4,866 research outputs found
The pion parton distribution function in the valence region
The parton distribution function of the pion in the valence region is
extracted in a next-to-leading order analysis from Fermilab E-615 pionic
Drell-Yan data. The effects of the parameterization of the pion's valence
distributions are examined. Modern nucleon parton distributions and nuclear
corrections were used and possible effects from higher twist contributions were
considered in the analysis. In the next-to-leading order analysis, the high-
dependence of the pion structure function differs from that of the leading
order analysis, but not enough to agree with the expectations of pQCD and
Dyson-Schwinger calculations.Comment: 5 pages, 4 figures, submitted to Phys. Rev.
What can more Drell-Yan data tell us about QCD?
The Drell-Yan process may be used as a unique probe of the partonic structure of hadrons and of fundamental QCD interactions, providing complementary information to deep inelastic scattering (DIS) measurements. Drell-Yan provides the ability to distinguish between the quarks and antiquarks based on kinematics. Unpolarized Drell-Yan provides access to the longitudinal distributions antiquarks
in the proton. Angular distributions are sensitive to the h
⊥ 1, Boer-Mulders, distribution. With the addition of polarization, other transverse momentum distributions (TMDs) can be accessed, including the Sivers’ distribution, f ⊥ 1
Probing transverse-momentum distributions with the Drell-Yan process
The Drell-Yan process offers access, complementary to deep inelastic scattering (DIS) to the transverse-momentum distributions of the quarks within a hadron. When neither the beam nor the target are polarized, the angular distributions of Drell-Yan scattering provide access to the h⊥1 , Boer-Mulders, distribution. With the addition of either a polarized beam or target, other transverse-momentum
distributions (TMDs) can be accessed, in particular the Sivers’ distribution, f⊥1'. Existing Boer-Mulders and planned Sivers’ Drell-Yan measurements of these distributions are discussed
Parity violating deep inelastic scattering
Measurements of parity violation in electron scattering have provided a wealth of information on the nucleon, the nucleus and the electroweak interaction. Many of these measurement have been at relatively low four-momentum Exchange (Q). The upgrade of the CEBAF beam energy at Thomas Jefferson National Accelerator Facility (JLab) to a maximum of 12 GeV will expand the kinematics in which PVES measurements can be made to include significantly more of the deep inelastic scattering (DIS) region. To take advantage of this, a new spectrometer, named SoLID, has been proposed. Measurements in the DIS region will provide
new information on a variety of topics, including charge symmetry violation, higher twist contributions to proton structure and electroweak coupling constants. To differentiate between these effects, measurements with the SoLID spectrometer will simultaneously cover a large kinematic range in both xBj and Q2
Non-thermal high-energy emission from colliding winds of massive stars
Colliding winds of massive star binary systems are considered as potential
sites of non-thermal high-energy photon production. This is motivated merely by
the detection of synchrotron radio emission from the expected colliding wind
location. Here we investigate the properties of high-energy photon production
in colliding winds of long-period WR+OB-systems. We found that in the
dominating leptonic radiation process anisotropy and Klein-Nishina effects may
yield spectral and variability signatures in the gamma-ray domain at or above
the sensitivity of current or upcoming gamma-ray telescopes. Analytical
formulae for the steady-state particle spectra are derived assuming diffusive
particle acceleration out of a pool of thermal wind particles, and taking into
account adiabatic and all relevant radiative losses. For the first time we
include their advection/convection in the wind collision zone, and distinguish
two regions within this extended region: the acceleration region where spatial
diffusion is superior to convective/advective motion, and the convection region
defined by the convection time shorter than the diffusion time scale. The
calculation of the Inverse Compton radiation uses the full Klein-Nishina cross
section, and takes into account the anisotropic nature of the scattering
process. This leads to orbital flux variations by up to several orders of
magnitude which may, however, be blurred by the geometry of the system. The
calculations are applied to the typical WR+OB-systems WR 140 and WR 147 to
yield predictions of their expected spectral and temporal characteristica and
to evaluate chances to detect high-energy emission with the current and
upcoming gamma-ray experiments. (abridged)Comment: 67 pages, 24 figures, submitted to Ap
Electron-beam-induced shift in the apparent position of a pinned vortex in a thin superconducting film
When an electron beam strikes a superconducting thin film near a pinned
vortex, it locally increases the temperature-dependent London penetration depth
and perturbs the circulating supercurrent, thereby distorting the vortex's
magnetic field toward the heated spot. This phenomenon has been used to
visualize vortices pinned in SQUIDs using low-temperature scanning electron
microscopy. In this paper I develop a quantitative theory to calculate the
displacement of the vortex-generated magnetic-flux distribution as a function
of the distance of the beam spot from the vortex core. The results are
calculated using four different models for the spatial distribution of the
thermal power deposited by the electron beam.Comment: 9 pages, 6 figures, resubmitted to PRB with referee-suggested
revisions, includes new paragraph on numerical evaluatio
Process-oriented statistical-dynamical evaluation of LM precipitation forecasts
International audienceThe objective of this study is the scale dependent evaluation of precipitation forecasts of the Lokal-Modell (LM) from the German Weather Service in relation to dynamical and cloud parameters. For this purpose the newly designed Dynamic State Index (DSI) is correlated with clouds and precipitation. The DSI quantitatively describes the deviation and relative distance from a stationary and adiabatic solution of the primitive equations. A case study and statistical analysis of clouds and precipitation demonstrates the availability of the DSI as a dynamical threshold parameter. This confirms the importance of imbalances of the atmospheric flow field, which dynamically induce the generation of rainfall
SHCal13 Southern Hemisphere calibration, 0–50,000 years cal BP
The Southern Hemisphere SHCal04 radiocarbon calibration curve has been updated with the addition of new data sets extending measurements to 2145 cal BP and including the ANSTO Younger Dryas Huon pine data set. Outside the range of measured data, the curve is based upon the Northern Hemisphere data sets as presented in IntCal13, with an interhemispheric offset averaging 43 ± 23 yr modeled by an autoregressive process to represent the short-term correlations in the offset
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