287 research outputs found
Measurement of the Crab Flux Above 60 GeV with the CELESTE Cherenkov Telescope
We have converted the former solar electrical plant THEMIS (French Pyrenees)
into an atmospheric Cherenkov detector called CELESTE, which records gamma rays
above 30 GeV (7E24 Hz). Here we present the first sub-100 GeV detection by a
ground based telescope of a gamma ray source, the Crab nebula, in the energy
region between satellite measurements and imaging atmospheric Cherenkov
telescopes. At our analysis threshold energy of 60 +/- 20 GeV we measure a
gamma ray rate of 6.1 +/- 0.8 per minute. Allowing for 30% systematic
uncertainties and a 30% error on the energy scale yields an integral gamma ray
flux of I(E>60 GeV) = 6.2^{+5.3}_{-2.3} E-6 photons m^-2 s^-1. The analysis
methods used to obtain the gamma ray signal from the raw data are detailed. In
addition, we determine the upper limit for pulsed emission to be <12% of the
Crab flux at the 99% confidence level, in the same energy range. Our result
indicates that if the power law observed by EGRET is attenuated by a cutoff of
form e^{-E/E_0} then E_0 < 26 GeV. This is the lowest energy probed by a
Cherenkov detector and leaves only a narrow range unexplored beyond the energy
range studied by EGRET.Comment: 34 pages, accepted by the Astrophysical Journa
Hyperon production in proton-sulphur collisions at 200 GeV/c
The WA94 experiment uses the production of strange particles and antiparticles to investigate the properties of hot hadronic matter created in heavy--ion interactions. \PgL, \PagL, \PgXm\ and \PagXp\ particle yields and transverse mass spectra are presented for pS interactions. These results are compared with those from SS interactions. Our results are also compared with those from pW and SW interactions of the WA85 experiment
Strangeness enhancement at mid-rapidity in Pb-Pb collisions at 158 GeV/c
, , , and negative particle yields and transverse mass spectra have been measured at central rapidity in Pb-Pb and p-Pb collisions at 158 GeV/. The yields in Pb-Pb interactions % are presented as a function of the collision centrality and compared with those obtained from p-Pb collisions. Strangeness enhancement in Pb-Pb relative to p-Pb collisions increases with the strangeness content of the particle. Going from p-Pb to Pb-Pb, the strange particle yields increase faster than linearly with the number of participants up to , thereafter the increase becomes %linear with . Yields are studied as a function of the number of nucleons participating in the collision , which is estimated with the Glauber model. From p-Pb to Pb-Pb collisions the particle yields per participant increase substantially. The enhancement is more pronounced for multistrange particles, and exceeds an order of magnitude for the . For a number of participants, , greater than , however, all yields per participant appear to be constant
Etude du comportement thermique dâun capteur calorimĂ©trique compact en conditions de laboratoire
International audienc
Etude du comportement thermique dâun capteur calorimĂ©trique compact en conditions de laboratoire
International audienc
Comparison of the Responses of New Reduced-Size Calorimetric Cells Made of Different Structure Materials for High Energy Deposition
This paper concerns experimental and numerical works on a new differential calorimeter called CALORRE and validated recently under irradiation conditions in MARIA reactor at low nuclear absorbed dose rate level. Works focus on a specific configuration of CALORRE which was designed especially for the measurement of high nuclear energy deposition rates inside Material Testing Reactors. Due to the high level, a new calibration system was fabricated in order to determine the response of the new configuration under laboratory conditions for a very wide range of electrical power never applied in the literature. The response of the new configuration can be considered linear for this very wide range of electrical power. An analytical calculation shows the contribution of each heat transfer in specific zones. 3D thermal simulations performed by means of COMSOL Multiphysics under irradiation conditions give the predictions of the calorimeter behavior under real conditions (up to 20W.gâ1)
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