NMR quantum computing

Quantum computing and nuclear magnetic resonance

PHYSCHEMCOMM (2001) ARTN 11

NMR Quantum Computation: A Critical Evaluation

Chapter in Scalable Quantum Computers, Wiley (2000) 139-154

Geometric quantum computation

J MOD OPTIC 47:14-15 (2000) 2501-2513

Authors:

A Ekert, M Ericsson, P Hayden, H Inamori, JA Jones, DKL Oi, V Vedral

Abstract:

We describe in detail a general strategy for implementing a conditional geometric phase between two spins. Combined with single-spin operations, this simple operation is a universal gate for quantum computation, in that any unitary transformation can be implemented with arbitrary precision using only single-spin operations and conditional phase shifts. Thus quantum geometrical phases can form the basis of any quantum computation. Moreover, as the induced conditional phase depends only on the geometry of the paths executed by the spins it is resilient to certain types of errors and offers the potential of a naturally fault-tolerant way of performing quantum computation.

NMR: The Toolkit

OUP, 2000

Authors:

PJ Hore, JA Jones, S Wimperis

Abstract:

This book provides a concise, approachable description of how modern NMR experiments work, aimed principally at those who use, or might use, ...

Geometric Quantum Computation

(2000)

Authors:

A Ekert, M Ericsson, P Hayden, H Inamori, JA Jones, DKL Oi, V Vedral