The Johns Hopkins Gazette: March 11, 2002
March 11, 2002
VOL. 31, NO. 25

  

Oops! The Color of the Universe Corrected by Astronomers

By Michael Purdy
Homewood
Johns Hopkins Gazette Online Edition

The universe has come in for a color correction, and home decorators may approve.

Astronomers who announced in January that they'd determined that the color of the universe is turquoise will publish a paper on their broader results in April. When they do, the footnote describing the color of the universe finding will cite a beige-like shade that has been jokingly called "cosmic latte."

"It's our fault for not taking the color science seriously enough," said an apologetic Karl Glazebrook, an assistant professor of astronomy in the Krieger School of Arts and Sciences. "I'm very embarrassed. I don't like being wrong, but once I found out I was, I knew I had to get the word out."

Glazebrook noted that before the color finding's odd nature led to widespread public interest, it was originally just a footnote to a comprehensive survey of the spectrum of light emitted by 200,000 galaxies. He and co-author Ivan Baldry, a Hopkins postdoctoral fellow, had set out to compile a "cosmic spectrum" based on data gathered by the Australian 2dF Galaxy Redshift Survey.

The cosmic spectrum initially took the standard scientific form of a graph, but the researchers then transformed it into an array of colors, replacing each wavelength with the color the human eye sees at that wavelength, and varying the intensity of the color in proportion to that wavelength's intensity in the universe. Glazebrook decided on a lark to try to calculate how the spectrum would appear to a human eye--to determine, in essence, what color the universe would appear to be to someone "standing" outside it and seeing all its light. The answer: a color a few percent greener than pale turquoise.

Shortly after the turquoise finding made news, Mark Fairchild contacted the Hopkins astronomers from his post at the Munsell Color Science Laboratory, part of the Chester F. Carlson Center for Imaging Science at the Rochester Institute of Technology.

Fairchild and his colleagues helped the Hopkins astronomers determine that the freeware computer program they'd used to calculate the color of the universe had inappropriately set a feature known as the "white point." The white point is the point at which light appears white given the environment that the light is viewed in.

"Tungsten lights, for example, can make the white point a little bit yellowish," explained Francis Imai, a senior color scientist at Munsell. "Some monitors have a bluish white point. Your visual system tries to adapt so that you assume that color is white, but it's actually yellowish or bluish."

Fairchild, on vacation and unavailable for comment, literally wrote the book--Color Appearance Models, Addison-Wesley, 1998--on determining how colors appear to the human eye.

"As it turns out, if you look at all the light in the universe from a room that has a red neon light, then it may appear turquoise," Baldry joked. "But that's not a standard perspective."

With the white point adjusted to calculate the perceptions of an observer looking at the light in a darkened environment, the color of the universe came out beige. When the viewing environment was adjusted to daylight, the color was a faint red. In indoor light, the color shifted to blue.

"The spectrum data's up on our site," Glazebrook said. "Anyone is welcome to try to calculate the color." The URL is www.pha.jhu.edu/~kgb/cosspec.

A conclusive resolution may have to wait for this summer. Imai says the Munsell Color Science Laboratory has tentative plans to put together a lab that will let scientists generate with scientific accuracy the wavelengths of the color of the universe. Then they can sit humans down in front of the light and get a final opinion.


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