As of November 2020,[update] he and his team have discovered over half of the planets found orbiting nearby stars. He is noted for his pioneering work in Doppler spectroscopy, a method used to detect stars having orbiting planets by measuring the "wobble" induced by the gravitational forces between the star and its orbiting planet(s).
Early life and education
Butler was born in April 1960 in San Diego, California. Even as a boy, he was interested in astronomy. When he was 14, he built an 8-inch reflector telescope and began looking at planets and stars. He was fascinated by early astronomers and cosmologists like Galileo and Giordano Bruno, who dared to speculate about multiple worlds at a time when such ideas were considered heresy.[1] As a high school student in 1977, he learned techniques of orbit calculation when he attended the Summer Science Program at his school.[2]
Butler went on to receive a BA (physics, 1985), a BS (chemistry, 1986) and an MS (physics, 1989) from San Francisco State University, completing his Master's thesis with Geoffrey Marcy. During this time, he began work on the design of a very sensitive spectrograph, seeking to detect extrasolar planets by detecting variations in the radial velocity of their parent stars.[3][2]
While Butler was still working on his master's degree, he and Marcy developed a spectrographic apparatus capable of detecting the tiny gravitational effects of a planet on its host star. By viewing the starlight they measured through a glass absorption cell containing molecular iodine, they obtained a reference set of spectral lines with sufficient precision to identify the changing light waves caused by a stellar wobble.[4][5][6]
After completing his Ph.D., Butler returned to San Francisco State University to work with Marcy. Butler was a research scientist there and a visiting research fellow at the University of California, Berkeley from 1993 to 1997.[7]
In 1995, Marcy and Butler used their Doppler velocity measurement equipment to confirm the discovery by Michel Mayor and Didier Queloz, of the first true exoplanet to be unequivocally identified orbiting a main sequence star, 51 Pegasi b.[5][6] Its characteristics were so unexpected that researchers re-examined their assumptions and their data.[5]
In 2011, Butler was elected to the American Academy of Arts and Sciences for his work in developing the precision Doppler velocity technique, "the most precise method to date" for observing planets that orbit nearby stars, and for his many discoveries of such stars. Butler was credited with a "central role" in changing "the way we look at our place in the universe."[19]