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Supernova Remnants in the ChASeM33 X-ray Observations of M33

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1 Supernova Remnants in the ChASeM33 X-ray Observations of M33
Knox Long, Bill Blair, Frank Winkler, Terry Gaetz, David Helfand, Jack Hughes, Kip Kuntz, Emily McNeil Tom Pannutti, Paul Plucinsky, Destry Saul, Ralph Tuellmann, Ben Williams and the ChASeM33 team

2 Background X-ray H [S II] v SNRs in nearby galaxies identified primarily from [SII]:Ha ratios > HII regions ~ 0.1 ~100 optical SNRs had been identified in M33 98 from [S II]: Ha imagery (Gordon et al 1998) 53 have radio fluxes (Gordon et al 1999) Before Chandra and XMM, few SNRs detected in X-rays outside Galaxy and MCs. In M33: 10 counterparts with ROSAT (Long et al.1996) 22 with Chandra (Ghavamian et al. 2005) 12 (+13 candidates) with XMM (Misanovic et al 2006)

3 ChASeM33 Most of M33 to a minimum depth of ~ 200 ksec, 400 ksec typical. SNRs to LX ~ erg s-1. M33 has 137 known or suggested SNRs 98 from Gordon et al (1998) Remainder X-ray suggested or our re-examination of optical FirstLook survey (Plucinsky et al 2007) identified 26 SNRs from half of the ChaSeM33 data and approach optimized for point sources We use full dataset and SNR sample

4 H images of Southern Arm

5 Optical SNRs in M33’s southern spiral arm on Chandra image
Need a new version of this figure

6 Imaging of Bright SNRs Need a few images of brigher SNRs

7 Spectroscopy of Bright SNRs
6 SNRs with enough counts for spectral analysis M33 SNR 21 is ISM- dominated expanding into dense molecular cloud (Gaetz et al 2007) M33 SNR 31 has a spectrum resembling the core-collapse object E0102 in the SMC

8 Finding X-ray SNRs X-ray H [S II] v
We use Patrick Broos’ AcisExtract since: SNRs are only slightly extended in M33 M33 has both lots of SNRs and point sources We measure SNR sizes by inspecting optical and X-ray data The Procedure Pass 1 - Carry out standard extraction treating all as point sources Create SNR region files by expanding point source region files to account for SNR size Pass 2 - Replace point source region files of SNRs and re-process the SNRs only Check and edit SNR files to assure region files are appropriate Repeat Pass 2 as necessary

9 Finding X-ray SNRs - Results
53 (of 96) GKL SNRs 14 other SNR candidates also detected Chance probability low Note - have eliminated one object affected by a point source0

10 SNRs have soft X-ray spectra
S= keV, M= keV; Total= keV

11 Luminosity Function LMC SNRs M33 SNRs

12 Mostly Middle-Aged SNRs
Sample, >2  , >3  Median diameters All= 49 pc Detected = 38 pc; Undetected = 55 pc

13 Simple Interpretation
Just the Facts It’s the environment, stupid! Middle age SNRs dominate the sample Lx at a single diameter is highly variable Very large objects are always faint Half sample is detected; half is not Lx ~  n2 R3  ( keV) ~ constant kT>0.3 keV  drops rapidly kT<0.3 keV M(Mo) = 83 T(keV)-1 E51 Implications Small diameter objects are faint Large diameter( Rmax ~ n1/3) are faint Lx of intermediate diameter objects strongly dependent on density (n2)

14 Would your favorite SNR have been detected?
No sources aligned with radio point sources that appear to be SNRs No bright sources showing evidence of soft thermal X-ray emission that are not stars or known SNRs Note that we may want this slide but it’s not clear this is even true At the distance of M33, we should have detected Most of the bright SNRs in the Galaxy and Magellanic Clouds Most historical SNe - the Crab Nebula, Tycho, Cas A, & Kepler

15 Are X-ray properties correlated with other properties?
Extreme X-ray SNRs are extreme in most respects High Lx objects tend to be high LH objects High Lx objects are generally to be radio detected Converse is often not true High LH objects often not X-ray detected High radio flux objects often not X-ray detected

16 Summary ChASeM33 has enabled the sensitive study of SNRs in M33 we had hoped Individual SNRs GKL21, GKL 31, etc X-ray imaging and spectroscopy X-ray SNRs in M33 with LX> ergs s-1 now total 67 Missing SNRs brighter than LX ~ ergs s-1 would be identified even without optical ID Large variations of properties at a given size; need to understand local environment to extract class properties

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