Using techniques from cryptography and computational complexity theory, Atul Singh Arora is developing methods to certify the properties of quantum systems that are otherwise hard to investigate.
Using techniques from cryptography and computational complexity theory, Atul Singh Arora is developing methods to certify the properties of quantum systems that are otherwise hard to investigate.
Daniel Gottesman is part of a team of current and former researchers at Perimeter Institute exploring a new universal boundary that separates ‘nontrivial’ quantum error-correction codes from the rest.
The prize recognizes his significant work in developing both theoretical foundations and practical applications for quantum computers.
His project focused on calculations to help scientists investigate how quantum computers an perform certain tasks significantly faster than their traditional counterparts.
Using techniques from cryptography and computational complexity theory, Atul Singh Arora is developing methods to certify the properties of quantum systems that are otherwise hard to investigate.
Daniel Gottesman is part of a team of current and former researchers at Perimeter Institute exploring a new universal boundary that separates ‘nontrivial’ quantum error-correction codes from the rest.
The prize recognizes his significant work in developing both theoretical foundations and practical applications for quantum computers.
His project focused on calculations to help scientists investigate how quantum computers an perform certain tasks significantly faster than their traditional counterparts.