First look at GRB hosts with Spit zer

14
First look at GRB hosts with Spitzer J.M. Castro Cerón, J. Hjorth, D.J. Watson & J.P.U. Fynbo DARK, Niels Bohr Institutet Danmark RTN Summer School — Σαντορίνη 2005

description

First look at GRB hosts with Spit zer. J. M. Castro Cerón, J. Hjorth, D.J. Watson & J.P.U. Fynbo DARK, Niels Bohr Institutet Danmark. RTN Summer School — Σαντορ ί νη 2005. [email protected]. - PowerPoint PPT Presentation

Transcript of First look at GRB hosts with Spit zer

Page 1: First look at GRB hosts with  Spit zer

First look at GRB hosts with Spitzer

First look at GRB hosts with Spitzer

J.M. Castro Cerón, J. Hjorth, D.J. Watson & J.P.U. FynboDARK, Niels Bohr Institutet

Danmark

J.M. Castro Cerón, J. Hjorth, D.J. Watson & J.P.U. FynboDARK, Niels Bohr Institutet

Danmark

RTN Summer School — Σαντορίνη 2005

Page 2: First look at GRB hosts with  Spit zer

[email protected]

[email protected]

I should like to start by apologising for any inconvenience I might have caused you in rescheduling this presentation,

originally planned for Wednesday.

Should you have any complaints, you are kindly requested to direct them to:

I should like to start by apologising for any inconvenience I might have caused you in rescheduling this presentation,

originally planned for Wednesday.

Should you have any complaints, you are kindly requested to direct them to:

RTN Summer School — Σαντορίνη 2005

Page 3: First look at GRB hosts with  Spit zer

Why are the Spitzer observations interesting? Why are the Spitzer observations interesting?

RTN Summer School — Σαντορίνη 2005

galaxies contain most visible light in the universe:— morphology + LF explore stellar populations, SFR evolution.

‘traditional’ techniques for high z:— DLAs, LBGs, SMGs, Ly-a emission selected galaxies and DRGs.— limited in: z distribution depth, completeness of mass representation.— low mass galaxies systematically underrepresented at high z.

GRBs are less affected by: dust extinction, flux limited selection effects.

MIR observations can indicate the fraction of ULIRG GRB hosts.

help to provide answers to crucial questions:— which populations of galaxies produce GRBs? in what proportion? — are GRBs truly unbiased tracers of star formation?

Page 4: First look at GRB hosts with  Spit zer

What Spitzer can do! What Spitzer can do!

RTN Summer School — Σαντορίνη 2005

GRB hosts sample, with measured redshifts, have mean z currently approaching 2.

at this z, an ULIRG’s continuum emission is detectable in fairly modest integration times:

— IRAC at 4,5 and 8,0 µm.— MIPS at 24 µm.

to illustrate these points, we have redshifted the dusty ULIRG HR10's SED (Elbaz et al. 2002) from the GRASIL spectral synthesis code (Silva et al. 1998), to z = 1,6 and 2,7.

detection of star forming galaxies at this z is strongly favoured with MIPS at 24 µm because of the powerful PAH features that pass through the band at redshifts 1–2,8 as well as the bump caused by thermal dust emission.

Page 5: First look at GRB hosts with  Spit zer

First look… First look…

RTN Summer School — Σαντορίνη 2005

archival data for 15 GRB host galaxies.

each GRB host observed with IRAC at 4,5 and 8,0 µm and MIPS at 24,0 µm.

inhomogeneous collection of detections and non detections.

initially concentrate in hosts with z ~ 1:— at this redshift the 12 µm band is redshifted to 24 µm.— calibrated probe of the SFR.

— GRB 970828 dark burst— GRB 980613 merging system— GRB 980703 radio host / large SFR— GRB 990705 grand design spiral

Page 6: First look at GRB hosts with  Spit zer

Host of GRB 970828 Host of GRB 970828

RTN Summer School — Σαντορίνη 2005

first well localised GRB X ray afterglow with no optical counterpart:— despite prompt, deep search (Rlim ~ 24,5).— Groot et al. 1998; Djorgovski et al. 2001.— dark burst, also per Jakobsson et al. 2004.

weak, short lived radio flare within the X ray error box:— allowed the identification of the host.— z 0,9578.

host has 3 components, appears to be interacting/merging:— radio flare may be located between the two optical peaks (A, B).— with the B component as the most likely radio flare host.— SFR: A [O II] 3727 ≈ 1,2 M/yr.

A (UV) ≈ 1,1 M/yr.B [O II] 3727 ≈ 0,3 M/yr.

Page 7: First look at GRB hosts with  Spit zer

RTN Summer School — Σαντορίνη 2005

Host of GRB 970828 Host of GRB 970828

Djorgovski et al. 2001

Djorgovski et al. 2001

GRB 970828 — 4,5 µm 5 µJy (13)

GRB 970828 — 8,0 µm 17 µJy (4)

GRB 970828 — 24 µm 94 µJy (4)

Estimated SFR of about 100 M/yr

Page 8: First look at GRB hosts with  Spit zer

Host of GRB 980613 Host of GRB 980613

RTN Summer School — Σαντορίνη 2005

afterglow was optically faint at discovery (R ≈ 23):— no rapid decay flat spectral shape.— Hjorth et al. 2002; Djorgovski et al. 2003.

HST/STIS observations of the host:— very compact, blue V 26,1 object.— five star forming knots and/or interacting galaxy fragments.— z 1,0969 for at least two components.

component identified as host:— moderately high unobscured SFR.— high SFR per unit mass starburst.— SFR ~ 5 M/yr.

Page 9: First look at GRB hosts with  Spit zer

RTN Summer School — Σαντορίνη 2005

Host of GRB 980613 Host of GRB 980613

Djorgovski et al. 2003

Hjorth et al. 2002

Hjorth et al. 2002

Djorgovski et al. 2003

GRB 980613 — 4,5 µm 39 µJy (43)

GRB 980613 — 8,0 µm 29 µJy (7)

Page 10: First look at GRB hosts with  Spit zer

Host of GRB 980703 Host of GRB 980703

RTN Summer School — Σαντορίνη 2005

afterglow reported in the radio, NIR, optical and X ray bands:— Bloom et al. 1998; Holland et al. 2001.

HST/STIS observations of the host:— blue, slightly overluminous.— bright, V 23,0 R 22,6.— centre is ≈ 0,2 mag bluer than outer regions.— z 0,966.

large SFR, assuming no extinction in the host:— subtraction of elliptical isophotes fit residuals irregular.— afterglow location could not be connected with any special features.— typical compact star forming galaxy as found in the HDFN.— SFR 8–13 M/yr.

Page 11: First look at GRB hosts with  Spit zer

RTN Summer School — Σαντορίνη 2005

Host of GRB 980703 Host of GRB 980703

Holland et al. 2001

GRB 980703 — 4,5 µm 9 µJy (15)

GRB 980703 — 8,0 µm 12 µJy (3)

Page 12: First look at GRB hosts with  Spit zer

Host of GRB 990705 Host of GRB 990705

RTN Summer School — Σαντορίνη 2005

afterglow reported in the NIR, optical and X ray bands:— rather steep decline of the NIR light curve.— broad band spectral analysis high density environment.— Masetti et al. 2000; Le Floc’H et al. 2002.

HST/STIS observations of the host:— first reliable z derived from prompt emission.— z 0,8424.

nearly face on Sc spiral galaxy, typical of disk dominated systems:— MB –21,75.— with the B component as the most likely radio flare host.— SFR ≈ 5–8 M/yr.

Page 13: First look at GRB hosts with  Spit zer

RTN Summer School — Σαντορίνη 2005

Host of GRB 990705 Host of GRB 990705

Masetti et al. 2000

Le Floc’H et al. 2002

GRB 990705 — 4,5 µm 14 µJy (35)

GRB 990705 — 8,0 µm 12 µJy (3)

Page 14: First look at GRB hosts with  Spit zer

Coming soon to journal near you… Coming soon to journal near you…

RTN Summer School — Σαντορίνη 2005

measure fluxes and estimate the SFR for the rest of the galaxies.

get full SEDs for all the hosts.

statistics:— similar detection rate as SCUBA with better resolution?

for the dark bursts, infer the amount of dust present.

at z ~ 1, the 4,5 µm band corresponds to rest frame K:— calculate reddening— mass estimator