Kinetic SZ effect from galaxy cluster rotation - PowerPoint PPT Presentation

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Kinetic SZ effect from galaxy cluster rotation

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Title: Institutsemenar Author: Jens Chluba Last modified by: Jens Chluba Created Date: 1/20/2001 5:53:14 PM Document presentation format: Bildschirmpr sentation – PowerPoint PPT presentation

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Title: Kinetic SZ effect from galaxy cluster rotation


1
Kinetic SZ effect from galaxy cluster
rotationAnother relativistic correction to the
SZE
Jens Chluba and Karl Mannheim AA 396, 419-428
(2002) Universitäts-Sternwarte Göttingen
  • JC, Gert Hütsi and Rashid Sunyaev
  • accepted by AA, 2005, astro-ph/0409058
  • Max-Planck-Institut für Astrophysik

2
Kinetic SZ effect from galaxy cluster rotation
3
Large smalle scale motion of the ICM
  • Mergers in the cosmological context
  • ? should excite large small scale motion of
    the ICM !
  • (off-axis mergers)
  • Coma Cluster (XMM)
  • (Schuecker et al., 2004)
  • ? turbulent motions on
  • scales 20-145 kpc
  • (core radius 420 kpc)
  • ? turbulence on larger scales
  • is possible!
  • Turbulent cascades
  • from large ? small scales
  • viscosity
  • plasma instabilities
  • magnetic fields
  • transition between k-SZ
  • th-SZ

Schuecker et al., 2004
4
Large smalle scale motion of the ICM (2)
  • Hydrodynamic simulations by Norman Bryan 1999
  • ? turbulent velocities 25-60 of virial
    velocity
  • ? minor mergers maintain the level of turbulence
  • ? also found ordered circulation, which is
    likely due to a off-axis merger
  • X-ray spectral lines for Centaurus cluster
  • (Dupke Bregman 2001)
  • ? bulk velocities of the order of 1000 km/s
  • ? likely due to a previous off-axis merger
  • Several recent hydrodynamic simulations
  • (Nagai et al. 2003 Torman, Moscardini Yoshida
    2004 Diaferio, Borgani, Moscardini et al. 2005)
  • ? bulk velocities v few ? 100 km/s

5
Toy-model for large scale motion of the ICM
  • Initial stage after (major) merger
  • ? one large scale eddie
  • ? simple assumption solid body rotation
  • ? line of sight velocity constant
  • Gas follows isothermal b-model
  • ? line of sight integral analytical
  • spectral dependence like k-SZ
  • dipolar signature (inclination)
  • extrema at y few ? rc
  • bcore 10-5 to few ? 10-4
  • ? DT 0.1 - few ? 10 µK

b0.75, i90, Rmax 10 rc
6
Multi-frequency observations of the SZE
  • Main signals th-SZ and k-SZ
  • RJ part of the CMB spectrum ? th-SZ dominant
  • close to cross-over frequency ? k-SZ rk-SZ
  • shift of the maximum Dy fraction of the core
    radius
  • ? optimistic Dy few arcsec
  • ? even more optimistic Dy up to arcmin (no
    k-SZ)
  • Comparison of SZ image at different frequencies
  • This probably also happens for two merging lumps
  • linear polarization
  • ? many orders smaller (few nK or a fraction of
    µK level)
  • ? sensitive to the transverse velocity
  • ? optimistic on the level of a few relative
    to the k-SZ polarization

7
Another relativistic correction to the SZE....
8
SZ effect from clusters of galaxies
  • Relativistic temperatures peculiar motions
    (Rephaeli, 1995 Challinor Lasenby 1998
    Sazonov Sunyaev, 1998 Itoh et al., 1998)
  • ? corrections to the lowest order signals
  • ? especially important at high frequencies
  • ? 10-20 deviations
  • ? possiblility to measure the electron
    temperature only with the CMB (strong
    frequency dependence)
  • non-thermal SZ
  • Motion of the Solar System !
    (Chluba, Hütsi Sunyaev, 2004)
  • has been neglected so far
  • SZ effect imprint in the CMB rest frame
  • Doppler boosting aberration
  • Lorentz boosted y-distortion ? correction
    similar to the first order temperature
    correction to the k-SZ
  • easy to take into account!

9
Motion-induced Change of SZ Brightness
  • Example kTe 5.1 keV, bc 10-3 and bo 1.241
    ?10-3
  • strong frequency and spatial dependence
  • can reach the level of 10 of the k-SZ at high
    frequencies (e.g.14 at 400 GHz)
  • RJ- limits motion-induced correction to th-SZ
    DT/T-2 y bo m

10
Conclusions
  • simple analytic model for k-SZ from cluster
    rotation
  • dipolar signature on few ? 10 arcsec angular
    scales close to center
  • DT 0.1 - few ? 10 µK
  • comparing multi-fequency morphology may be useful
  • combined with polarization very useful to
    constraint motions of ICM
  • turbulent motions ? interesting contribution to
    th-SZ (transition)
  • motion-induced correction to the th-SZ similar to
    the first order temperature correction to the
    k-SZ
  • strong spectral spacial dependence
  • reaches the 10 level of the k-SZ
  • easy to take into account !!!
  • Dipolar asymmetry of the cluster number counts
    (1 level)

11
Large smalle scale motion of the ICM
  • Mergers in the cosmological context
  • ? should excite large small scale motion of
    the ICM !
  • (off-axis mergers)
  • Coma Cluster (XMM)
  • (Schuecker et al., 2004)
  • ? turbulent motions on
  • scales 20-145 kpc
  • (core radius 420 kpc)
  • ? turbulence on larger scales
  • is possible!
  • Turbulent cascades
  • from large ? small scales
  • viscosity
  • plasma instabilities
  • magnetic fields
  • transition between k-SZ
  • th-SZ

Schuecker et al., 2004
12
Large smalle scale motion of the ICM (2)
  • Details of the processes complex
  • Hydrodynamic simulations by Norman Bryan 1999
  • ? turbulent velocities 25-60 of virial
    velocity
  • ? minor mergers maintain the level of turbulence
  • ? also found ordered circulation, which is
    likely due to a off-axis merger
  • X-ray spectral lines for Centaurus cluster
  • (Dupke Bregman 2001)
  • ? bulk velocities of the order of 1000 km/s
  • ? likely due to a previous off-axis merger
  • DM simulations by Bullock et al. 2001
  • ? universal angular momentum profile which is
    consistent with solid body rotation
  • ? rotational velocity few percent of circular
    velocity
  • Several recent hydrodynamic simulations
  • (Nagai et al. 2003 Torman, Moscardini Yoshida
    2004 Diaferio, Borgani, Moscardini et al. 2005)
  • ? bulk velocities v few ? 100 km/s
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