December 1, 2009

Attention Editors:  An image taken from the Herschel Space Observatory can be downloaded at http://dailynews.mcmaster.ca/images/M82Spectrum-sm.jpg

 

 

Data from outer space opens new frontiers

for researchers

 

Hamilton, Ont. December 1, 2009—The latest data delivered back to Earth by the Herschel Space Observatory (HSO)—launched in May by the European Space Agency—has opened a new window on galaxies for researchers at McMaster University.

 

Herschel, the largest infrared telescope ever launched, is designed to study some of the coldest objects in space, located deep in a region of the electromagnetic spectrum that is still largely unexplored.

 

Its massive one-piece mirror, which is almost one-and-a-half times larger than Hubble’s, is delivering sharper images of the stars with coverage of a wider wavelength spectrum. This new data is providing astronomers with a better understanding of the composition, temperature, density and mass of interstellar gas and dust—the fuel for star formation—in nearby galaxies and star-forming clouds.

 

“Herschel is creating excitement not only in the scientific community, but the general public as well,” says Chris Wilson, a professor in the Department of Physics & Astronomy at McMaster University.  “We are really entering a golden age for astronomers because, for the first time, we can analyze precise data—that we cannot gather on the ground—from nearby galaxies, which will help interpret observations of more distant galaxies where we can’t see such fine spatial detail.” 

 

Wilson is the principal researcher on one of the Herschel projects, Physical Processes in the Interstellar Medium of Very Nearby Galaxies, which involves a team of scientists from seven countries.  They are examining the closest examples of every type of galaxy they can find to study the properties of the gas in the galaxies and determine how the properties of the gas relate to star formation.

 

 “The far-infrared wavelengths probed by Herschel are absolutely crucial for understanding the physical processes and properties of the interstellar medium. This remains poorly understood, but we are getting a clearer picture of the wider environment in galaxies,” says Wilson.

 

Scientists from institutes and universities around the world will be able to use Herschel for approximately four years, at which time it is expected to run out of liquid helium to keep its sensitive instruments cold. NASA and the Canadian Space Agency participated in the construction of Herschel.

McMaster University, one of four Canadian universities listed among the Top 100 universities in the world, is renowned for its innovation in both learning and discovery. It has a student population of 23,000, and more than 140,000 alumni in 128 countries.

-30-

 

For more information please contact:

 

Chris Wilson

Professor, Department of Physics & Astronomy

McMaster University

905-525-9140, ext. 27483

wilson@physics.mcmaster.ca

 

Michelle Donovan

Public Relations Manager: Broadcast Media

McMaster University

905-525-9140 ext 22869

donovam@mcmaster.ca

 

Jane Christmas

Public Relations Manager

McMaster University

905-525-9140, ext. 27988

chrisja@mcmaster.ca