Hirosi Ooguri, Principal Investigator at the Kavli Institute for the Physics and Mathematics of the Universe at the University of Tokyo, and the Fred Kavli Professor of Theoretical Physics and Mathematics and the Founding director of the Walter Burke Institute for Theoretical Physics at California Institute of Technology, is being awarded the 2018 Hamburg Prize for Theoretical Physics. This is the first year the prize covers all areas of theoretical physics (previously it was given to theorists in quantum information, quantum optics, and quantum many-body systems). With a new endowment established for the prize, the prize money has been increased from 40,000 euros to 100,000 euros, making it one of the most valuable science prizes in Germany.
In honor of the award--presented by the University of Hamburg and the Joachim Herz Foundation--Ooguri's work and related science will be the subject of a three-day symposium that will take place in November 2018 at the University of Hamburg.
"I am pleasantly surprised to learn that I am receiving the Hamburg Prize. I look forward to the Prize Ceremony at the Planetarium and to discussing physics with my colleagues and other researchers during the Symposium at the Hamburg University," says Ooguri.
"The Joachim Herz Stiftung is delighted that awarding the prize to Ooguri honors not only an outstanding theoretical physicist, but a brilliant teacher as well. Ooguri's contributions have enabled significant advances to be made in superstring theory research in recent years," says Dr. Henneke Lütgerath, Chairman of the Executive Board of the Joachim Herz Stiftung.
"We are very much looking forward to discussing our research work with Ooguri in person. We are hoping for stimuli which will be mutually very fruitful for our research in string and quantum field theory," says Professor Volker Schomerus, chair of the jury tasked with awarding the prize, a leading scientist at DESY, and spokesperson of the Wolfgang Pauli Centre.
Ooguri's research focuses on creating new tools for superstring theory--the leading "theory of everything" that combines the laws of quantum physics, which operate at very small scales, with the laws of gravity, which operate at larger scales. In one version of the theory, there are 10 dimensions--the three dimensions of space, one dimension of time, and six other tiny dimensions curled up in a structure known as the Calabi-Yau manifold.
"The six-dimensional Calabi-Yau manifold is not separate from the other four dimensions, in the same way that height is not separate from width," says Ooguri. "But the six dimensions are much smaller. We are working on new theoretical tools to understand those dimensions better."
He is particularly renowned for his work on topological string theory, which has had broad applications ranging from black hole physics to algebraic geometry and knot theory in mathematics.
"It is wonderful news for Kavli IPMU that Hirosi Ooguri was chosen as the first example of the expanded Hamburg Prize with a higher honor. This award is based not only on his accomplishments, but also on the high anticipation for more developments in his research on string theory and quantum field theory. I'm as happy as if I were the awardee," says Hitoshi Murayama, Director of the Kavli IPMU.
ABOUT HIROSI OOGURI
Hirosi Ooguri is the Fred Kavli Professor of Theoretical Physics and Mathematics and Director of the Walter Burke Institute for Theoretical Physics at California Institute of Technology, and a Principal Investigator at the Kavli Institute for the Physics and Mathematics of the Universe (Kavli IPMU) at the University of Tokyo. Ooguri received his Ph.D. in Physics from the University of Tokyo in 1989 and has held academic positions at the University of Tokyo, the Institute for Advanced Study in Princeton, the University of Chicago, Kyoto University, and the University of California at Berkeley, before joining California Institute of Technology in 2000. Ooguri became a principal investigator at the Kavli IPMU in 2007. He was named the Founding Director of the Walter Burke Institute for Theoretical Physics in 2014, and is also the President of the Aspen Center for Physics. Among his prizes and honors, he is a Member of the American Academy of Arts and Sciences, a Simons Investigator, and a recipient of the Eisenbud Prize for Physics and Mathematics from the American Mathematical Society.