PILOT Survey for Supernovae in Starbursts - PowerPoint PPT Presentation

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PILOT Survey for Supernovae in Starbursts

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VLT+NACO monitoring of 14 ULIRGs out to D ~ 300 Mpc. Historical SN in NGC 7714 Found in archival UKIRT K image from Sep 1998. Optimal Image Subtraction Allard ... – PowerPoint PPT presentation

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Title: PILOT Survey for Supernovae in Starbursts


1
PILOT Survey forSupernovae in Starbursts
  • Stuart D. Ryder
  • Anglo-Australian Observatory
  • Seppo Mattila
  • Stockholm Observatory

2
Why Supernovae?
  • Core-collapse SNe (CCSNe) generate/liberate the
    bulk of the light metals.
  • CCSNe directly trace recent massive SFR (cf. UV,
    Ha, FIR, radio, Fe II, )
  • Can serve as probes of extinction and ISM.
  • CCSNe blast wave probes progenitor mass-loss
    history.

3
Why Starbursts?
  • Supernova Factories ULIRGs (LIR gt 1012 L?)
    have SFRs gt 100 M? yr -1, so gt 1 CCSN yr -1.
  • High Z ? high MLR, may influence SN evolution.
  • ULIRGs/starburst galaxy nuclei are crowded,
    heavily-extincted (AV gt 10) regions ? NIR, radio.
  • NIR allows follow-up at much earlier epochs not
    all CCSNe are radio-loud.
  • WHTINGRID/LIRIS K-band monitoring of 40 nearby
    (D lt 45 Mpc) non-AGN starbursts.
  • VLTNACO monitoring of 14 ULIRGs out to
    D 300 Mpc.

4
Historical SN in NGC 7714
  • Found in archival UKIRT K image from Sep 1998.
  • Optimal Image Subtraction (Allard Lupton 1998).
  • lt 1 kpc from nucleus.
  • Not seen in U, J, H ? AV gt 6.

5
AO on ULIRGs
  • Require Strehl ratios 0.2 0.3 to yield 0.06"
    (100 pc) resolution _at_ 300 Mpc.
  • NACO currently delivers (time variable) SR 0.1
    when guiding on ULIRG nucleus.

NICMOS 1"
IRAS 23128-5919 IRAS 17208-0014
6
Discovery rate
  • Assume
  • Stable, near diffraction-limited (0.3") PSF over
    FOV of InSb array (0.23" pix-1).
  • 10 min exposures ? 10s for K22.5.
  • Monitor 15 ULIRGs out to 150 Mpc.
  • Detectable fraction increases with nuclear
    distance out to 500 pc.
  • M82 SNR extinction distribution (AV 24, s 9).
  • Template light curves for ordinary (MK 18.6)
    and slowly declining (MK 20.0) CCSNe.

7
Summary
  • Expect
  • 46 CCSNe (for 530 slow-decliners) by observing
    sample annually
  • 9 CCSNe per year by observing each galaxy 3
    times
  • More frequent monitoring ? light curves.
  • PILOT would deliver comparable CCSNe discovery
    rates to AO ULIRG survey on 8m, or nearby
    starburst survey with 4m telescopes.
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