Introduction
DIRBE (Diffuse Infrared Background Experiment)
DMR (Differential Microwave Radiometers)
FIRAS (Far Infrared Absolute Spectrophotometer)
More Information about COBE
COBE Explained
History of COBE project
COBE DMR 2 & 4-Year Images
Structure in the COBE differential microwave radiometer first-year maps. Smoot, et al. 1992. Initial publication showing COBE results. PDF file
COBE LBNL Display
The WMAP (Wilkinson Microwave Anisotropy Probe) CMB satellite 5 year data papers
COBE map movie - this shows the increasing detail of the CMB as more data was available



Introduction

NASA's COBE (Cosmic Background Explorer) satellite was developed to measure the diffuse infrared and cosmic microwave background radiation from the early Universe to the limits set by our astrophysical environment. COBE was launched on November 18, 1989 and carried three instruments: DIRBE (the Diffuse InfraRed Experiment) to search for and measure the cosmic infrared background radiation, DMR (Differential Microwave Radiometers) to map the cosmic microwave background radiation precisely, and FIRAS (Far-InfraRed Absolute Spectrophotometer) to compare the spectrum of the cosmic microwave background radiation with that from a precise blackbody.

Data from the full four years of COBE observations continue to be analyzed. Student and post doctoral opportunities exist.

Many people were involved at various stages in the COBE project.

DIRBE (Diffuse Infrared Background Experiment)

DIRBE has mapped the absolute sky brightness in 10 wavelength bands ranging from 1.25 microns to 240 microns. These data contain the signal from the cosmic infrared background and the foreground emissions from extragalactic sources, our Galaxy, and dust and other sources in our solar system. Significantly improved limits on the cosmic infrared background exist and future progress is possible and likely. A significant amount of work involves study of the astrophysics of the interesting foreground sources. There is a very rich database on the infrared emission from the Galaxy and the interplanetary dust.


Galactic plane emission: bands 1-5


Galactic plane emission: bands 6-10



DMR (Differential Microwave Radiometers)

The COBE DMR (Smoot et al. 1992) has found anisotropies in the cosmic microwave background on all scales from the nominal beam size of 7-degrees up to the full sky at a typical level of one part in 100,000 to a few parts per million. These anisotropies are interpreted as imprints of the seeds that eventually grew under the influence of gravity to galaxies, clusters of galaxies, and clusters of clusters of galaxies. They also indicate that we should eventually expect to find even larger scale structures. They also give us a clue to how the Universe originated - i.e. how space and time and all the other contents of the Universe came into being. Two of the four years of the COBE DMR data have been released. Data processing of all four years are in progress and the full four year data were released in January 1996. The DMR team had a large number of members over the years in addition to those from the COBE science working group that participated.

DMR Schematic


CMB Fluctuations (2 years of data)

CMB Fluctuations (galaxy removed)


DMR Four Year images of the Cosmic Microwave Background Fluctuations.

FIRAS (Far Infrared Absolute Spectrophotometer)

FIRAS has shown that the cosmic microwave background spectrum matches that of a blackbody of temperature 2.726K with a precision of 0.03% of the peak intensity over a wavelength range 0.1 to 5 mm. Research conducted by Smoot's group at Lawrence Berkeley Lab and collaborators (in addition to other groups) conclude that although not as precise, longer wavelength measurements show the CMB spectrum is elucidated by a single temperature blackbody. (See figure of spectrum measurements below). These measurements strongly limit possible alternative models to the Big Bang and limit potential energy releases in the early Universe, typically to less than 0.1% to 0.01%.

 

CMB Intensity plot
CMB Temperature plot
Energy Release Limits plot
FIRAS Instrument Block Diagram
Example of Blackbody Curves

 

More Information

Extensive information about the COBE mission, including much information about the three experiments on board, is available by clicking on the COBE archive pages or through NASA. More photographs related to and of COBE. NASA was responsible for the development of the COBE satellite and mission operations. Scientific Guidance was provided by the COBE Science Working Group.

Back to top