The PAMELA equipment will be assembled in 2001 and installed on board the Russian satellite Resurs. PAMELA is conceived mainly to study the antiproton and positron fluxes in cosmic rays up to high energy (190 GeV for (p) over bar and 270 GeV for e(+)) and to search antinuclei, up to 30 GeV/n, with a sensitivity of 10(-7) in the He/He ratio. The PAMELA telescope consists of. a magnetic spectrometer made up of a permanent magnet system equipped with double sided microstrip silicon detectors a transition radiation detector made up of active layers of proportional straw tubes interleaved with carbon fibre radiators; and a silicon-tungsten imaging calorimeter made up of layers of tungsten absorbers and silicon detector planes. A time-of-flight system and anti-coincidence counters complete the PAMELA equipment. In the past years, tests have been done on each subdetector of PAMELA; the main results are presented and their implications on the anti-particles identification capability in cosmic rays are discussed here. (C) 2002 Elsevier Science B.V. All rights reserved. RI Cafagna, Francesco/A-9299-2010; Christian, Eric/D-4974-2012; Morselli, Aldo/G-6769-2011; giglietto, nicola/I-8951-2012

The PAMELA experiment on satellite and its capability in cosmic rays measurements / Adriani, O; Ambriola, M; Barbarino, G; Barbier, Lm; Bartalucci, S; Bazilevskaja, G; Bellotti, R; Bertazzoni, S; Bidoli, V; Boezio, M; Bogomolov, E; Bonechi, L; Bonvicini, V; Boscherini, M; Bravar, U; Cafagna, F; Campana, D; Carlson, P; Casolino, M; Castellano, Marcello; Castellini, G; Christian, Er; Ciacio, F; Circella, M; D'Alessandro, R; De Marzo, Cn; De Pascale, Mp; Finetti, N; Furano, G; Gabbanini, A; Galper, Am; Giglietto, Nicola; Grandi, M; Grigorjeva, A; Guarino, F; Hof, M; Koldashov, Sv; Korotkov, Mg; Krizmanic, Jf; Krutkov, S; Lund, J; Marangelli, B; Marino, L; Menn, W; Mikhailov, Vv; Mirizzi, N; Mitchell, Jw; Mocchiutti, E; Moiseev, Aa; Morselli, A; Mukhametshin, R; Ormes, Jf; Osteria, G; Ozerov, Jv; Papini, P; Pearce, M; Perego, A; Piccardi, S; Picozza, P; Ricci, M; Salsano, A; Schiavon, P; Scian, G; Simon, M; Sparvoli, R; Spataro, B; Spillantini, P; Spinelli, P; Stephens, Sa; Stochaj, Sj; Stozhkov, Y; Straulino, S; Streitmatter, Re; Taccetti, F; Tesi, M; Vacchi, A; Vannuccini, E; Vasiljev, G; Vignoli, V; Voronov, Sa; Yurkin, Y; Zampa, G; Zampa, N.. - In: NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH. SECTION A, ACCELERATORS, SPECTROMETERS, DETECTORS AND ASSOCIATED EQUIPMENT. - ISSN 0168-9002. - STAMPA. - 478:1-2(2002), pp. 114-118. [10.1016/S0168-9002(01)01726-0]

The PAMELA experiment on satellite and its capability in cosmic rays measurements

CASTELLANO, Marcello;GIGLIETTO, Nicola;
2002-01-01

Abstract

The PAMELA equipment will be assembled in 2001 and installed on board the Russian satellite Resurs. PAMELA is conceived mainly to study the antiproton and positron fluxes in cosmic rays up to high energy (190 GeV for (p) over bar and 270 GeV for e(+)) and to search antinuclei, up to 30 GeV/n, with a sensitivity of 10(-7) in the He/He ratio. The PAMELA telescope consists of. a magnetic spectrometer made up of a permanent magnet system equipped with double sided microstrip silicon detectors a transition radiation detector made up of active layers of proportional straw tubes interleaved with carbon fibre radiators; and a silicon-tungsten imaging calorimeter made up of layers of tungsten absorbers and silicon detector planes. A time-of-flight system and anti-coincidence counters complete the PAMELA equipment. In the past years, tests have been done on each subdetector of PAMELA; the main results are presented and their implications on the anti-particles identification capability in cosmic rays are discussed here. (C) 2002 Elsevier Science B.V. All rights reserved. RI Cafagna, Francesco/A-9299-2010; Christian, Eric/D-4974-2012; Morselli, Aldo/G-6769-2011; giglietto, nicola/I-8951-2012
2002
The PAMELA experiment on satellite and its capability in cosmic rays measurements / Adriani, O; Ambriola, M; Barbarino, G; Barbier, Lm; Bartalucci, S; Bazilevskaja, G; Bellotti, R; Bertazzoni, S; Bidoli, V; Boezio, M; Bogomolov, E; Bonechi, L; Bonvicini, V; Boscherini, M; Bravar, U; Cafagna, F; Campana, D; Carlson, P; Casolino, M; Castellano, Marcello; Castellini, G; Christian, Er; Ciacio, F; Circella, M; D'Alessandro, R; De Marzo, Cn; De Pascale, Mp; Finetti, N; Furano, G; Gabbanini, A; Galper, Am; Giglietto, Nicola; Grandi, M; Grigorjeva, A; Guarino, F; Hof, M; Koldashov, Sv; Korotkov, Mg; Krizmanic, Jf; Krutkov, S; Lund, J; Marangelli, B; Marino, L; Menn, W; Mikhailov, Vv; Mirizzi, N; Mitchell, Jw; Mocchiutti, E; Moiseev, Aa; Morselli, A; Mukhametshin, R; Ormes, Jf; Osteria, G; Ozerov, Jv; Papini, P; Pearce, M; Perego, A; Piccardi, S; Picozza, P; Ricci, M; Salsano, A; Schiavon, P; Scian, G; Simon, M; Sparvoli, R; Spataro, B; Spillantini, P; Spinelli, P; Stephens, Sa; Stochaj, Sj; Stozhkov, Y; Straulino, S; Streitmatter, Re; Taccetti, F; Tesi, M; Vacchi, A; Vannuccini, E; Vasiljev, G; Vignoli, V; Voronov, Sa; Yurkin, Y; Zampa, G; Zampa, N.. - In: NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH. SECTION A, ACCELERATORS, SPECTROMETERS, DETECTORS AND ASSOCIATED EQUIPMENT. - ISSN 0168-9002. - STAMPA. - 478:1-2(2002), pp. 114-118. [10.1016/S0168-9002(01)01726-0]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11589/2740
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