Afterglow: Dispatches from the Birth of the Universe
Cosmology is the one field in which researchers can—literally—witness the past. The cosmic background radiation, ancient light streaming toward us since the Big Bang, provides a pristine window onto the birth and evolution of the universe. Already, the radiation has been key to confirming an early explosive expansion of space, determining the geometric shape of the universe and identifying seeds that resulted in galaxies. Now, the cosmic background radiation is poised to reveal when the first stars formed, what happened in the fraction of a second after the Big Bang, and the answers to a host of other bold questions about the cosmos. Join Nobel Laureate John Mather and other leading scientists who are leading the way.
This program is part of “The Big, the Small, and the Complex,” a series made possible with support from the Kavli Prize.
Lawrence M. KraussInternationally known theoretical physicist and best-selling author Lawrence Krauss has focused his research on the intersection of cosmology and elementary particle physics. Dr. Krauss’s work addresses questions about the origin of matter in the universe. More »
John C. MatherAstrophysicist Nobel Laureate John Mather’s research in cosmology as part of the Cosmic Background Explorer (COBE) team has been recognized as some of the most important work of the 20th century. More »
Amber MillerPhysicist Amber Miller aims to understand the origin and evolution of the universe by studying the cosmic microwave background, the faint glow of light left over from the Big Bang. More »
Lyman PagePhysicist Physicist Lyman Page measures the cosmic microwave background radiation left over from the Big Bang to better understand the very early universe and how it has since evolved. He is the Henry DeWolf Smyth Professor of Physics at Princeton University. More »
David SpergelTheoretical Astrophysicist David Spergel studies the big questions in cosmology and astrophysics: How large is the universe and what is its shape? Is it finite? What are the dark matter and dark energy that comprise most of the universe’s mass? More »