6 research outputs found
Measurement of the gluon PDF at small x with neutrino telescopes
We analyze the possibility that neutrino telescopes may provide an
experimental determination of the slope lambda of the gluon distribution in the
proton at momentum fractions x smaller than the accelerator reach. The method
is based on a linear relation between lambda and the spectral index (slope) of
the down-going atmospheric muon flux above 100 TeV, for which there is no
background. Considering the uncertainties in the charm production cross section
and in the cosmic ray composition, we estimate the error on the measurement of
lambda through this method, excluding the experimental error of the telescopes,
to be ~ +/- 0.2Comment: 16 pages with 16 figures - new version, comments added, same results
and figure
Primary proton spectrum between 200 TeV and 1000 TeV observed with the Tibet burst detector and air shower array
Since 1996, a hybrid experiment consisting of the emulsion chamber and burst
detector array and the Tibet-II air-shower array has been operated at
Yangbajing (4300 m above sea level, 606 g/cm^2) in Tibet. This experiment can
detect air-shower cores, called as burst events, accompanied by air showers in
excess of about 100 TeV. We observed about 4300 burst events accompanied by air
showers during 690 days of operation and selected 820 proton-induced events
with its primary energy above 200 TeV using a neural network method. Using this
data set, we obtained the energy spectrum of primary protons in the energy
range from 200 to 1000 TeV. The differential energy spectrum obtained in this
energy region can be fitted by a power law with the index of -2.97 0.06,
which is steeper than that obtained by direct measurements at lower energies.
We also obtained the energy spectrum of helium nuclei at particle energies
around 1000 TeV.Comment: 25 pages, 22 figures, Accepted for publication in Phys. Rev.
High Energy Processes in Pulsar Wind Nebulae
Young pulsars produce relativistic winds which interact with matter ejected
during the supernova explosion and the surrounding interstellar gas. Particles
are accelerated to very high energies somewhere in the pulsar winds or at the
shocks produced in collisions of the winds with the surrounding medium. As a
result of interactions of relativistic leptons with the magnetic field and low
energy radiation (of synchrotron origin, thermal, or microwave background), the
non-thermal radiation is produced with the lowest possible energies up to
100 TeV. The high energy (TeV) gamma-ray emission has been originally
observed from the Crab Nebula and recently from several other objects. Recent
observations by the HESS Cherenkov telescopes allow to study for the first time
morphology of the sources of high energy emission, showing unexpected spectral
features. They might be also interpreted as due to acceleration of hadrons.
However, theory of particle acceleration in the PWNe and models for production
of radiation are still at their early stage of development since it becomes
clear that realistic modeling of these objects should include their time
evolution and three-dimensional geometry. In this paper we concentrate on the
attempts to create a model for the high energy processes inside the PWNe which
includes existence not only relativistic leptons but also hadrons inside the
nebula. Such model should also take into account evolution of the nebula in
time. Possible high energy expectations based on such a model are discussed in
the context of new observations.Comment: 9 pages, 1 figure, Proc. Multimessenger approach to high energy
gamma-ray source
A measurement of the average longitudinal development profile of cosmic ray air showers between 10(17) and 10(18) eV
Copyright © 2001 Elsevier Science B.V. All rights reserved.The average extensive air shower longitudinal development profile is measured. Events between 1017 and 1018 eV recorded by the HiRes/MIA hybrid experiment are used for the average profile. Several functional forms are examined using this average profile. The best-fit parameters for the above functions are determined. © 2001 Elsevier Science B.V.http://www.elsevier.com/wps/find/journaldescription.cws_home/523319/description#descriptio