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You exist. You shouldn’t. Stars and galaxies and planets exist. They shouldn’t. The nascent universe contained equal parts matter and antimatter that should have instantly obliterated each other, turning the Big Bang into the Big Fizzle. And yet, here we are: flesh, blood, stars, moons, sky. Why? Come join us as we dive deep down the rabbit hole of solving the mystery of the missing antimatter.
This program is part of the Big Ideas Series, made possible with support from the John Templeton Foundation.
Brian Greene is a professor of physics and mathematics at Columbia University, and is recognized for a number of groundbreaking discoveries in his field of superstring theory. His books, The Elegant Universe, The Fabric of the Cosmos, and The Hidden Reality, have collectively spent 65 weeks on The New York Times bestseller list.
Read MoreMichael Doser is a research physicist at CERN, the European Center for Nuclear Research in Geneva, Switzerland, who has specialized in working with antimatter, using it either as a tool (to study the strong interaction), or as an object of study itself.
Read MoreHitoshi Murayama is a theoretical physicist who works on the connection between the physics of the small (elementary particles) and the large (the Universe). He is also a founding director of the Kavli Institute for the Physics and Mathematics of the Universe at the University of Tokyo and he’s a member of American Academy for Arts and Sciences, as well as Science Council of Japan.
Read MoreNeil Turok is Director and Niels Bohr Chair at the Perimeter Institute for Theoretical Physics in Ontario, Canada. Previously he was Professor of Physics at Princeton and Chair of Mathematical Physics at Cambridge. He is also Founder and Chair of the African Institute for Mathematical Sciences.
Read MoreJanet Conrad’s work focuses on the lightest known particle of matter, the neutrino. The number of neutrinos in the universe far exceeds the number of atoms, yet we know surprisingly little about them. Conrad is now exploring whether neutrinos have other unexpected properties and is working to develop an updated model for particle physics that incorporates these new surprises.
Read MoreMarcela Carena is an internationally renowned expert on revolutionary ideas in particle physics, ideas about to be tested at the Large Hadron Collider. She has worked closely with experimental physicists at the Fermilab and CERN laboratories developing strategies for discovery at the world’s highest-energy particle colliders.
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