Roger Blandford KIPAC Stanford

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Transcription:

Roger Blandford KIPAC Stanford

New Observational Capabilities Radio multibeam,vlbi IRAO, HST, Keck, Gemini,VLT Chandra, XMM Newton, HETE-2, Swift H.E.S.S Auger.. 9 xii 2005 KICP Kavli 2

Progress - Relativity Double pulsar J0737-3039 2.4 hr period Special relativity 3 classical tests Shapiro delay Grav. radiation 0.001 test Spin orbit EOS 9 xii 2005 KICP Kavli 3 Kramer et al

Progress Black Holes NGC 4258 disk etc mass Fe line profiles spin Hole-Bulge Relations Co-evolution 9 xii 2005 KICP Kavli 4

Progress - Galactic Center 0.2 4000 ~100 hot stars in 10 18 cm Approach ~ 10 16 cm 6Myr old 2 disks! Implications for AGN Dec-offset (arcsec) 0.1 0 0.1 0 RA-offset (arcsec) -0.1 line of sight (lsr) velocity (km/s) 3000 2000 1000 0-1000 2000 2005 2010 time 9 xii 2005 KICP Kavli 5

Progress: Galactic Center mm size<15m? 10-8 L edd. X-ray flares Non-thermal emission Infrared QPOs? 20 min Radio polarimetry Chandra 2-8 kev May 2002 campaign: ~0.6-1.2 flares/day 2 hours 9 xii 2005 KICP Kavli 6

Progress - GRBs Long Bursts Identifications Redshifts; z=6.3 10 51 erg; anisotropic Prompt gamma rays Flares, no reverse shock Afterglow Association with SNIbc Collapsar models Short Long B A T B A T X R T Swift 2 Duration Classes U V UO X VT Spac R O ecraf T T t 9 xii 2005 KICP Kavli 7

Progress - GRBs Short Bursts Identifications Redshifts 10 48-50 erg Elliptical galaxies? Compact object mergers?? Gravitational radiation??? 9 xii 2005 KICP Kavli 8

Progress - GRBs Soft Repeaters 10 46 erg 300µs rise time Anisotropic afterglow Magnetars Flare in TT NS magnetosphere 1806-20 RHESSI Lightcurve 9 xii 2005 KICP Kavli 9

Progress - Jets AGN, GSL, PWN, GRB, YSO TeV emission 1 < Γ < 300 AGN jets are not ionic? Jets magnetically confined? Structured jets Disk-jet connection ~30c QuickTime and a YUV420 codec decompressor are needed to see this picture. 9 xii 2005 KICP Kavli 10

Progress - Jets Jets can be powerful Inflate giant lobes 10 61 erg Float up, heat IGM? Galaxy formation? 9 xii 2005 KICP Kavli 11

Progress - Cosmic Rays Sources of low energy particles t~15myr, t>0.1myr Zevatrons Protons? GZK?? Bottom up??? ACE 9 xii 2005 KICP Kavli 12

Progress: Cosmic Rays X-ray supernova remnants Shocks Electron acceleration Proton acceleration? TeV gamma rays 9 xii 2005 KICP Kavli 13

Problems:Power How is gravitational/rotational energy converted into power? Magnetic field? Thermal:nonthermal? Is accretion conservative? Gal. center? High vs low entropy eg GRB fireballs 9 xii 2005 KICP Kavli 14

Unipolar Induction V~ ν Φ Ι Ζ 0 ; P ~ V 2 / Z 0 Crab Pulsar B ~ 100 MT, ν ~ 30 Hz, R ~ 10 km V ~ 30 PV; I ~ 3 x 10 14 A; P ~ 10 31 W Massive Black Hole in AGN B M Ω B ~ 1T, ν ~ 10 µhz, R ~1 Pm V ~300 EV, I ~ 3EA, P ~ 10 39 W GRB B ~ 1 TT, ν ~ 1 κhz, R~10 km V ~ 30 ZV, I ~ 300 EA, P ~ 10 43 W 9 xii 2005 KICP Kavli 15

Pictor A Wilson et al Electromagnetic Transport 10 18 not 10 17 A DC not AC No internal shocks New particle acceleration mechanisms Current Flow Nonthermal emission is ohmic dissipation of current flow? Pinch stabilized by velocity gradient 9 xii 2005 KICP Kavli 16 Equipartition in core

Problems: What flows Supersonic gas or Poynting flux Jet cores move Equipartition natural Velocity gradient => Stability? Magnetic collimation? P jet >> P ext. 9 xii 2005 KICP Kavli 17

Problems:Particles and Fields Diffusive shock acceleration Observed in solar system Magnetic field amplification Weibel instability Cosmic ray induced Return current instability First order or second order process Maximum energy - UHECR 9 xii 2005 KICP Kavli 18

Problems: Particles and Fields How do jets accelerate in situ 100TeV electrons No strong shocks when β < 1 Inter-knot X-ray emission => not shocks Ohmic dissipation? Volumetric heating Damping of wave spectrum 9 xii 2005 KICP Kavli 19

Problems: Plasma astrophysics Where does the cluster cooling gas go? Enough energy? Conduction and viscosity Dissemination and dissipation Sound/internal waves Reconciliationof weak/strong lensing, X-rays, SZ? How much gas accretes onto black hole? Cluster evolution, through SZ, X-rays, proposed as sensitive cosmological probe Radio sources evolve! Churazov, Fabian, Forman, Schindler, Kausch 9 xii 2005 KICP Kavli 20

Importance of Cosmic Rays Cluster gas has high entropy Acquired at high Mach number shocks Shocks accelerate ionic cosmic rays with partial pressure ~ 0.2-0.3 of total Cosmic ray pressure supports gas after it cools by ~1/3 Inhibits compression and infall 9 xii 2005 KICP Kavli 21

Non-radiative cooling Warm gas permeated by small quantity of cold filaments Size < electron mfp Cool off warm gas Radiate energy in UV Cold phase settles onto galaxy Star formation and black hole accretion Feedback 9 xii 2005 KICP Kavli 22

Prospects Suzaku Takahashi preliminary OVII Suzaku Team OVIII NVI Wide varieties of spectra OVIII FeXVII ROSAT 3/4keV band OVII Constraints on temperatures, ionization states, NeIX and abundances of multiple emission components FeXVII More data and better calibrations coming soon

Prospects:GLAST (2007) Some key science objectives: understand particle acceleration and high-energy emission from neutron stars and black holes, including GRBs determine origin(s) of γ-ray extragalactic diffuse background measure extragalactic background starlight search for dark matter? extra dimensions?? Multi-wavelength observations.. GLAST will focus on the most energetic objects and phenomena in the universe 9 xii 2005 KICP Kavli 24

NuSTAR Key Science Questions Prospects: NuSTAR Black Holes: How are black holes distributed through the cosmos, and how do they influence the formation of structure? NuSTAR will perform a deep black hole survey. Supernovae: How do stars explode and forge the elements that compose the Earth? NuSTAR will map supernova remnants. Extreme Objects: What powers the most extreme active black holes? Contemporaneous observations of blazars detected by GLAST. NuSTAR Instrument & Mission High Energy X-ray optics: (Columbia, LLNL, Danish Space Center, KIPAC/SLAC). CdZnTe Detectors: (Caltech) Selected by NASA in January 2005 as one of two Small Explorers (120M$). Launch is scheduled for 2009. Now in an extended study phase with final launch confirmation in 2006. 9 xii 2005 KICP Kavli 25

Prospects: New Windows LIGO Auger VERITAS Northern Hemisphere observations Next step in TeV astyronomy? IceCube AMANDA 9 xii 2005 KICP Kavli 26

Prospects:Beyond Einstein Constellation-X, LISA JDEM, BHFP, IP 9 xii 2005 KICP Kavli 27

Prospects: High Energy Density Physics High Power Lasers - 10 23-25 W m -2 > MT magnetic field >100 MeV electron quiver energies Collisionless shocks, particle acceleration, magnetic field Spheromaks Dynamics and stability of force-free configurations Magnetic reconnection High current e-beam experiments Current instabilities Z-pinches Stability 9 xii 2005 KICP Kavli 28

Summary Great time in particle / high energy astrophysics Big astrophysics problems are multisource not just multiwavelength Exciting menu of new projects 9 xii 2005 KICP Kavli 29

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