iso science highlights: normal...
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ISO sciencehighlights:
normal galaxies
RICHARD TUFFSAstrophysics Department,
Max-Planck-Institut für KernphysikHeidelberg
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Spectral and morphologicalcharacterisation of disk galaxies (I):
emission from cold diffuse dust
M31 at 170µm
Haas et al. (1998)
in general disks have an underlying diffuse emission componentwith 12 ≤ TD ≤ 20 K carrying the bulk of the 170 um emission
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Detectability of diffuse emission from cold dust
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SMCISOPHOT 170 micron
(Wilke et al. 2003)
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Spectral and morphological characterisation of disk galaxies (II): emission from PAH
Vogler et al (2005)
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Roussel et al. 2001 Lu et al. 2003
5 - 18µm spectrum of (local universe) galactic disks:
- luminosity mainly carried by stochastically heated PAH- little colour variation between and within galaxies- significant additional component of emission from grains
in equilibrium with stronger radiation fields in nucleus
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Pierini et al (1999)
galacticsources
galaxies
[CII] 158 µm emissionalso dominated by
emission fromdiffuse disk, as forthe dust continuum
- global [CII] in normalgalaxies not dominatedby PDR in star-forming
complexes
Spectral and morphological characterisation of disk galaxies (III): emission from [CII]
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60 µm
Hα
(Hippelein et al. 2003)
Revealing the complex relation ofIR emission to star formation (I):
star-forming complexes in M33 in the FIR
monochromatic flux densitiesunreliable measure of SFR:- FIR colours vary with
galactocentric position
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Roussel et al. 2001(global emission)
PAH follows SFR (at least in the local universe, and despitelack of detailed spatial correspondence with UV and Hα)
Pagani et al. 1999(part of M31)
Hα contours on LW2 UV contours on LW2
Revealing the complex relation ofIR emission to star formation (II): PAH
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Popescu, et al (2005)
ISOPHOT GALEX
Revealing the complexrelation of IR emission to
star formation (III):FIR and UV in M101
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Scalelengths of spiral disks in the IR
• scalelength of FIR emissionincreases with increasingwavelength- bulk of grains heated by
a radially decreasingradiation field
• scalelength at 200 µmexceeds scalelength ofoptical emission- intrinsic scalelength of
dust exceeds intrinsicscalelength of stars
• scalelength of PAHemission < scalelengthof cold dust emission
Alton et al. (1998)
Roussel et al 2001
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ISOPHOT mapping of NGC 891
Popescu & Tuffs (2003)
00 micon
HI
200 micron200 micron
200 micron
HI
PSF
Swaters et al. (1997)
First detection of FIR emission from an extended HI disk
HI
- extended HI disk is not primordial- is the dust tracing unseen
molecular gas?
The extent of spiral disks:
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Valentijn & van der Werf (1999)
First extragalactic direct detection oflarge-scale Molecular hydrogen (in NGC 891)
- a cool component (T = 80-90 K) dominates in the outer disk
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Characterisation of IR properties of optically faint galaxies
ISO Virgo Cluster Deep Survey(Tuffs et al. 2002)
Driver et al. (2007)
• deepest local universe survey in the FIR
• spans broad range in star-formationactivity/morphological, also dwarfs
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Popescu et al. (2002)
cold
warm
total
- mean percentage of starlightre-radiated by dust is 30 %
- percentage increases along Hubble sequence
- most of dust luminosity carriedby cold dust component
Popescu & Tuffs 2003
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Dwarf galaxies
SED dominated by emission fromcold dust (Popescu et al. 2002):
- 170 µm emission sometimesresolved, extending beyond theoptical body, and aligned with HI.
Unexpectedly low detection ratein the MIR (Boselli et al 1997,Hunter et al 2001).
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Star-formation in colliding/merging systems
(Metcalfe et al. 2005)
- SF triggered outside the interactinggalaxies in Markarian 297, visiblethrough PAH emission
- also seen in the Antennae,Stephan’s Quintet, Arp299
Stickel et al. 2003
- cold FIR source without any opticalcounterpart discovered in the haloof M86 in the Virgo cluster.
- possible tidal removal of the ISMin a gravitational encounter ofthe spiral galaxy NGC4402 with M86
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Popescu et al. 2005
ISOPHOT M101 GALEX
Comparison with the distribution of UV-emitting stars
FIR/UV spiral arm fraction
FIR UV
Popescu et al. 2005
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• presence of a large-scale distribution of diffuse dust having a face-on opacity which decreases with radius
Popescu et al. (2005)
Blue: interarmRed: spiral arm
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high FIR/UV traces interarmregions
Popescu et al. 2005FIR/UV spiral arm fraction
FIR UV
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• a scattered-light origin for the diffuse interarm UV
Popescu et al. (2005)
Blue: interarmRed: spiral arm
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Statistical results
ISOPHOT Virgo Cluster Deep Survey (Tuffs et al. 2002a,b; Popescu et al. 2002)
• a complete volume- and luminosity-limited optically selected sample
• 63 gas-rich galaxies in the Virgo Cluster
• ISOPHOT strip maps at 60, 100 & 170 micron
• deepest local universe survey in the FIR
• spans a broad range in star-formation activity and morphological types, including dwarfs
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Universality of cold dust component
Galaxies have both warm and cold dust emission components
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• cold dust temperatures broadly distributed, with median 18 K
- 8-10 K lower than IRAS values!
• dust masses higher by factors of6-13 than IRAS values!
Popescu et al. 2002
Popescu et al. 2002
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The percentage of starlight re-radiated by dust
Popescu & Tuffs (2002)
• mean percentage is 30 %
• percentage increases along Hubble sequence
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Popescu et al. (2000)Pierini et al. 2003
The radio-FIR correlation
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Predicted and observed FIR surface brightness distributions
Popescu et al. 2004
NGC 891
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With increasing galactocentric radius:
- FHα/F60 ratio increases- F60/F170 ratio decreases
possible explanation is a combination of:
- large scale opacity gradient - large scale radial pressure gradient
Hippelein et al. (2003)
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Dust corrected luminosity functions from the Millenium Galaxy Survey
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M31 M33 M101Haas et al. 98 Hippelein et al. 03 Tuffs & Gabriel 03
60 micron
100 micron
170 micron
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Swaters et al. (1997)
The extentof the cold dust emission
• does the cold dust emissionextend beyond the edge of the optical disk?
• do “extended HI disks”contain grains?
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The extent of the cold dust emission
• cold dust emission can extend beyond the edge of the optical disk
• “extended HI disks” cancontain large quantities of grains - dust-to-HI mass ratio ~
0.01- extended HI disk not
primordial
ISOPHOT mapping of NGC 891
Popescu & Tuffs (2003)
00 micon
HI
200 micron200 micron
200 micron
HI
PSF
Trace an “unseen” molecular component?
Could produce significant scattered-light (Bland-Hawthorn et al. 2005)
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SMCISOPHOT 170 micron
(Wilke et al. 2003)