Samuel L. Braunstein | |
Birth Date: | 1961 |
Birth Place: | Melbourne, Australia |
Nationality: | Australian |
Fields: | Physicist |
Alma Mater: | University of Melbourne California Institute of Technology |
Doctoral Advisor: | Carlton Morris Caves |
Doctoral Students: | Pieter Kok |
Awards: | Royal Society Wolfson Research Merit Award(2003) |
Samuel Leon Braunstein (born 1961) is a professor at the University of York, England. He is a member of a research group in non-standard computation and has a particular interest in quantum information, quantum computation, and black hole thermodynamics.
Braunstein has written or edited three books and has published more than 140 papers, which have been cited over 36,000 times. His most important work is on quantum teleportation, and published in a paper titled Unconditional Quantum Teleportation.[1] The paper has been cited more than 3,000 times and received significant coverage in both the scientific and mainstream press.
In February 2006, Braunstein made the news due to his involvement in the first successful demonstration of quantum telecloning.[2]
From 2009, he began to research black hole thermodynamics, contributing to the black hole information paradox and the firewall paradox.[3] [4]
Braunstein co-authored papers with Gilles Brassard and Simone Severini, with whom he introduced the Braunstein-Ghosh-Severini Entropy of a graph.
Braunstein completed his PhD in 1988 at Caltech, under Carlton M. Caves. His dissertation was titled Novel Quantum States and Measurements.