: 16 pages, 1 figure, revised version to be published in Int. J. Mod.
Phys.
Exclusive Hadronic Processes and Color Transparency
We review the current status of high energy exclusive processes and color
transparency.Comment: 17 pages, 8 figures, based on talk given at International Symposium
on Nuclear Physics, Mumbai, Dec 18-22, 200
- …