Non-thermal emission from pulsars experimental status and prospects
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1 Non-thermal emission from pulsars experimental status and prospects # γ!"# $%&'()
2 TeV γ-ray astrophysics with VERITAS ( $γ" *$%&'()
3 The charged cosmic radiation - how it all began... Discovery: Victor Hess (1912) Characteristics Isotropic in-fall Nucleons (~98%), electrons (~2%) (composition energy dependent) Energy spectrum: power-law Origin: not finally understood (shock acceleration, Fermi 1&2) Problem: Direction of charged particles lost in magnetic fields + γ, # -
4 TeV γ-ray astrophysics: Study hadronic/leptonic particle accelerators π. γ ( $ /γ ( $ " /γ + γ ( $ 0'1
5 TeV γ-ray astrophysics with Cherenkov telescopes Gammas enter earth's atmosphere and produce air showers & Cherenkov light Imaging of Cherenkov light with telescopes: reconstruct direction & energy Reject CR background: image properties γ γ +
6 The VERITAS Cherenkov Telescope Array (Very Energetic Radiation Imaging Telescope Array System)!" #, 4% 25 )401 (5061 2%&01 5'0' 1,23 Each camera: 499 PMT pixels Energy range: TeV ( E/E <20%) Sensitivity: 0.1(0.01) Crab in 0.5h (26h)
7 Introduction: TeV γ-ray astrophysics Probe non-thermal universe Observations per year: h (+200h moon data) Dynamical field: 2000: handful of sources, 2011: >100 sources $%&'() ## $ %!$
8 Galactic TeV sources 3 ( $
9 The galactic plane at TeV energies &' ( 3 ) 07..;1 9.:=>9? 2)) +% 2& &!<=:=9 0+%1 5, 2& %@=..( $ ) :;
10 Class1: Supernova Remnants (SNRs) TeV emission from SNR: - SN ejecta expand into interstellar medium - shock acceleration (charged particles) - TeV γ-rays (secondary reactions) Open question: hadronic or leptonic? MWL (morphology and SED): particle population & emission mechanisms!"01 2=..A NASA, ESA, Zolt Levay (STScI) ( $ )! *+ " %, -. ) / ( $ 2=..A0+%1
11 Class1: Supernova Remnants (SNRs): RX J 1713 indications for lepton domination (Ellison, Fermi Symposium 20111) &!<=:=9 ( 0 1, " *
12 Brogan et al. (2006) H.E.S.S. Nanteen radio telescope Class1b: SNR + molecular clouds 2 C * 01 γ" +, 2&/ 7? $%&'() 09>B 1 ( $
13 Class2: Pulsar wind nebulae (PWN) TeV emission from PWN: - pulsar driven bubble of relativistic particles - shock acceleration (SNR or ISM interaction) - TeV γ-rays emission: inverse-compton Example 'Boomerang': age: 10,000 years, de/dt = 2.2 x erg/s =87.+D0% 6 # 1 $%&'() 0$%&'()1 09>B 1 0( $$%&'()1
14 Class3: High mass X-ray binaries (LSI )!"γ#$% &' #()*+,")-!0$. ' %' $'.'' (%/$'%'0123 &'' '%- )%%!4) &-
15 Class4: Unidentified TeV γ-ray sources Unidentified TeV γ-ray sources: - no counterpart at other wavelengths - mostly extended - emission mechanism unknown ) 07..;1)E)89>=.=9 +% 1 0?89D1&, # +%<=9.9"A9=
16 Can we see a pulsar at 0.1 TeV energies?
17 High-energy emission from pulsars: polar cap vs. outer gap models 0!%!&- '!9%$%%! %! $!''!!' %%!''!&!!- %!%$:$'&9%$-;+ $%''! '% $%'<= ' <=9''!%$>&*- '%%& 8 %!- '!%$ %$:$+%''$$ ' ' >$!&- >$'$!!$%& Ω-;!%#!' $$. $ A :!'! %%!!%'%$:$' ''$%'! B#!%+&'+ -!: ' # ', F@ G
18 What can be observed? 1%' C$'%'!%' C: 0& $& '- C'&$'0-': %$ :!@': $!;(1$!%!' '#!&'$; -!% % C!%'%''!&' #- '! 'Ω' '%!'''!
19 High-energy emission from pulsars: polar cap vs. outer gap models #)05 & 7.==1
20 Pulsar light curves measured at different energies
21 High-energy emission from pulsars: polar cap vs. outer gap models #)+05 & 7.==1
22 High-energy emission from pulsars: polar cap vs. outer gap models #(05 & 7.==1
23 High-energy emission from pulsars: polar cap vs. outer gap models #)05 & 7.==1
24 The Crab pulsar and nebula $':'A8&D<.%- ('%$! 89 E &' (γ#$!- 0+ ' $! &' "γ#$%- )'$!$%$F"!$' ( $ #2 #H( $ 0$%&'()1
25 The Crab pulsar and nebula $':'A8&D<.%- ('%$! 89 E &' (γ#$!- 0+ ' $! &' "γ#$%- )'$!$%$F"!$' I, "
26 The Crab pulsar: seen above 100GeV N.Otte, A.McCann, M.Schroedter G''' %!.'D 'A* H,").'!: %$:$'':&=*- ' =!! &:'$:!%- #%'!#&$ -,")$!=* =*$!!'$! (&H 4'!#$3- E ''($! &%%!'@'$ ' - %$ I' $!42? E # 234( $5" E br = 24 GeV 6 3/4 sqrt(radius/lcyl) 0+",A 1
27 !"D, 5
28 High-energy emission from pulsars: polar cap vs. outer gap models #$ 05 & 7.==1
29 Polarized X-rays: missions/status Stokes parameters: - Describing linear (S 1,S 2 ) and circular (S 3 ) polarization - Components of the electric field [unit: flux density]. Processes resulting in polarized radiation: - Synchrotron radiation (linear) - Curvature radiation (circular) - Thomson scattering & Bremsstrahlung - Compton scattering off polarized photon field X-ray polarimetry: Status J Only one dedicated X-ray polarimetry mission so far: OSO-8: 2.6/5.2 kev polarization of the Crab (20%, 30 o relative to jet) [ApJ, 220, L117, 1978] J INTEGRAL: Crab polarization (0.1-1MeV): ~46% [Science, 321, 1183, 2008] J Main difficulty: Need high statistics to determine Stokes parameters X-ray polarimetry: Future missions: J Gravity and Extreme Magnetism SMEX (GEMS): 2-10 kev (100 x OSO-8) [Swank] J Astro-H: E>10 kev, Compton Polarimetry (systematics) [SPIE, 7732, 34, 2010]
30 Polarized X-rays: physics motivation (pulsars) Neutron stars, pulsars, PWN & Magnetars: J Radiation transfer in strongly magnetized plasmas: polarization (curvature and/or synchrotron emission), phase & energy dependent. J Magnetars, strong magnetic fields (soft γ-ray repeaters): cyclotron features Constrain magnetic field and particle populations
31 X-Calibur: Design General idea: Compton scattering angle (linear polarized X-rays): more likely to E field vector 1: low-z Compton scatterer (Az dependence) 2: high-z material to photo-absorb 3: Signature in distribution of scattering angles X-Calibur polarimeter design: J Scintillator slab (low-z Compton scatterer) J Detect scattered X-rays: high-z CZT crystals J Operate polarimeter in X-ray telescope High fraction of unambiguously identified Compton scatter events
32 X-Calibur: Design drawings!"# Rotation mechanism: Reduce systematic effects
33 X-Calibur: Design (prototype in the lab) )7!! ' % 8 ' %
34 X-Calibur: First measurement 1/3 9! : * + " )!! %
35 X-Calibur: First measurement 2/3 Calibrate X-Calibur: J Calibrate CZT detectors with Eu 157 source (4.1 kev 40keV and 5.0 kev 122keV) J Azimuthal acceptance: unpolarized Eu 157 beam Measure polarized beam: J Scatter Cs 137 source (662 kev) off lead brig J Collimator: only allow 90deg scattering angle J Entering X-Calibur: 288 kev polarized beam!"# *+ " ;;5(<! : *+ " 005(
36 X-Calibur: First measurement (results) Azimuthal scattering distribution: J Incoming beam: 288keV, 55% polarized, µ=0.4 J Only PMT/CZT coincidence (Compton) events J Correct for azimuthal angle covered J Correct for azimuthal detector acceptance Measurements in agreement with expectations " 7?? $ % D #
37 X-Calibur: Operate in InFOCuS X-ray telescope '54 InFOCuS X-ray telescope: J Grazing incidence Wolter X-ray mirror (changes polarization by <1%, Katsuta et al. 2009) J Already flown successfully (Tueller et al.) J Weight: 1.4t, focal length: ~8m!"# Benefit of X-Calibur/InFOCuS: 1: High detection efficiency (80% of photons) 2: low background (focusing, low CZT volume) 3: control & reduction of systematics (rotation)
38
39 X-Calibur: Design (scatterer and absorber) Low-Z Compton scatterer: J Scintillator rod (EJ-200, 16cm, ρ~1g/cm 3 ) J 80keV X-rays Compton-scatter (p>90%) J scintillator read by PMT (Hamamatsu R7600U) High-Z photo absorber: J 2x2 cm 2 CZT crystals (8x8 pixel anode) Endicott Interconect, Quikpak/Redlen, Creative Electron J Bonded to ceramic chip carrier J Read by ASIC (G. DeGeronimo & E. Wulf) )7 =( )7!
40 X-Calibur: Simulations Simulate X-Calibur performance: J Use Geant4 package with Livermore model ( J Assume X-Calibur/InFOCuS flight (5.6hrs) J Assume Crab-like source: energy-dependent polarization degree and angle ApJ, 220, L117 (1978) and Science, 321, 1183 (2008) Compare to competing designs: J See Guo et al: arxiv (2010) X-Calibur: detection efficiency > 80% modulation factur µ~0.5
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