Cosmic ray physics and AUGER latest results

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LiBeB nucleosynthesis 122 ■ Li, Be <strong>and</strong> B evolution in the early Galaxy abundance ratios [log(a.u.)] -3 -4 -5 -6 -7 -8 strong constraints on GCR source models! (Not to be overlooked!) B/Fe (expected) B/Fe Be/Fe Be/Fe (expected) ⇒ excludes isolated SNe as GCR sources! ⇒ superbubbles? -9 -4 -3 -2 -1 0 stellar metallicity (log Z * /Z ) Paris, 9 th June 2008 — IDAPPʼs two days 2008 — E. Parizot (APC / Univ. Paris 7)
HE photon emission from GCR interactions in the ISM 123 e.g. of expected fluxes from Perseus OB2 superbubble… Paris, 9 th June 2008 — IDAPPʼs two days 2008 — E. Parizot (APC / Univ. Paris 7)
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1 Cosmic-ray physics and Auger late
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3 Cosmic rays: “CRs” ■ Key su
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Cosmic ray physics started one cent
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7 Viktor Hess: August, 7 th 1912 12
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9 Then a long story began… ■
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11 CR-induced atmospheric showers P
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Schism… and ecumenism! 13 study o
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A remarkably coherent, though myste
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[CR flux] x E 3 17 ■ Essentially
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19 The way out of the mist ■ Anal
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21 Propagation: a “3-space” pro
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23 Angular distribution ■ Isotrop
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Interaction with B inhomogeneities
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Reaching the diffusive regime 27 <
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Diffusive transport and GCR confine
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GCR large angular scale anisotropy
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larger energy 33 Paris, 9 th June 2
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still larger energy 35 “Ballistic
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37 Propagation: a “3-space” pro
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Energy losses and nuclear interacti
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Pion production in interstellar med
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Nuclear interactions in ISM 43 Pari
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Composition: CR vs solar system 45
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Secondary/primary ratios 47 Strong
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49 Some results ■ ■ ■ ■ Sec
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51 Cosmic-ray clocks 54 Mn/Mn 36 Cl
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53 Antiprotons Strong & Moskalenko
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Search for dark matter: positron fr
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57 High energy CR propagation ■
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59 [cross section] x [inelasticity]
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61 "Propagated" spectrum z = 0.01,
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63 10 Spectre propagé (source uniq
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UHE Nuclei propagation 65 2D nuclea
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Fe interaction and energy loss leng
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Fit of the spectrum with a “pure
Page 71 and 72: Are there nuclei among EGCRs? 71 Pu
Page 73 and 74: 73 The Pierre Auger Observatory Nor
Page 75 and 76: High-energy CR detection 75 • com
Page 77 and 78: Hexagonal array (1.5 km spacing, 30
Page 79 and 80: Aerial view of Los Leones fluoresce
Page 81 and 82: One of the fluorescence eyes 81 440
Page 83 and 84: 83 Independent analyses of stereo e
Page 85 and 86: Atmospheric depth of shower maximum
Page 87 and 88: Energy reconstruction with surface
Page 89 and 90: Cross-calibration of the detectors
Page 91 and 92: Energy spectrum from SD showers wit
Page 93 and 94: Energy spectrum 93 Paris, 9 th June
Page 95 and 96: Auger main anisotropy result 95 ■
Page 97 and 98: Auger main anisotropy result 97 3 f
Page 99 and 100: Significance of the anisotropy resu
Page 101 and 102: 101 Auger main anisotropy result Th
Page 103 and 104: Summary of Auger results 103 compos
Page 105 and 106: Galactic/Extragalactic transition 1
Page 107 and 108: Toy model: holistic scenario 107
Page 109 and 110: What is at stake 109 ■ Major disc
Page 111 and 112: 111 Extra slides Paris, 9 th June 2
Page 113 and 114: Photon flux limit 113 astro-ph/0712
Page 115 and 116: Neutrino detection with Auger "GZK
Page 117 and 118: Selection criteria 117 young shower
Page 119 and 120: Horizontal showers 119 Example of a
Page 121: LiBeB nucleosynthesis 121 ■ Li, B
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Cosmic ray physics and AUGER latest results

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