Dr. John C. Mather— Nobel Prize Winner for Physics in 2006
Nationality: United States
Fields: Astrophysics, cosmology
Known for: Cosmic microwave background radiation studies
Title: The history of the universe, from the Big Bang to settling the Galaxy
Time: 09:00, Sept. 22, 2015
Form: Video lecture
Dr. John C. Mather is a Senior Astrophysicist and is the Senior Project Scientist for the James Webb Space Telescope at NASA’s Goddard Space Flight Center in Greenbelt, MD. His research centers on infrared astronomy and cosmology. As an NRC postdoctoral fellow at NASA’s Goddard Institute for Space Studies (New York City), he led the proposal efforts for the Cosmic Background Explorer (74-76), and came to GSFC to be the Study Scientist (76-88), Project Scientist (88-98), and the Principal Investigator for the Far IR Absolute Spectrophotometer (FIRAS) on COBE. With the COBE team, he showed that the cosmic microwave background radiation has a blackbody spectrum within 50 parts per million, confirming the expanding universe model (aka the Big Bang Theory) to extraordinary accuracy, and initiating the study of cosmology as a precision science. The COBE team also made the first map of the hot and cold spots in the background radiation (anisotropy), now attributed to quantum fluctuations in an inflationary period in the first 10-36 sec of the universe. These spots represent density fluctuations that are responsible for the existence of galaxies and clusters of galaxies, due to the action of gravity, and their discovery was called “the most important scientific discovery of the century, if not of all time” by Stephen Hawking. The COBE maps have been confirmed and improved by two succeeding space missions, the Wilkinson Microwave Anisotropy Probe (WMAP, built by GSFC with Princeton University), and the Planck mission built by ESA. Based on these maps, astronomers have now developed a “standard model” of cosmology and have built detailed numerical simulations that begin to match Hubble observations, and require the existence of both “dark matter” and “dark energy”, neither of which has been detected or deduced in laboratory experiments. Dr. Mather is the recipient of numerous awards, including the Nobel Prize in Physics (2006) with George Smoot, for the COBE work, and the NASA Distinguished Service Medal (2007). He is a member of many professional societies including the National Academy of Sciences and the American Academy of Arts and Sciences.
His grandfather, Hobart Cromwell, was a bacteriologist who helped develop penicillin at Abbott Labs, his father, Robert Mather, was a statistician studying dairy cattle genetics at Rutgers University, and his mother Martha was an elementary school teacher. As a child he was fascinated by optics, electronics, and telescopes, with interest sparked by the American Museum of Natural History in New York City, and by the launch of the Sputnik. He attended public schools in rural northern New Jersey and graduated from Newton High School in 1964 (the year that the cosmic microwave background radiation was discovered), received his Bachelor of Arts degree from Swarthmore College with highest honors in physics in 1968, got the highest possible score on the Physics grad record exam, and received his PhD in physics from the University of California at Berkeley in 1974. His doctoral advisor there was Paul Richards, and his thesis on measurements of the cosmic microwave background radiation led directly to the COBE satellite, despite the failure of the first flight of a balloon payload. His postdoctoral advisor at the Goddard Institute was Patrick Thaddeus, who gave great encouragement to the idea of the COBE satellite and participated in the first proposal.
Dr. Mather is now working with teams and committees to develop plans for a future great telescope capable of observing signs of life on planets orbiting other stars.