Smoot, a professor emeritus of physics at the University of California, Berkeley, and an emeritus faculty senior scientist at Lawrence Berkeley National Laboratory, died on Sept. 18 in Paris of a heart attack. He was 80 and, since 2009, had been a physics professor at the Universit\u00e9 Paris-Cit\u00e9 and an affiliate of the Laboratoire Astroparticule et Cosmologie (APC).<\/p>\n
Detection of the CMB was a triumph of precision cosmology \u2014 the detailed measurement of the temperature of the universe that continues to reveal new details about the universe\u2019s infancy and its evolution since.<\/p>\n
According to an obituary posted by APC<\/a> on Sept. 24, \u201cToday cosmology is at the center stage of physics, due in no small part to this [Smoot\u2019s] and subsequent measurements of the CMB. This discovery prompted many researchers to switch to cosmology. A host of experiments, from the ground, from stratospheric balloons and from space have now followed the pioneering COBE measurements.\u201d<\/p>\n Copyright \u00a9 The Nobel Museum 2006 Photo: Fredrik Persson<\/p>\n Smoot and Mather, who earned his Ph.D. in physics from UC Berkeley in 1974, together led the building and launch of the COBE satellite in 1989 in a highly competitive race to detect the signature of the primordial explosion that birthed the universe. According to the reigning theory of the origin of the universe, the Big Bang fireball 13.7 billion years ago filled the universe with heat that has since cooled to a mere 2.7 degrees above absolute zero. But the theory also predicted that the temperature should vary across the sky, though previous experiments had failed to detect any variation down to 1 part in 1,000<\/p>\n Mather\u2019s instrument confirmed that the microwave background radiation matched perfectly the spectrum of colors that astronomers predicted if the universe formed in a fireball.<\/p>\n Smoot\u2019s instruments went further, detecting fluctuations equivalent to 1 part in 100,000 in the 2.7 degree Kelvin microwave glow. These slight variations in temperature and density of the early universe grew over billions of years into the galaxies and clusters of galaxies we see today.<\/p>\n When Smoot announced the detection in 1992, the late Stephen Hawking called it the greatest scientific discovery of the century.<\/p>\n Peg Skorpinski for UC Berkeley<\/p>\n \u201cThose measurements really confirmed our picture of the Big Bang,\u201d Smoot said at the time. \u201cBy studying the fluctuations in the microwave background, we found a tool that allowed us to explore the early universe, to see how it evolved and what it\u2019s made of.\u201d<\/p>\n Smoot, who had been at Berkeley Lab since 1971, was appointed to the UC Berkeley physics faculty in 1994. The Nobel Prize committee cited Smoot and Mather for \u201cthe discovery of the blackbody form and anisotropy of the cosmic microwave background radiation.\u201d<\/p>\n In 2007, Smoot used $500,000 of his Nobel Prize winnings to help endow<\/a> the Berkeley Center for Cosmological Physics.<\/p>\n As Smoot acknowledged on his website, the Nobel Prize \u201cbrought a new dimension to his life.\u201d In addition to research and teaching, he began traveling the world as a speaker and commentator on science-related issues. He also appeared in cameos on the celebrated sitcom \u201cThe Big Bang Theory,\u201d and, in 2008, was one of only two people to win the $1 million prize<\/a> on the game show \u201cAre you smarter than a fifth grader?\u201d<\/p>\n \u201cHe was somebody who always enjoyed looking ahead to what was happening in the world and what was coming next,\u201d said colleague Saul Perlmutter, a UC Berkeley professor of physics and himself a Nobel Prize winner for discovering dark energy. \u201cHe would come to your office and explain to you why you had to change something you were doing because of what was about to happen. Almost always, I had that feeling that he was right, but it was very hard to operationalize any of the advice!\u201d<\/p>\n The APC obituary called Smoot a \u201clarger than life character\u201d who \u201crevolutionized our understanding of the cosmos and placed cosmology on a firm experimental footing.\u201d<\/p>\n Most recently, he had focused on applying basic physics discoveries to improve peoples\u2019 lives, particularly in the fields of air quality and medicine. According to his website, Smoot \u201c\u2026 sees his role to inspire and encourage smart young people, to set them off on the path to discovery.\u201d<\/p>\n \u201cHe did really enjoy the question of how do you reach a public and how do you spread the excitement about science,\u201d Perlmutter said.<\/p>\n Origins of COBE<\/p>\n![\"two](\"https:\/\/www.newsbeep.com\/ca\/wp-content\/uploads\/2025\/10\/mather-smoot-museum-photo-3075-landscape-gallery-1024x683.jpg\")
George F. Smoot (right) and John C. Mather (left), like many Nobel Laureates before them, autographed a chair at Kaf\u00e9 Satir at the Nobel Museum in Stockholm on Dec. 6, 2006. <\/p>\n![\"a](\"https:\/\/www.newsbeep.com\/ca\/wp-content\/uploads\/2025\/10\/SmootHawking-crop-1024x585.jpg\")
Smoot with Stephen Hawking during his March 2007 campus visit. Hawking called Smoot\u2019s detection of the fluctuations in the microwave background the greatest scientific discovery of the 20th century. Smoot offered Hawking a T-shirt advertising the Berkeley Center for Cosmological Physics, which he directed.<\/p>\n
![\"B&W](\"https:\/\/www.newsbeep.com\/ca\/wp-content\/uploads\/2025\/10\/rsw_719h_570-copy.jpg\")
Smoot with a model of the Differential Microwave Radiometer (DMR) that flew aboard the COBE satellite in 1989.<\/p>\n![\"a](\"https:\/\/www.newsbeep.com\/ca\/wp-content\/uploads\/2025\/10\/SmootSmiling-crop-1024x585.jpg\")
George Smoot at the press conference following his selection as co-winner of the 2006 Nobel Prize in Physics.<\/p>\n