By Takeji Takui, Lawrence Berliner, Graeme Hanson
This publication addresses electron spin-qubit established quantum computing and quantum details processing with a robust specialise in the historical past and functions to EPR/ESR approach and spectroscopy. It explores a extensive spectrum of issues together with quantum computing, info processing, quantum results in electron-nuclear coupled molecular spin structures, adiabatic quantum computing, warmth tub algorithmic cooling with spins, and gateway schemes of quantum regulate for spin networks to NMR quantum details. The association of the publication locations emphasis on appropriate molecular qubit spectroscopy. those innovative ideas have by no means prior to been incorporated in a accomplished quantity that covers concept, actual foundation, technological foundation, functions, and new advances during this rising box. Electron Spin Resonance (ESR) established Quantum Computing, co-edited by way of top and popular researchers Takeji Takui, Graeme Hanson and Lawrence J Berliner, is a perfect source for college kids and researchers within the fields of EPR/ESR, NMR and quantum computing.
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Additional info for Electron Spin Resonance (ESR) Based Quantum Computing
Direct purification of NMR mixed states requires very strict experimental conditions of the temperature down to Exploiting Quantum Effects in Electron-Nuclear Coupled Molecular Spin Systems 33 milli-Kelvin and a very high magnetic field. Therefore, instead of getting involved in preparation of the experimental conditions for making a pure state, it has been considered to follow indirect approaches. Dynamic nuclear polarization (DNP) and heat-bath algorithmic cooling (HBAC, see the chapter Heat Bath Algorithmic Cooling with Spins: Review and Prospects in this book) are some of the techniques that have been used for improving the polarization of the NMR states [28–30].
For this purpose, NMR-based QC is described and an approach to QC exploiting electronnuclear coupled molecular systems is given. Requisites for qubits are described as DiVincenzo’s criteria. Since Shor’s quantum algorithm appeared, the first successful QC experiment was carried out by highly sophisticated pulsed NMR techniques, and this very attempt brought quantum computers down to earth. It has been claimed, nevertheless, that quantum entanglement as the heart of QC has not been established in any experiments in solution.
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