800 research outputs found
Leading and higher twists in proton, neutron and deuteron unpolarized structure functions
We summarize the results of a recent global analysis of proton and deuteron
F2 structure function world data performed over a large range of kinematics,
including recent measurements done at JLab with the CLAS detector. From these
data the lowest moments (n <= 10) of the unpolarized structure functions are
determined with good statistics and systematics. The Q**2 evolution of the
extracted moments is analyzed in terms of an OPE based twist expansion, taking
into account soft-gluon effects at large x. A clean separation among the
Leading and Higher-Twist terms is achieved. By combining proton and deuteron
measurements the lowest moments of the neutron F2 structure function are
determined and its leading twist term is extracted. Particular attention is
paid to nuclear effects in the deuteron, which become increasingly important
for the higher moments. Our results for the non-singlet, isovector (p - n)
combination of the leading twist moments are used to test recent lattice
simulations. We also determine the lowest few moments of the higher twist
contributions, and find these to be approximately isospin independent,
suggesting the possible dominance of ud correlations over uu and dd in the
nucleon.Comment: 8 pages, 4 figures; to appear in the Proceedings of the IVth
International Conference on Quark and Nuclear Physics (QNP06), Madrid
(Spain), June 5-10, 200
Experimental moments of the nucleon structure function F2
Experimental data on the F2 structure functions of the proton and deuteron,
including recent results from CLAS at Jefferson Lab, have been used to
construct their n<=12 moments. A comprehensive analysis of the moments in terms
of the operator product expansion has been performed to separate the moments
into leading and higher twist contributions. Particular attention was paid to
the issue of nuclear corrections in the deuteron, when extracting the neutron
moments from data. The difference between the proton and neutron moments was
compared directly with lattice QCD simulations. Combining leading twist moments
of the neutron and proton we found the d/u ratio at x->1 approaching 0,
although the precision of the data did not allow to exclude the 1/5 value. The
higher twist components of the proton and neutron moments suggest that
multi-parton correlations are isospin independent.Comment: Proceedings of 13th International QCD Conference (QCD 06),
Montpellier, France, July 3-7th 200
Evaluation of artificial reforestation efforts in the ribbon forest zone of Altai Krai
The ribbon forest zone of Altai Krai is located in the Kulunda Steppe and on the Priobskoye Plateau. The climate of this region is characterized by extreme aridity. Due to the harsh climate and the importance of the ribbon forests for the environmental sustainability of the region, artificial reforestation is an integral part of the regional forest management. Forest stands of artificial origin currently occupy a large area within the ribbon forest zone, as evidenced by forest inventory data. However, due to the fact that surveys are not conducted simultaneously on the whole territory of Altai Krai, and that they miss some of the forest management units, forest inventory data do not provide an up-to-date assessment of artificial reforestation efforts. Our project attempted to update the existing data of forest resource assessments and evaluate the results of artificial reforestation efforts in the ribbon forest zone of Altai Krai. This article presents data on the distribution of the artificially reforested area by predominant species and type of growing conditions, and the distribution of the growing stock of the artificially established stands by age and type of forest growing conditions. © 2019 IOP Publishing Ltd. All rights reserved
Neutron structure function moments at leading twist
The experimental data on F2 structure functions of the proton and deuteron
were used to construct their moments. In particular, recent measurements
performed with CLAS detector at Jefferson Lab allowed to extend our knowledge
of structure functions in the large-x region. The phenomenological analysis of
these experimental moments in terms of the Operator Product Expansion permitted
to separate the leading and higher twist contributions. Applying nuclear
corrections to extracted deuteron moments we obtained the contribution of the
neutron. Combining leading twist moments of the neutron and proton we found d/u
ratio at x->1 approaching 0, although 1/5 value could not be excluded. The
twist expansion analysis suggests that the contamination of higher twists
influences the extraction of the d/u ratio at x->1 even at Q2-scale as large as
12 (GeV/c)^2.Comment: To appear in proceedings of Quark Confinement and the Hadron Spectrum
VII Conference, Ponta Delgada, Portugal, 2-7 September 200
Proton and neutron polarized structure functions from low to high Q**2
Phenomenological parameterizations of proton and neutron polarized structure
functions, g1p and g1n, are developed for x > 0.02 using deep inelastic data up
to ~ 50 (GeV/c)**2 as well as available experimental results on photo- and
electro-production of nucleon resonances. The generalized Drell-Hearn-Gerasimov
sum rules are predicted from low to high values of Q**2 and compared with
proton and neutron data. Furthermore, the main results of the power correction
analysis carried out on the Q**2-behavior of the polarized proton Nachtmann
moments, evaluated using our parameterization of g1p, are briefly summarized.Comment: Proceedings of the II International Symposium on the
Gerasimov-Drell-Hearn sum rule and the spin structure of the nucleon, Genova
(Italy), July 3-6, 200
Self-Consistent Data Analysis of the Proton Structure Function g1 and Extraction of its Moments
The reanalysis of all available world data on the longitudinal asymmetry A||
is presented. The proton structure function g1 was extracted within a unique
framework of data inputs and assumptions. These data allowed for a reliable
evaluation of moments of the structure function g1 in the Q2 range from 0.2 up
to 30 GeV2. The Q2 evolution of the moments was studied in QCD by means of
Operator Product Expansion (OPE).Comment: Proceeding of 3rd International Symposium on the
Gerasimov-Drell-Hearn Sum Rule and its extensions, Old Dominion University,
Norfolk, Virginia June 2-5, 200
Definition of Time Induction of Self-Ignition of the Substance on the Prognostic Extrapolation Depending on the Basis of Indicators Fire and Explosion Hazard
In this article the research directed on development of a technique of definition of time of induction of the self-ignition of substances and materials which is an indicator of the beginning of development of an emergency is conducted. The experiment consisting in supervision over process of self-ignition of coal and oil deposits was the basis for research. On the basis of experimental data the curve expressing analytic - expected dependence of size of temperature of ignition on induction time was constructed. Proceeding from graphical representation of process, functional dependence of time of induction on a temperature indicator was received: y=16920•x{0.537}. By means of known indicators of such substances as bitumen oil oxidized (the combustible solid substance received by oxidation of residual product of oil refining) and tar oil (the combustible solid substance which is residual product of oil refining) and the received algorithm, verification of reliability of the received dependence and a technique of definition of time of induction of spontaneous ignition of deposits of oil in general was carried out. The practical importance of the conducted research is that having data on time of induction of process of self-ignition, by means of preventive measures becomes possible to avoid and prevent accidents in oil and oil processing branches, at the same time loss of property and loss of human life
Higher twist analysis of the proton g_1 structure function
We perform a global analysis of all available spin-dependent proton structure
function data, covering a large range of Q^2, 1 < Q^2 < 30 GeV^2, and calculate
the lowest moment of the g_1 structure function as a function of Q^2. From the
Q^2 dependence of the lowest moment we extract matrix elements of twist-4
operators, and determine the color electric and magnetic polarizabilities of
the proton to be \chi_E = 0.026 +- 0.015 (stat) + 0.021/-0.024 (sys) and \chi_B
= -0.013 -+ 0.007 (stat) - 0.010/+0.012 (sys), respectively.Comment: 6 pages, 2 figures, to appear in Phys. Lett.
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