L. Petro scite author profile

The Hubble Deep Field (HDF) is a Director's Discretionary program on HST in Cycle 5 to image an undistinguished field at high Galactic latitude in four passbands as deeply as reasonably possible. These images provide the most detailed view to date of distant field galaxies and are likely to be important for a wide range of studies in galaxy evolution and cosmology. In order to optimize observing in the time available, a field in the northern continuous viewing zone was selected and images were taken for ten consecutive days, or approximately 150 orbits. Shorter 1-2 orbit images were obtained of the fields immediately adjacent to the primary HDF in order to facilitate spectroscopic follow-up by ground-based telescopes. The observations were made from 18 to 30 December 1995, and both raw and reduced data have been put in the public domain as a community service. We present a summary of the criteria for selecting the field, the rationale behind the filter selection and observing times in each band, and the strategies for planning the observations to maximize the exposure time while avoiding earth-scattered light. Data reduction procedures are outlined, and images of the combined frames in each band are presented. Objects detected in these images are listed in a catalog with their basic photometric parameters.

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The optical counterpart to γ-ray burst GRB970228 observed using the Hubble Space Telescope

Sahu

Livio

Petro

et al. 1997

Nature

199

143

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Oscillating Blue Stragglers in the Core of 47 Tucanae

Gilliland

Bono

Edmonds

et al. 1998

ApJ

102

127

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[ITAL]Hubble Space Telescope[/ITAL] and Palomar Imaging of GRB 990123: Implications for the Nature of Gamma-Ray Bursts and Their Hosts

et al. 1999

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We report on HST and Palomar optical images of the field of GRB 990123, obtained on 8 and 9 February 1999. We find that the optical transient (OT) associated with GRB 990123 is located on an irregular galaxy, with magnitude V = 24.20 ± 0.15. The strong metal absorption lines seen in the spectrum of the OT, along with the low probability of a chance superposition, lead us to 12 Alfred P. Sloan Research Fellow 13 Hubble Fellow -2conclude that this galaxy is the host of the GRB. The OT is projected within the ∼ 1 ′′ visible stellar field of the host, nearer the edge than the center. We cannot, on this basis, rule out the galactic nucleus as the site of the GRB, since the unusual morphology of the host may be the result of an ongoing galactic merger, but our demonstration that this host galaxy has extremely blue optical to infrared colors more strongly supports an association between GRBs and star formation. We find that the OT magnitude on 1999 Feb 9.05, V = 25.45 ± 0.15, is about 1.5 mag fainter than expected from extrapolation of the decay rate found in earlier observations. A detailed analysis of the OT light curve suggests that its fading has gone through three distinct phases: an early rapid decline (f ν ∝ t −1.6 for t < 0.1 days), a slower intermediate decline power-law decay (f ν ∝ t −1.1 for 0.1 < t < 2 days), and then a more rapid decay (at least as steep as f ν ∝ t −1.8 for t > 2 days). The break to steeper slope at late times may provide evidence that the optical emission from this GRB was highly beamed.

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L. Petro

Long γ-ray bursts and core-collapse supernovae have different environments

The Hubble Deep Field: Observations, Data Reduction, and Galaxy Photometry

The optical counterpart to γ-ray burst GRB970228 observed using the Hubble Space Telescope

Oscillating Blue Stragglers in the Core of 47 Tucanae

[ITAL]Hubble Space Telescope[/ITAL] and Palomar Imaging of GRB 990123: Implications for the Nature of Gamma-Ray Bursts and Their Hosts

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