Prof Jonathan Jones: Publications

A combined parahydrogen and theoretical study of H₂ activation by 16-electron d⁸ ruthenium(0) complexes and their subsequent catalytic behaviour

DALTON TRANSACTIONS (2004) 3616-3628

Authors:

JP Dunne, D Blazina, S Aiken, HA Carteret, SB Duckett, JA Jones, R Poli, AC Whitwood

Course 10 Nuclear magnetic resonance quantum computation

Les Houches - Ecole d'Ete de Physique Theorique Elsevier 79 (2004) 357-400

Implementation of NMR quantum computation with parahydrogen-derived high-purity quantum states - art. no. 032324

PHYSICAL REVIEW A 70:3 (2004) ARTN 032324

Authors:

MS Anwar, JA Jones, D Blazina, SB Duckett, HA Carteret

Implementing Grover's quantum search on a para-hydrogen based pure state NMR quantum computer

CHEMICAL PHYSICS LETTERS 400:1-3 (2004) 94-97

Authors:

MS Anwar, D Blazina, HA Carteret, SB Duckett, JA Jones

Nuclear magnetic resonance quantum computation

LES HOUCH S 79 (2004) 357-+

Abstract:

Nuclear Magnetic Resonance (NMR) is arguably both the best and the worst technology we have for the implementation of small quantum computers. Its strengths lie in the ease with which arbitrary unitary transformations can be implemented, and the great experimental simplicity arising from the low energy scale and long time scale of radio frequency transitions; its weaknesses lie in the difficulty of implementing essential non-unitary operations, most notably initialisation and measurement. This course will explore both the strengths and weaknesses of NMR as a quantum technology, and describe some topics of current interest.

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