Antiproton and Electron Measurements and Dark Matter Indirect Searches. Piergiorgio Picozza INFN and University of Rome Tor Vergata
|
|
- Chrystal McKenzie
- 6 years ago
- Views:
Transcription
1 Antiproton and Electron Measurements and Dark Matter Indirect Searches Piergiorgio Picozza INFN and University of Rome Tor Vergata 8th International Workshop On Identification Of Dark Matter Jul 2010, Montpellier, France
2 Astrophysics and Cosmology compelling Issues Apparent absence of cosmological Antimatter Nature of the Dark Matter that pervades the Universe
3 Search for the existence of Antimatter in the Universe PAMELA AMS in Space Search for the existence of anti Universe Accelerators Search for the origin of the Universe The Big Bang origin of the Universe requires matter and antimatter to be equally abundant at the very hot beginning
4 THE UNIVERSE ENERGY BUDGET
5 Robert L. Golden
6 Balloon data : Positron fraction before 1990 m χ =20GeV Tilka 89 dinamic halo leaky box
7 ANTIMATTER Collision of High Energy Cosmic Rays with the Interstellar Gas Annihilation of Exotic Particles Cosmic Rays Leaking Out of Antimatter Galaxies p e + p p e + p Evaporation of Primordial Black Holes e - e + e + Antimatter Lumps In the Milky Way He e + e - e + Pulsar s magnetospheres
8 Antimatter Direct research Observation of cosmic radiation hold out the possibility of directly observing a particle of antimatter which has escaped as a cosmic ray from a distant antigalaxy, traversed intergalactic space filled by turbulent magnetic field, entered the Milky Way against the galactic wind and found its way to the Earth. Streitmatter,, R. E., 24 th ICRC, Rome,, Italy, 1995 Nuovo Cimento, 19, 835 (1996) High energy particle or antinuclei
9 Kaluza-Klein DM in UED Kaluza-Klein DM in RS Axion Axino Gravitino Photino SM Neutrino Sterile Neutrino Sneutrino Light DM Little Higgs DM Wimpzillas Q-balls Mirror Matter Dark Matter Candidates v( r) = GM( r) r Champs (charged DM) D-matter Cryptons Self-interacting Superweakly interacting Braneworld DM Heavy neutrino NEUTRALINO Messenger States in GMSB L. Roszkowski Branons Chaplygin Gas Split SUSY Primordial ILIAS 6th Black Annual Holes Meeting, February 16th - 19st, 2009 Dresden Aldo Morselli, INFN Roma Tor Vergata 9
10
11 Another possible scenario: KK Dark Matter Lightest Kaluza-Klein Particle (LKP): B (1) Bosonic Dark Matter: fermionic final states no longer helicity suppressed. e+e - final states directly produced. As in the neutralino case there are 1-loop processes that produces monoenergetic in the final state.
12 DM annihilations DM particles are stable. They can annihilate in pairs. Primary annihilation channels Decay Final states a = < v>
13 Positrons detection Where do positrons come from? Mostly locally within 1 Kpc, due to the energy losses by Synchrotron Radiation and Inverse Compton scattering Typical lifetime Antiprotons within 10 Kpc
14 Decay Channels
15 e-
16 Antimatter Search Wizard Collaboration MASS 1,2 (89,91) TrampSI (93) CAPRICE (94, 97, 98) BESS (93, 95, 97, 98, 2000) Heat (94, 95, 2000) IMAX (96) BESS LDF (2004, 2007) AMS-01 (1998)
17 Charge-dependent solar modulation Asaoka Y. Et al Cosmic Ray Antimatter Pre-PAMELA-Fermi status Solar polarity reversal 1999/2000 Antiprotons Positrons Moskalenko & Strong 1998 Positron excess? + CR + ISM p-bar + kinematic threshold: 5.6 GeV for the reaction pp pppp CR + ISM π + x μ + x e + x CR + ISM π 0 + x γγ e
18 What did we need? Measurements at higher energies Better knowledge of background High statistics Continuous monitoring of solar modulation Long Duration Flights
19 Dark Matter Space Missions PAMELA ATIC BESS AMS GLAST/Fermi
20 PAMELA Payload for Antimatter Matter Exploration and Light Nuclei Astrophysics
21
22 PAMELA Launch 15/06/06 16 Gigabytes trasmitted daily to Ground NTsOMZ Moscow
23 Orbit Characteristics SAA 350 km 70 ο Low-earth elliptical orbit km Quasi-polar (70 o inclination) SAA crossed 610 km
24 Antiprotons
25 Antiproton flux PAMELA
26 Antiproton to proton ratio PAMELA
27 SAA Trapped pbar PAMELA GCR PAMELA
28 Positrons
29 Positron to all electron ratio Nature 458, 697, 2009 PAMELA Secondary production Moskalenko & Strong 98
30 Positron Fraction Preliminary
31 Positron Fraction Pulsar Component Yüksel et al. 08 KKDM (mass 300 GeV) Hooper & Profumo 07 Pulsar Component Atoyan et al. 95 Pulsar Component Zhang & Cheng 01 Secondary production Moskalenko & Strong 98
32 A Challenging Puzzle for Dark Matter Interpretation
33 Data fitting Which DM spectra can fit the data? DM with and dominant annihilation channel (possible candidate: Wino) positrons antiprotons Yes! No!
34 Data fitting DM with and dominant annihilation channel positrons antiprotons Yes! Yes! Yes!
35
36
37 Electrons
38 PAMELA Electron (e - ) Spectrum Preliminary Preliminary
39 PAMELA Electron (e - ) Spectrum Preliminary
40 PAMELA Electron (e - ) Spectrum Preliminary 0.02
41 All electrons e + + e -
42 Courtesy Luca Baldini
43
44 All three ATIC flights are consistent Preliminary Preliminary ATIC ATIC 1 ATIC 2 ATIC 4 Source on/source off significance of bump for ATIC1+2 is about 3.8 sigma J Chang et al. Nature 456, 362 (2008) ATIC-4 with 10 BGO layers has improved e, p separation. (~4x lower background) Bump is seen in all three flights. Significance for ATIC1+2+4 is 5.1 sigma
45 Example: DM I. Cholis et al. arxiv: v1 I. Cholis et al. arxiv: v1 See Neal Weiner s talk
46 Fermi ( (e + + e - )
47 Electrons measured with H.E.S.S.
48 Fermi (e( + + e - ) and PAMELA ratio Bergstrom et al. astro-ph v1
49 Fermi (e( + + e - ) astro-ph
50 Fermi (e( + + e - ) astro-ph =-2.7
51 PAMELA all electrons Preliminary
52 Gamma Constraints γ from DM annihilation γ from Inverse Compton on e ± in halo -upscatter of CMB, infrared and starlight photons on energetic e ± (Constraints on cosmological dark matter annihilation from the Fermi-LAT isotropic diffuse gamma-ray measurement) astro-ph v1 (Constraints on Dark Matter Annihilation in Clusters of Galaxies with the Fermi Large Area Telescope) astro-ph v1 radio-waves from synchrotron radiation of e ±
53 Astrophysical Explanation Pulsars S. Profumo Astro-ph Mechanism: : the spinning B of the pulsar strips e - that accelerated at the polar cap or at the outer gap emit γ that make production of e ± that are trapped in the cloud, further accelerated and later released at τ ~ 10 5 years. Young (T ~10 5 years) ) and nearby (< 1kpc) If not: too much diffusion,, low energy, too low flux. Geminga: : 157 parsecs from Earth and 370,000 years old B : 290 parsecs from Earth and 110,000 years old Many others after Fermi/GLAST Diffuse mature pulsars
54 Example: pulsars H. Yüksak et al., arxiv: v2 Contributions of e- & e+ from Geminga assuming different distance, age and energetic of the pulsar diffuse mature &nearby young pulsars Hooper, Blasi, and Serpico arxiv:
55 Pulsars: Most significant contribution to high-energy CRE: Nearby (d < 1 kpc) and Mature (104 < T/yr < 106) Pulsars D. Grasso et al. Example of fit to both Fermi and Pamela data with known (ATNF catalogue) nearby, mature pulsars and with a single, nominal choice for the e+/e- injection parameters
56 Anisotropy Fermi is performing a detailed study of dipole anisotropy and it is setting an upper limit.
57 How reliable is the background calculation? Secondary production Moskalenko & Strong 98
58 Cosmic Rays Propagation in the Galaxy
59 Antiproton to proton ratio
60 Proton and Helium fluxes
61 Proton to Helium ratio
62
63 ATIC
64 CREAM astro-ph/ = 0.33 top 0.6 med. 0.7 bot.
65 TRACER 2006 Boron Carbon Flux Ratio Preliminary Analysis - 70% Aperture - Conservative cuts Energy bin ( GeV/amu) from analysis of DEDX detector only. - Boron 8,000 events - Carbon55,000 events Boron / Carbon Flux Ratio 10-1 HEAO-3 CRN TRACER 2006 Increased statistics over CRN Expect several energy bins after energy deconvolution analysis Analysis of events with transition radiation signal underway (ie > 400 GeV/amu) 10-2 Preliminary Kinetic Energy (GeV/amu)
66 Preliminary B/C
67 PAMELA preliminary results Li/C Be/C
68 Positron Fraction
69 Solar Modulation of galactic cosmic rays Study of charge sign dependent effects Asaoka Y. et al. 2002, Phys. Rev. Lett. 88, ), Bieber, J.W., et al. Physi-cal Review Letters, 84, 674, J. Clem et al. 30th ICRC 2007 U.W. Langner, M.S. Potgieter, Advances in Space Research 34 (2004) Pamela AMS-01 Caprice / Mass /TS93 BESS
70 Solar modulation Interstellar spectrum (statistical errors only) Increasing GCR flux July 2006 August 2007 February 2008 Decreasing solar activity Ground neutron monitor PAMELA sun-spot number
71 Charge dependent solar modulation + + Pamela 2006 (Preliminary!) A > 0 A < 0 Positive particles
72 BESS-Polar II Launch - December 22, 2007
73 BESS Detector Rigidity measurement SC Solenoid (L=1m, B=1T) Min. material (4.7g/cm 2 ) Uniform field Large acceptance Central tracker (Drift chamber δ ~200μm Z, m measurement R,β --> m = ZeR 1/β 2-1 de/dx --> Z TOF β, de/dx JET/IDC Rigidity
74 BESS Polar II Observations/Expectations Event rate ~2.5 khz; Total events ~4.7 x 10 9 Total data volume 13.5 TB (3.07 kb/event) Expected antiprotons ~10, times previous Solar minimum dataset Antiproton Antideuteron (Search for PBH) (Search for PBH) Antihelium (Search for Antimatter)
75 AMS-02 on ISS In Orbit 2010 TRD Florida A&M Mexico MIT Yale Johns Hopkins Maryland ESA NIKHEF NLR, Amsterdam Annecy Grenoble Montpellier Ciemat-Madrid LIP-Lisbon ETH-Zurich Geneva Univ. Aarhus Kurchatov Inst. Inst. of Theor. & Experimental Physic s Helsinki Moscow State Univercity Turku Achen I & III Karlsruhe Munich Bologna Milano Perugia Pisa Roma Siena Bucharest IEE, IHEP Jiao Tong University Southeast University Korea IHEP Taiwan CSIST NCU Academia Sinic NSPO Vacuum Case Tracker MAGNET He Vessel RICH
76 The Completed AMS Detector on ISS Transition Radiation Detector (TRD) Time of Flight Detector (TOF) Silicon Tracker Magnet Electromagnetic Calorimeter (ECAL) Ring Image Cerenkov Counter (RICH) Size: 3m x 3m x 3m Weight: 7 tons
77 AMS-02 new configuration
78 AMS Capability Space Part 2006 Gamma Rays
79 Direct search for antimatter: AMS on ISS He Li Be B C Collect 2 billion nuclei with energies up to 2 trillion ev N O F Ne Na Mg Al Si P S Cl Ar K Ca Sc Ti V Cr Mn Fe Co y06k301 Atomic Number Sensitivity of AMS: If no antimatter is found => there is no antimatter to the edge of the observable universe (~ 1000 Mpc).
80 antiprotons Unique Feature of AMS positrons Combining searches in different channels could give (much) higher sensitiviy to SUSY DM signals gamma rays anti deuterons
81 The Next Future
82 Perspectives
83 Perspectives
84 Thanks! pamela.roma2.infn.it
Cosmic Ray Studies with PAMELA Experiment
Cosmic Ray Studies with PAMELA Experiment Piergiorgio Picozza INFN and University of Rome Tor Vergata 14th Lomonosov Conference on Elementary Particle Physics MSU, Moscow August 19 25, 2009 PAMELA Payload
More informationAntiparticle detection in space for dark matter search: the PAMELA experiment.
Antiparticle detection in space for dark matter search: the PAMELA experiment. Piergiorgio Picozza INFN and University of Rome Tor Vergata XCVI Congresso Nazionale della Società Italiana di Fisica Bologna
More informationSilicon Detectors for the Search of Cosmic Antimatter and Dark Matter
Silicon Detectors for the Search of Cosmic Antimatter and Dark Matter Piergiorgio Picozza INFN and University of Rome Tor Vergata From e + /e - Colliders to High Energy Astrophysics Trieste, September
More informationDetection of Antimatter in our Galaxy
Impossibile visualizzare l'immagine. La memoria del computer potrebbe essere insu!ciente per aprire l'immagine oppure l'immagine potrebbe essere danneggiata. Riavviare il computer e aprire di nuovo il
More informationAntimatter in Space. Mirko Boezio INFN Trieste, Italy. PPC Torino July 14 th 2010
Antimatter in Space Mirko Boezio INFN Trieste, Italy PPC 2010 - Torino July 14 th 2010 Astrophysics and Cosmology compelling Issues Apparent absence of cosmological Antimatter Nature of the Dark Matter
More informationIndirect Dark Matter search in cosmic rays. F.S. Cafagna, INFN Bari
Indirect Dark Matter search in cosmic rays F.S. Cafagna, INFN Bari Indirect Dark Matter search in cosmic rays With PAMELA experiment An experimentalist point of view F.S. Cafagna, INFN Bari Why Anti(particle)matter
More informationNew results from the AMS experiment on the International Space Station. Henning Gast RWTH Aachen
New results from the AMS experiment on the International Space Station Henning Gast RWTH Aachen 1 Questions to AMS-02: Are there galaxies made of anti-matter in the Universe? What is the nature of Dark
More informationThe AMS detector: a particle physics experiment in space
The AMS detector: a particle physics experiment in space Roberto Battiston University and INFN of Perugia International Workshop on Energy Budget in the High Energy Universe ICRR Tokyo February 21 st 2006
More informationCosmic Ray Physics with the Alpha Magnetic Spectrometer
Cosmic Ray Physics with the Alpha Magnetic Spectrometer Università di Roma La Sapienza, INFN on behalf of AMS Collaboration Outline Introduction AMS02 Spectrometer Cosmic Rays: origin & propagations: Dominant
More informationDIETRICH MÜLLER University of Chicago SLAC SUMMER INSTITUTE 2011
SEARCHES FOR ANTIMATTER DIETRICH MÜLLER University of Chicago SLAC SUMMER INSTITUTE 2011 OUTLINE Early History Baryon Asymmetry of the Universe? Current Limits on Antimatter Nuclei from Distant Galaxies
More informationPoS(IDM2010)013. Antiproton and Electron Measurements and Dark Matter Searches in Cosmic Rays. Piergiorgio Picozza.
Antiproton and Electron Measurements and Dark Matter Searches in Cosmic Rays University of Rome Tor Vergata and INFN, Rome, Italy E-mail: piergiorgio.picozza@roma2.infn.it Roberta Sparvoli University of
More informationAntimatter and DM search in space with AMS Introduction. 2 Cosmology with Cosmic Rays
Antimatter and DM search in space with AMS-02 Francesca R. Spada Istituto Nazionale di Fisica Nucleare Piazzale Aldo Moro, 5 I-00185, Rome, ITALY 1 Introduction AMS-02 is a space-borne magnetic spectrometer
More informationDark Matter Searches with AMS-02. AMS: Alpha Magnetic Spectrometer
Dark Matter Searches with AMS-02 AMS: Alpha Magnetic Spectrometer 2007/2008 Wim de Boer on behalf of the AMS collaboration University of Karlsruhe July, 20. 2004 COSPAR, Paris, W. de Boer, Univ. Karlsruhe
More informationA-Exam: e + e Cosmic Rays and the Fermi Large Array Telescope
A-Exam: e + e Cosmic Rays and the Fermi Large Array Telescope Walter Hopkins Physics Department, Cornell University. The Fermi Large Area Telescope is a particle detector in space with an effective collecting
More informationDark Matter Models. Stephen West. and. Fellow\Lecturer. RHUL and RAL
Dark Matter Models Stephen West and Fellow\Lecturer RHUL and RAL Introduction Research Interests Important Experiments Dark Matter - explaining PAMELA and ATIC Some models to explain data Freeze out Sommerfeld
More informationExperimental review of high-energy e e + and p p spectra
Experimental review of high-energy e e + and p p spectra Luca Baldini INFN Pisa luca.baldini@pi.infn.it TeV Particle Astrophysics, July 15 2009 Outline Measurement of the singly charged component of the
More informationSearch for exotic process with space experiments
Search for exotic process with space experiments Aldo Morselli INFN, Sezione di Roma 2 & Università di Roma Tor Vergata Rencontres de Moriond, Very High Energy Phenomena in the Universe Les Arc, 20-27
More informationAntimatter and dark matter: lessons from ballooning.
Mem. S.A.It. Vol. 79, 823 c SAIt 2008 Memorie della Antimatter and dark matter: lessons from ballooning. P. Picozza and L. Marcelli INFN and Dept. of Physics, University of Rome Tor Vergata, Italy e-mail:
More informationSpectra of Cosmic Rays
Spectra of Cosmic Rays Flux of relativistic charged particles [nearly exactly isotropic] Particle density Power-Law Energy spectra Exponent (p, Nuclei) : Why power laws? (constraint on the dynamics of
More informationThe PAMELA Satellite Experiment: An Observatory in Space for Particles, Antiparticles and Nuclei in the Cosmic Rays
: An Observatory in Space for Particles, Antiparticles and Nuclei in the Cosmic Rays M. Ricci 1 on behalf of the PAMELA Collaboration INFN, Laboratori Nazionali di Frascati, Via Enrico Fermi 40, I-00044
More informationDark Matter in the Universe
Dark Matter in the Universe NTNU Trondheim [] Experimental anomalies: WMAP haze: synchrotron radiation from the GC Experimental anomalies: WMAP haze: synchrotron radiation from the GC Integral: positron
More informationDARK MATTER SEARCHES WITH AMS-02 EXPERIMENT
DARK MATTER SEARCHES WITH AMS-02 EXPERIMENT A.Malinin a, For AMS Collaboration IPST, University of Maryland, MD-20742, College Park, USA Abstract. The Alpha Magnetic Spectrometer (AMS), to be installed
More informationResults from the PAMELA Space Experiment
Results from the PAMELA Space Experiment Emiliano Mocchiutti INFN Trieste, Italy On behalf of the PAMELA collaboration VULCANO Workshop 2014 Frontier Objects in Astrophysics and Particle Physics 18th -
More informationIndirect Search for Dark Matter with AMS-02
Indirect Search for Dark Matter with AMS-02 A. Malinin, UMD For the AMS Collaboration SUSY06, UC Irvine, June 14, 2006 Alpha Magnetic Spectrometer science The AMS is a particle physics experiment in space.
More informationDark matter in split extended supersymmetry
Dark matter in split extended supersymmetry Vienna 2 nd December 2006 Alessio Provenza (SISSA/ISAS) based on AP, M. Quiros (IFAE) and P. Ullio (SISSA/ISAS) hep ph/0609059 Dark matter: experimental clues
More informationCurrent and Future balloon and space experiments L. Derome (LPSC Grenoble) Tango, May 4-6th, 2009
Current and Future balloon and space experiments L. Derome (LPSC Grenoble) Tango, May 4-6th, 2009 L. Derome, Tango, May 4-6th 2009 1 Plan I will focus on: Future experiments which are going to measure
More informationCosmic Ray panorama. Pamela.roma2.infn.it PAMELA (2012) Experimental challenges : e + /p ~ 10-3 e + /e - ~ 10-1
1912 1932 Cosmic Ray panorama http::// Pamela.roma2.infn.it PAMELA (2012) Experimental challenges : e + /p ~ 10-3 e + /e - ~ 10-1 Pamela : < 0.1 evt year/gev Flux E α α 2.7 / 3.3 Statistical precision
More informationM. Lattanzi. 12 th Marcel Grossmann Meeting Paris, 17 July 2009
M. Lattanzi ICRA and Dip. di Fisica - Università di Roma La Sapienza In collaboration with L. Pieri (IAP, Paris) and J. Silk (Oxford) Based on ML, Silk, PRD 79, 083523 (2009) and Pieri, ML, Silk, MNRAS
More informationPayload for Antimatter Matter Exploration and Light-nuclei Astrophysics. PAMELA MissioN 17 December 2010 Prepared by FatiH KAYA
Payload for Antimatter Matter Exploration and Light-nuclei Astrophysics PAMELA MissioN 17 December 2010 Prepared by FatiH KAYA Astropartical Physics İssue To inform. What Powered the Big Bang? Inflation
More informationProject Paper May 13, A Selection of Dark Matter Candidates
A688R Holly Sheets Project Paper May 13, 2008 A Selection of Dark Matter Candidates Dark matter was first introduced as a solution to the unexpected shape of our galactic rotation curve; instead of showing
More informationPropagation in the Galaxy 2: electrons, positrons, antiprotons
Propagation in the Galaxy 2: electrons, positrons, antiprotons As we mentioned in the previous lecture the results of the propagation in the Galaxy depend on the particle interaction cross section. If
More informationPHY326/426 Dark Matter and the Universe. Dr. Vitaly Kudryavtsev F9b, Tel.:
PHY326/426 Dark Matter and the Universe Dr. Vitaly Kudryavtsev F9b, Tel.: 0114 2224531 v.kudryavtsev@sheffield.ac.uk Indirect searches for dark matter WIMPs Dr. Vitaly Kudryavtsev Dark Matter and the Universe
More informationMonthly Proton Flux. Solar modulation with AMS. Veronica Bindi, AMS Collaboration
Solar modulation with AMS Monthly Proton Flux Veronica Bindi, AMS Collaboration Physics and Astronomy Department University of Hawaii at Manoa Honolulu, Hawaii, US 1 AMS on the ISS May 19, 2011 and for
More informationRare Components in Cosmic Rays with AMS-02
Rare Components in Cosmic Rays with AMS-02 TAUP Sendai Sep.07 IEKP - Andreas Sabellek Universität (TH) for the AMS Collaboration The AMS Project: History and Future 1998 2008 again ready for launch AMS-01
More informationTopics. 1. Towards a unified picture of CRs production and propagation: 2. AMS-02 good candidates for Dark Matter space search
Nicolò Masi Bologna University and INFN - 31 May 2016 Topics 1. Towards a unified picture of CRs production and propagation: Astrophysical uncertainties with GALPROP Local Interstellar Spectra: AMS-02
More informationThe positron and antiproton fluxes in Cosmic Rays
The positron and antiproton fluxes in Cosmic Rays Paolo Lipari INFN Roma Sapienza Seminario Roma 28th february 2017 Preprint: astro-ph/1608.02018 Author: Paolo Lipari Interpretation of the cosmic ray positron
More informationPrimary Cosmic Rays : what are we learning from AMS
Primary Cosmic Rays : what are we learning from AMS Roberto Battiston University and INFN-TIFPA of Trento HERD Workshop IHEP-Beijing December 2-3 2013 1 Agile Fermi PAMELA AMS Direct study of the HESS
More informationP A M E L A Payload for Antimatter / Matter Exploration and Light-nuclei Astrophysics
P A M E L A Payload for Antimatter / Matter Exploration and Light-nuclei Astrophysics Mark Pearce KTH, Department of Physics, Stockholm, Sweden SLAC Summer Institute / 2007-08-07 Overview Indirect searches
More informationDARK MATTER. Martti Raidal NICPB & University of Helsinki Tvärminne summer school 1
DARK MATTER Martti Raidal NICPB & University of Helsinki 28.05.2010 Tvärminne summer school 1 Energy budget of the Universe 73,4% - Dark Energy WMAP fits to the ΛCDM model Distant supernova 23% - Dark
More informationAldo Morselli INFN Roma Tor Vergata
Gamma-rays Signatures of Dark Matter : Status and future prospect Aldo Morselli INFN Roma Tor Vergata VULCANO Workshop 2016 Frontier Objects in Astrophysics and Particle Physics 22nd - 28th, May 2016 Vulcano
More informationProperties of Elementary Particle Fluxes in Cosmic Rays. TeVPA Aug. 7, Yuan-Hann Chang National Central University, Taiwan
Properties of Elementary Particle Fluxes in Cosmic Rays TeVPA Aug. 7, 2017 Yuan-Hann Chang National Central University, Taiwan Elementary Particles in Space There are hundreds of different kinds of charged
More informationPAMELA SPACE MISSION
PAMELA SPACE MISSION XII International Workshop on Neutrino Telescopes 6 9 March 2007 Venice, Italy Piergiorgio Picozza Pamela Collaboration INFN & University of Roma Tor Vergata PAMELA Payload for Antimatter
More informationIntroduction History of Cosmic Ray Studies: Origin, Propagation, Spectrum, Composition
Etat actuel et Perspectives de la Physique d'astro-particule Daniel Haas DPNC Geneva Introduction History of Cosmic Ray Studies: Origin, Propagation, Spectrum, Composition Selected Experiments & Results
More informationAstrophysical issues in the cosmic ray e spectra: Have we seen dark matter annihilation?
Astrophysical issues +/ in the cosmic ray e spectra: Have we seen dark matter annihilation? Julien Lavalle Department of Theoretical Physics University of Torino and INFN Collab: Torino: R. Lineros, F.
More informationPAMELA Five Years of Cosmic Ray Observation from Space
PAMELA Five Years of Cosmic Ray Observation from Space Emiliano Mocchiutti INFN Trieste, Italy On behalf of the PAMELA collaboration Ajdovščina, University of Nova Gorica June 8, 2011 Emiliano Mocchiutti,
More informationFive Years of PAMELA in orbit
32nd International Cosmic Ray Conference, Beijing 2011 Five Years of PAMELA in orbit P. Picozza on behalf of PAMELA collaboration 1,2;1) 1 University of Rome Tor Vergata, Department of Physics, I-00133,
More informationIndirect detection of decaying dark matter
Indirect detection of decaying dark matter Alejandro Ibarra Technical University of Munich Many thanks to Chiara Arina, Wilfried Buchmüller, Gianfranco Bertone, Laura Covi, Mathias Garny, Michael Grefe,
More informationPrecision measurements of nuclear CR energy spectra and composition with the AMS-02 experiment
Journal of Physics: Conference Series PAPER OPEN ACCESS Precision measurements of nuclear CR energy spectra and composition with the AMS-02 experiment To cite this article: E Fiandrini 2016 J. Phys.: Conf.
More informationDark Matter Decay and Cosmic Rays
Dark Matter Decay and Cosmic Rays Christoph Weniger Deutsches Elektronen Synchrotron DESY in collaboration with A. Ibarra, A. Ringwald and D. Tran see arxiv:0903.3625 (accepted by JCAP) and arxiv:0906.1571
More informationPreliminary lecture programme:
Preliminary lecture programme: 1. The particle universe: introduction, cosmological parameters 2. Basic cross sections for neutrinos and gamma-rays; IceCube 3. Density of relic particles from the early
More informationa cosmic- ray propagation and gamma-ray code
GALPROP: a cosmic- ray propagation and gamma-ray code A. Strong, MPE Garching Tools for SUSY, Annecy, June 28 2006 The basis: cosmic-ray production & propagation in the Galaxy intergalactic space HALO
More informationProbing quark matter in compact stars with cosmic rays. Jes Madsen University of Aarhus, Denmark
Probing quark matter in compact stars with cosmic rays Jes Madsen University of Aarhus, Denmark Strangelets in cosmic rays? What are strangelets? Ways to detect a cosmic ray strangelet flux A strangelet
More informationRecent&results&from&the&Alpha&Magne4c& Spectrometer&(AMS)&Experiment&& on&the&interna4onal&space&sta4on
Recent&results&from&the&Alpha&Magne4c& Spectrometer&(AMS)&Experiment&& on&the&interna4onal&space&sta4on Federico Pilo - INFN Pisa Vulcano, May 19 th 2014 3 Experimental Challenges Search for Dark Matter
More informationJustin Vandenbroucke (KIPAC, Stanford / SLAC) for the Fermi LAT collaboration
Measurement of the cosmic ray positron spectrum with the Fermi LAT using the Earth s magnetic field Justin Vandenbroucke (KIPAC, Stanford / SLAC) for the Fermi LAT collaboration International Cosmic Ray
More informationCosmic Antimatter. Stéphane. Coutu The Pennsylvania State University. 3 rd. Astrophysics Arequipa,, Peru August 28-29, 29, 2008
Cosmic Antimatter Stéphane Coutu The Pennsylvania State University 3 rd rd School on Cosmic Rays and Astrophysics Arequipa,, Peru August 28-29, 29, 2008 Outline Cosmic Rays Antimatter: Positrons, Antiprotons
More informationSubir Sarkar
Trinity 2016 Oxford ² The universe observed ² Relativistic world models ² Reconstructing the thermal history ² Big bang nucleosynthesis ² Dark matter: astrophysical observations ² Dark matter: relic particles
More informationa Payload for Antimatter Matter Exploration and Light nuclei Astrophysics
a Payload for Antimatter Matter Exploration and Light nuclei Astrophysics The triple ring system surrounding Supernova 1987A, as detected by the Hubble Space Telescope. A supernova remnant, the Crab nebula,
More informationDark Matter. Evidence for Dark Matter Dark Matter Candidates How to search for DM particles? Recent puzzling observations (PAMELA, ATIC, EGRET)
Dark Matter Evidence for Dark Matter Dark Matter Candidates How to search for DM particles? Recent puzzling observations (PAMELA, ATIC, EGRET) 1 Dark Matter 1933 r. - Fritz Zwicky, COMA cluster. Rotation
More informationTHE AMS RICH COUNTER
THE AMS RICH COUNTER G. BOUDOUL ISN Grenoble ISN-GRENOBLE 1 The AMS RICH collaboration: Bologna, Grenoble, Lisbon, Madrid, Maryland, Mexico 2 The AMS collaboration UNAM S.C.C. TING (MIT), PI 3 AMS Scientific
More informationImplication of AMS-02 positron fraction measurement. Qiang Yuan
Implication of AMS-02 positron fraction measurement Qiang Yuan (yuanq@ihep.ac.cn) Institute of High Energy Physics, Chinese Academy of Sciences Collaborated with Xiaojun Bi, Guo-Ming Chen, Yi-Qing Guo,
More informationSUPPLEMENTARY INFORMATION
1. Selecting electrons in ATIC ATIC is a calorimetric instrument and, as such, relies upon the difference in the development of the cascades (showers) initiated by protons and electrons. Moreover, the
More informationTesting a DM explanation of the positron excess with the Inverse Compton scattering
Testing a DM explanation of the positron excess with the Inverse Compton scattering Gabrijela Zaharijaš Oskar Klein Center, Stockholm University Work with A. Sellerholm, L. Bergstrom, J. Edsjo on behalf
More informationIntroduction to Cosmic Rays Data Analysis Issues. Nicola De Simone INFN and University of Rome Tor Vergata
Introduction to Cosmic Rays Data Analysis Issues Nicola De Simone INFN and University of Rome Tor Vergata SciNeGHE 2010 - Data Analysis Tutorial Trieste, September 8-9, 2010 The physics of PAMELA PRL 102,
More informationCOSMIC RAYS DAY INTRODUCTION TO COSMIC RAYS WINDWARD COMMUNITY COLLEGE - SEPTEMBER 26, 2015 VERONICA BINDI - UNIVERSITY OH HAWAII
COSMIC RAYS DAY WINDWARD COMMUNITY COLLEGE - SEPTEMBER 26, 2015 VERONICA BINDI - UNIVERSITY OH HAWAII INTRODUCTION TO COSMIC RAYS MAJOR QUESTIONS: Are there forms of matter in the Universe that do not
More informationCosmic ray electrons from here and there (the Galactic scale)
Cosmic ray electrons from here and there (the Galactic scale) Julien Lavalle Department of Theoretical Physics Torino University and INFN Outline: (i) local electrons (ii) comments on synchrotron [based
More informationIndirect Dark Matter Detection
Indirect Dark Matter Detection Martin Stüer 11.06.2010 Contents 1. Theoretical Considerations 2. PAMELA 3. Fermi Large Area Telescope 4. IceCube 5. Summary Indirect Dark Matter Detection 1 1. Theoretical
More informationThe High-Energy Interstellar Medium
The High-Energy Interstellar Medium Andy Strong MPE Garching on behalf of Fermi-LAT collaboration Cosmic Ray Interactions: Bridging High and Low Energy Astrophysics Lorentz Centre Workshop March 14-18
More informationQuest for New Physics
Stefano Profumo UC Santa Cruz Santa Cruz Institute for Particle Physics T.A.S.C. [Theoretical Astrophysics in Santa Cruz] Cosmic Rays and the Quest for New Physics Scineghe 2010, Trieste, Italy Thursday,
More informationCosmic rays in the local interstellar medium
Cosmic rays in the local interstellar medium Igor V. Moskalenko Igor V. Moskalenko/NASA-GSFC 1 LMC (Magellanic Cloud Emission Nuclear Data-2004/09/28, Line Survey: Smith, Points) Santa Fe R - H G - [S
More informationDark Matter Annihilation, Cosmic Rays and Big-Bang Nucleosynthesis
Dark Matter Annihilation, Cosmic Rays and Big-Bang Nucleosynthesis Institute for Cosmic Ray Research, University of Tokyo Kazunori Nakayama J.Hisano, M.Kawasaki, K.Kohri and KN, arxiv:0810.1892 J.Hisano,
More informationSignals from Dark Matter Indirect Detection
Signals from Dark Matter Indirect Detection Indirect Search for Dark Matter Christian Sander Institut für Experimentelle Kernphysik, Universität Karlsruhe, Germany 2nd Symposium On Neutrinos and Dark Matter
More informationAstro2020 Science White Paper Prospects for the detection of synchrotron halos around middle-age pulsars
Astro2020 Science White Paper Prospects for the detection of synchrotron halos around middle-age pulsars Thematic Areas: Planetary Systems Star and Planet Formation Formation and Evolution of Compact Objects
More informationEun-Suk Seo Inst. for Phys. Sci. & Tech. and Department of Physics University of Maryland. Cosmic Rays Eun-Suk Seo
Eun-Suk Seo Inst. for Phys. Sci. & Tech. and Department of Physics University of Maryland Cosmic Rays Eun-Suk Seo 1 Cosmic Rays Eun-Suk Seo 2 How do cosmic accelerators work? BESS ATIC CREAM, TRACER Elemental
More informationChapter 6.2: space based cosmic ray experiments. A. Zech, Instrumentation in High Energy Astrophysics
Chapter 6.2: space based cosmic ray experiments 1 A bit of history... space based experiments 1912-1950: first observations of the cosmic ray flux with detectors onboard balloons and air-planes. 1950s/60s:
More informationGalactic Cosmic Ray Propagation in the AMS 02 Era
Galactic Cosmic Ray Propagation in the AMS 02 Era I Science case 1. Galactic Cosmic Rays 2. AMS 02 II Collaboration LAPP/LAPTh/LPSC 1. Teams and context 2. Support asked for the project III Conclusions
More informationIndirect Dark Matter constraints with radio observations
Indirect Dark Matter constraints with radio observations In collaboration with E.Borriello and G.Miele, University of Naples Federico II Alessandro Cuoco, Institute for Physics and Astronomy University
More information99 Years from Discovery : What is our current picture on Cosmic Rays? #6 How cosmic rays travel to Earth? Presented by Nahee Park
99 Years from Discovery : What is our current picture on Cosmic Rays? #6 How cosmic rays travel to Earth? Presented by Nahee Park #5 How do Cosmic Rays gain their energy? I. Acceleration mechanism of CR
More informationSearching for Dark Matter Annihilation from Milky Way Dwarf Spheroidal Galaxies. Present status and future prospects
Searching for Dark Matter Annihilation from Milky Way Dwarf Spheroidal Galaxies. Present status and future prospects Aldo Morselli INFN Roma Tor Vergata CTA in the quest for Dark Matter and exotic phenomena
More informationStatus and perspectives of PAMELA experiment for indirect dark matter search
Focus week on Indirect Dark Matter Search December 07-11, 2009 Status and perspectives of PAMELA experiment for indirect dark matter search M. Casolino INFN & University of Roma Tor Vergata on behalf of
More informationGeV to Multi-TeV Cosmic Rays: AMS-02 Status and Future Prospects
: AMS-02 Status and Future Prospects DPNC and Center for Astroparticle Physics (CAP Genève) Université de Genève E-mail: martin.pohl@cern.ch Due to recent observations, there is a renewed interest in GeV
More informationDecaying Dark Matter and the PAMELA anomaly
Decaying Dark Matter and the PAMELA anomaly Alejandro Ibarra Technische Universität München In collaboration with Wilfried Buchmüller, Gianfranco Bertone, Laura Covi, Michael Grefe, Koichi Hamaguchi, Tetsuo
More informationPAMELA from Dark Matter Annihilations to Vector Leptons
PAMELA from Dark Matter Annihilations to Vector Leptons phalendj@umich.edu With Aaron Pierce and Neal Weiner University of Michigan LHC and Dark Matter Workshop 2009 University of Michigan Outline PAMELA
More informationSep. 13, JPS meeting
Recent Results on Cosmic-Rays by Fermi-LAT Sep. 13, 2010 @ JPS meeting Tsunefumi Mizuno (Hiroshima Univ.) On behalf of the Fermi-LAT collaboration 1 Outline Introduction Direct measurement of CRs CRs in
More informationSearch for Dark Matter in the sky
Search for Dark Matter in the sky Aldo Morselli INFN, Sezione di Roma Tor Vergata Rencontres de Moriond, XLIVth Rencontres de Moriond La Thuile, Italy, February 1-8, 2009 Rencontres de Moriond La Thuile,
More informationEnergy Spectrum of all Electrons and Positron Fraction
Energy Spectrum of all Electrons and Positron Fraction Dr. Rena Majumdar Department of Physics Bhairab Ganguly College Kolkata-56, India renabkp021@gmail.com Abstract The absolute differential energy spectrum
More informationDark Matter Particle Explorer and Its First Results
0254-6124/2018/38(5)-610 05 Chin. J. Space Sci. Ξ ΛΠΠ CHANG Jin. Dark Matter Particle Explorer and its first results. Chin. J. Space Sci., 2018, 38(5): 610-614. DOI:10.11728/cjss2018. 05.610 Dark Matter
More informationAstrophysical issues in indirect DM detection
Astrophysical issues in indirect DM detection Julien Lavalle CNRS Lab. Univers & Particules de Montpellier (LUPM), France Université Montpellier II CNRS-IN2P3 (UMR 5299) Service de Physique Théorique Université
More informationWhite dwarf pulsar as Possible Cosmic Ray Electron-Positron Factories
White dwarf pulsar as Possible Cosmic Ray Electron-Positron Factories 2010 7/9 Kazumi Kashiyama (Kyoto University) Kunihito Ioka & Norita Kawanaka (KEK) arxiv:1009.1141 (submitted to PRD) http://www.nasa.gov/centers/goddard/news/topstory/2007/whitedwarf_pulsar.html
More informationAntimatter research in space
INSTITUTE OF PHYSICSPUBLISHING JOURNAL OFPHYSICSG: NUCLEAR ANDPARTICLE PHYSICS J. Phys. G: Nucl. Part. Phys. 29 (2003) 903 911 PII: S0954-3899(03)54937-4 Antimatter research in space Piergiorgio Picozza
More informationMeasuring Dark Matter Properties with High-Energy Colliders
Measuring Dark Matter Properties with High-Energy Colliders The Dark Matter Problem The energy density of the universe is mostly unidentified Baryons: 5% Dark Matter: 20% Dark Energy: 75% The dark matter
More informationMeasurement of CR anisotropies with the AMS detector on the ISS
Measurement of CR anisotropies with the AMS detector on the ISS J. Casaus ( CIEMAT Spain ) on behalf of the AMS Collaboration Origin of excess of positrons Positron fraction shows an excess above 10 GeV
More informationGALACTIC CENTER GEV GAMMA- RAY EXCESS FROM DARK MATTER WITH GAUGED LEPTON NUMBERS. Jongkuk Kim (SKKU) Based on Physics Letters B.
GALACTIC CENTER GEV GAMMA- RAY EXCESS FROM DARK MATTER WITH GAUGED LEPTON NUMBERS Jongkuk Kim (SKKU) Based on Physics Letters B. 752 (2016) 59-65 In collaboration with Jong Chul Park, Seong Chan Park The
More informationInterstellar gamma rays. New insights from Fermi. Andy Strong. on behalf of Fermi-LAT collaboration. COSPAR Scientific Assembly, Bremen, July 2010
Interstellar gamma rays New insights from Fermi Andy Strong on behalf of Fermi-LAT collaboration COSPAR Scientific Assembly, Bremen, July 2010 Session E110: ' The next generation of ground-based Cerenkov
More informationCosmic Positron Signature from Dark Matter in the Littlest Higgs Model with T-parity
Cosmic Positron Signature from Dark Matter in the Littlest Higgs Model with T-parity Masaki Asano The Graduate University for Advanced Studies Collaborated with Shigeki Matsumoto Nobuchika Okada Yasuhiro
More informationFirst results on the high energy cosmic ray electron spectrum with the Fermi-LAT
First results on the high energy cosmic ray electron spectrum with the Fermi-LAT Johan Bregeon INFN Pisa johan.bregeon@pi.infn.it on behalf of the Fermi LAT collaboration TANGO in Paris - May 4 th, 009
More informationLimits on Antiprotons in Space from the Shadowing of Cosmic Rays by the Moon
Limits on Antiprotons in Space from the Shadowing of Cosmic Rays by the Moon Presented by: Yupeng Xu ( ETH Zürich / L3+C collaboration) PhD Students Seminar, PSI, October 1-2, 2003 The L3+C Experiment
More informationThe Galactic diffuse gamma ray emission in the energy range 30 TeV 3 PeV
The Galactic diffuse gamma ray emission in the energy range 30 TeV 3 PeV Mount Rainier by Will Christiansen Silvia Vernetto & Paolo Lipari 35th ICRC 12-20 July 2017 - Busan - South Korea Gamma ray astronomy
More informationLow-Energy Cosmic Rays
Low-Energy Cosmic Rays Cosmic rays, broadly defined, are charged particles from outside the solar system. These can be electrons, protons, or ions; the latter two dominate the number observed. They are
More informationThe Search for Dark Matter. Jim Musser
The Search for Dark Matter Jim Musser Composition of the Universe Dark Matter There is an emerging consensus that the Universe is made of of roughly 70% Dark Energy, (see Stu s talk), 25% Dark Matter,
More informationEGRET Excess of diffuse Galactic Gamma Rays as a Trace of the Dark Matter Halo
EGRET Excess of diffuse Galactic Gamma Rays as a Trace of the Dark Matter Halo Indirect Search for Dark Matter W. de Boer 1, I. Gebauer 1, A.V. Gladyshev 2, D. Kazakov 2, C. Sander 1, V. Zhukov 1 1 Institut
More information