Prof. Vladislav Korenivski, Department of Applied Physics, Nanostructure Physics, KTH, Stockholm
Spins as quantum bits
Time: Thu 2016-03-31 09.00 - 11.00
Location: FA31
Participating: Vladislav Korenivski
Title: Spins as quantum bits
Abstract: The rapidly developing field of quantum computing (QC) uses entangled states of microscopic objects together with predefined algorithms of operating on these states to perform certain computational tasks efficiently, tasks that are known to be difficult to implement with classical computers. Efficient quantum algorithms have indeed been found and a large number of physical implementations of the quantum computer are currently explored. This talk will illustrate a particular QC design due to Kane based on a chain of spins in silicon [1-3].
[1] “A silicon-based nuclear spin quantum computer”, B. E. Kane, Nature 393, 133-137 (1998).
[2] “Toward a Silicon-Based Nuclear-Spin Quantum Computer: Developing the technology for a scalable, solid-state quantum computer”, R. G. Clark, et al., Los Alamos Science, Number 27, 284-301 (2002).
[3] “Bell’s inequality violation with spins in silicon”, J. P. Dehollain, et al., Nature Nanotechnology 11, 242-246 (2016).