Hubble Ultra Deep Field Continues to Tell the Unfolding Story of the Universe

stsci_2012-02f January 11th, 2012

Credit: NASA, ESA, A. Riess (JHU and STScI), S. Rodney (JHU), and the Hubble Heritage Team (STScI/AURA)

Beginning in 2004, the Hubble Space Telescope has observed a spot in the sky known as the Hubble Ultra Deep Field (HUDF) many times. The extremely deep and detailed cumulative exposure reveals some of the faintest objects ever detected, some of which turn out also to be among the most distant galaxies known. Studying this set of images has allowed astronomers to understand the scale, structure, and development of the universe much more completely and precisely. The first set of deep HUDF images were made with Hubble's Advanced Camera for Surveys (ACS) in 2004. The addition of the Wide Field Camera 3 to Hubble's complement of instruments in 2009 extended the reach of the HUDF beyond visible light, farther into the infrared, to reveal even more distant galaxies. Due to the expansion of the universe, distant objects appear redder because they are moving away from us faster than closer objects. The most distant objects are red-shifted so much that they cannot be detected at all in visible light, but appear only at infrared wavelengths. Observing the same field repeatedly adds exposure to reveal fainter objects but the longer time span of data also increases the chance of detecting a supernova. Supernovae are extremely violent explosions of single stars resulting in a flash of light bright enough to outshine an entire galaxy of hundreds of billion stars. Although a supernova is relatively rare in any one galaxy, so many galaxies appear in the HUDF that several supernovae have been seen in this small part of the sky in the time that Hubble has been observing. A particular type of Supernova, known as Type Ia is especially important because their intrinsic brightnesses are all nearly equal. Since a more distant source of light will appear dimmer than a nearer object of the same brightness, the observed brightness of a Type Ia supernova tells us its distance. Observations of many supernovae have allowed astronomers to refine the understanding of the universe's structure. Rec

Provider: Space Telescope Science Institute

Image Source: https://hubblesite.org/contents/news-releases/2012/news-2012-02

Curator: STScI, Baltimore, MD, USA

Image Use Policy: http://hubblesite.org/copyright/

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Image Details

Image Type: Observation
Object Name: HUDF
Subject - Distant Universe: Cosmology > Phenomenon; Galaxy > Type > Gravitationally Lensed; Cosmology > Morphology > Deep Field

Distance

Position Details

Position (ICRS): RA = 3h 32m 38.8s; DEC = -27° 47’ 30.1”
Orientation: North is 51.0° CCW
Field of View: 2.2 x 2.1 arcminutes
Constellation: Fornax

Color Mapping

	Telescope	Spectral Band	Wavelength
	Hubble (WFC3)	Infrared (Y)	1.1 µm
	Hubble (WFC3)	Infrared (J)	1.3 µm
	Hubble (WFC3)	Infrared (H)	1.6 µm
	Hubble (ACS)	Optical (B)	435.0 nm
	Hubble (ACS)	Optical (V)	606.0 nm
	Hubble (ACS)	Optical (i)	775.0 nm
	Hubble (ACS)	Optical (z)	850.0 nm
Data used in these images were taken in 2010 and 2011.

ID: 2012-02f
Subject Category: D.6.2.5 D.5.1.8 D.6.1.1
Subject Name: HUDF
Credits: NASA, ESA, A. Riess (JHU and STScI), S. Rodney (JHU), and the Hubble Heritage Team (STScI/AURA)

Release Date: 2012-01-11T00:00:00
Lightyears
Redshift: 1.55
Reference Url: https://hubblesite.org/contents/news-releases/2012/news-2012-02

Type: Observation
Image Quality: Good
Distance Notes: z=1.55

Facility: Hubble, Hubble, Hubble, Hubble, Hubble, Hubble, Hubble
Instrument: WFC3, WFC3, WFC3, ACS, ACS, ACS, ACS
Color Assignment: Red, Red, Red, Blue, Blue, Green, Green

Band: Infrared, Infrared, Infrared, Optical, Optical, Optical, Optical
Bandpass: Y, J, H, B, V, i, z
Central Wavelength: 1050, 1250, 1600, 435, 606, 775, 850

Start Time: 2011-03-25T00:00:00, 2010-10-27T00:00:00, 2010-10-26T00:00:00, 2011-08-30T00:00:00, 2010-12-13T00:00:00, 2011-08-30T00:00:00, 2010-12-13T00:00:00
Integration Time
Dataset ID
Notes: D

Coordinate Frame: ICRS
Equinox: 2000.0
Reference Value: 53.16184490560, -27.79169647720
Reference Dimension: 4302.00, 4104.00

Reference Pixel: 2768.42408939876, 1367.17248159496
Scale: -0.00000833489, 0.00000833489
Rotation: 51.02655931074
Coordinate System Projection:: TAN

Quality: Full
FITS Header
Notes: World Coordinate System resolved using PinpointWCS 0.9.2 revision 218+ by the Chandra X-ray Center FITS X FITS Y EPO X EPO Y 1642.82 1603.66 3275.57 2592.25 1594.18 1857.74 3832.57 3250.40 1083.69 1213.11 1091.89 3222.06 1413.77 1282.93 1965.23 2513.54 1420.25 757.67 616.77 1393.78 2155.48 1298.52 3560.24 624.15 1572.45 1072.49 1751.49 1660.36 2069.62 966.54 2519.99 151.27 Center Pixel Coordinates: 2151.00 53.16048086646 2052.00 -27.78410217433

Creator (Curator): STScI
URL: http://hubblesite.org
Name: Space Telescope Science Institute Office of Public Outreach
Email: outreach@stsci.edu

Telephone: 410-338-4444
Address: 3700 San Martin Drive
City: Baltimore
State/Province: MD

Postal Code: 21218
Country: USA
Rights: http://hubblesite.org/copyright/

Publisher: STScI
Publisher ID: stsci
Resource ID: STSCI-H-p1202f-f-4302x4104.tif

Resource URL: https://mast.stsci.edu/api/latest/Download/file?uri=mast:OPO/product/STSCI-H-p1202f-f-4302x4104.tif
Related Resources: http://hubblesite.org/newscenter/archive/releases/2012/02

Metadata Date: 2022-07-06T00:00:00
Metadata Version: 1.2

Detailed color mapping information coming soon...

There is no distance meta data in this image.