Search for dark matter particles in space: International experiments PAMELA and GAMMA-400

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Search for dark matter particles in space: International experiments PAMELA and GAMMA-400 S.A.Voronov National Research Nuclear University MEPHI Moscow Lebedev Physical Institute RAS 52th session of the Scientific and Technical Subcommitee on the Commity on the Peaceful Uses of Outer Space, Vienna 2-13 February 2015

RUSSIAN-ITALIANASTROPARTICLE EXPERIMENT «RIM - PAMELA» - THE FIRST REALIZED PROJECT FOR SEARCH AND STUDY OF DARK MATTER NATURE IN SPACE Leader investigators: from Russian side professor A. Galper from Italian side professor P. Picozza Launched in orbit on June 15, 2006, on board of the DK1 satellite by a Soyuz rocket from the Baikonour launch site. 8,5 years in orbit The amount of data collected is ~ 20 TB, corresponding to more than 5x10 9 events. 2-13 February 2015 2

PAMELA Collaboration Italy: ITALY Bari Florence Frascati Naples Rome Trieste CNR, Florence Rrurssia: RUSSIA Moscow St. Petersburg Germany: GERMANY g Siegen SWEDEN KTH, Stockholm 2-13 February 2015 3

2-13 February 2015 4

(GLAST AMS-02) 2-13 February 2015 5

Study of dark matter origin positron fraction PAMELA collaboration Nature 2009, V.458, P.607 ANOMALOUS EFFECT PAMELA Secondary production Moskalenko-Strong (1998) 2-13 February 2015 6

The main results: 1. PAMELA obtained an increase of galactic positron/electron flux ratio for energy range from 10 GeV up to 150 GeV. This contradicts to mechanisms of secondary electron and positron production. 2. In the same time measured values of antiproton/proton flux ratio is in agreement with model of secondary production. 3. These experimental facts can be explained by - annihilation and/or decay of hypothetic particles, that dark matter can consist. It is the first positive indirect observation of dark matter particles. 2-13 February 2015 7

THE SCIENTIFIC GOALS OF GAMMA-400 PROJECT Study of the dark matter origin by gamma rays, electrons and positrons from annihilation and decay of the dark matter particles. Study of processes of in active astrophysical objects including the center of Galaxy Study of generation and propogation of cosmic ray electrons and positrons Study of high energy gamma-ray bursts Precise measurements of discrete astrophysical sources 2-13 February 2015 8

GAMMA-400 Collaboration Russian scientific organizations Lebedev Physics Institute RAS main collaborator National Research Nuclear University MEPhI detectors Research Institute for Electromechanics design, temperature control system Scientific and technical Institute of system research RAS electronics Ioffe Physics-Technics Institute Konus-FG burst monitor Institute of high energy physics calorimeters, scintillators Scientific and technical Institute of Mechanical Engineering qualification Foreign scientific organizations Istituto Nazionale di Fisica Nucleare (Italy) strip detector and calorimeter Istituto Nazionale di Astrofisica (Italy) strip detector Taras Schevchenko National University (Ukraine) Ukrainian main collaborator Lviv Center of Institute for Space Research (Ukraine) magnetometer Institute for Scintillation Materials (Ukraine) scintillators Royal Institute of Technology (Sweden) anticoincidence GAMMA-400 Workshop May 2013 9

MAIN PERFORMANCES OF GAMMA-400 TELESCOPE Energy range 0,1-3000 GeV Angular resolution (E γ > 100 GeV) ~0,01 Energy resolution (E γ > 100 GeV) ~1% Rejection of charged particles ~5х10 5 Surface - anticoincidence system - calorimeter Thickness - convertor - calorimeter Mass Power consumption Volume of transmitted information Detected particles 1,44 m 2 0,64 m 2 1,0 rad. length 25 rad. Lengths 2600 kg 2000 W 100 GBytes per day Gamma photons, electrons, positrons, protons, nuclei

High energy resolution Background 10% (Fermi/LAT) 5% 1 2% (GAMMA-400) Bergström L., arxiv:1208.6082 (2012) 2-13 February 2015 11

GAMMA-400 telescope on Navigator module ORBIT Apogee 300000 km Perigee 500 km Inclination 51,8 a 2-13 February 2015 12

Conclusion 1. The first registration of dark matter particles was done by PAMELA instrument. 2. The new instrument GAMMA-400 for dark matter particle study by gamma-astronomy methods is under developing 2-13 February 2015 13

Thanks! 2-13 February 2015 14

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