Cory Dean, The City College of New York
Abstract:
http://www.sci.ccny.cuny.edu/~cdean/index.html
In this three part lecture mini-course Roee Ozeri will review the basic building blocks of quantum information processing with cold-trapped atomic ions.
The main focus will be on methods to implement single-qubit rotations and two-qubit entangling gates, which form a universal set of quantum gates. Different ion-qubit choices and their respective gate implementations will be described.
In this three part lecture mini-course Roee Ozeri will review the basic building blocks of quantum information processing with cold-trapped atomic ions.
The main focus will be on methods to implement single-qubit rotations and two-qubit entangling gates, which form a universal set of quantum gates. Different ion-qubit choices and their respective gate implementations will be described.
Volkher Scholz, Institute for Theoretical Physics ETH Zurich
Abstract:
Steven Flammia, Institute for Quantum Computing
Abstract:
Christopher Portman, Queen's University, Belfast
Abstract:
3rd Annual Conference of Quantum Cryptography
Public lecture
The quantum laws governing atoms and other tiny objects seem to defy common sense, and information encoded in quantum systems has weird properties that baffle our feeble human minds.
An exciting week-long program offered to students in grades 11 to 12.
The Quantum Cryptography School for Young Students (QCSYS) is an exciting week-long program offered to Canadian students in Grades 11-12. This year the program will run through August 12-16, 2013. The program is run by the Institute for Quantum Computing in conjunction with the University of Waterloo
Sylvia Bratzik
Abstract: