Hubble's Instruments: WFC3 - Wide Field Camera 3

The installation of the new Wide Field Camera 3 (WFC3) during Servicing Mission 4 continued the pioneering tradition of previous Hubble cameras while incorporating critical improvements, clearing the way for a new voyage of discovery. Together with the new Cosmic Origins Spectrograph (COS), WFC3 leads the way to many more exciting scientific discoveries.

Overview

WFC3 is greatly enhancing the observational capabilities of Hubble. Compared to its predecessor, it offers improved resolution over a wider field of view.  In terms of overall performance, it offers comparable performance to the ACS instrument, but over a wider range of wavelengths. The combination of these two elements — enhanced field of view and broader waveband — makes for a powerful instrument.

Technology

The instrument has two channels one for ultraviolet and visible light (UVIS) and the other for near infrared (NIR). In both cases, the detectors are the solid-state devices. For the UVIS channel a silicon-based CCD, similar to those found in digital cameras, is used. The similarities end there, however, as the CCD on WFC3 is a 16 megapixel, high sensitivity, low noise array. These high performance chips are made by e2V, a Uk based company, who specialise in the fabrication of large, high-performance, detector arrays for use in space. For the NIR channel, a 1 megapixel array made from the exotic material of mercuric cadmium telluride (HgCdTe) is used. The combination of these two technologies gives WFC3 its performance over a broad range of wavelengths. The table below reveals some of the key parameters for the instrument.

Parameter

UVIS Channel

NIR Channel

Spectral range (nm)
200-1000
850-1700
Detector type
Si
HgCdTe
Detector array size (pixels)
4096 x 4096
1024 x 1024
Field of view (arcseconds)
160 x 160
123 x 137
Pixel size (arcsec)
0.04
0.13
Filter complement
62
15

Science Goals

Observations in the ultraviolet and visible range will aim to address:

  1. Stellar Archaeology
  2. The distribution of galaxies at high redshift

Observations in the infrared range will aim to address:

  1. The highest redshift galaxies
  2. Water and ice on Mars and planetary moons

Panchromatic

  1. Galactic Evolution
  2. Star Birth, Death and Interstellar Medium

Development

The Hubble Program at the Goddard Space Flight Center, the Space Telescope Science Institute in Baltimore and Ball Aerospace & Technologies Corporation in Boulder jointly developed the WFC3. A community-based Science Oversight Committee, led by Prof. Robert O’Connell of the University of Virginia, provided scientific guidance for the development.

Links

Wield Filed Camera 3
WFC3 Undergoing Test
Credit: NASA
WFC3 Schematic
Schematic of WFC3
Credit: NASA
Part of the Carina Nebula imaged in visible light by WFC3
Part of the Carina Nebula imaged in visible light by WFC3
Carina Nebula in Infra Red
The same area imaged by WFC3 in infrared
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