Room-temperature coherent coupling of single spins in diamond | Macquarie University ResearchOnline

Home

List Of Titles

Room-temperature coherent coupling of single spins in diamond

Please use this identifier to cite or link to this item: http://hdl.handle.net/1959.14/14234

68 Visitors

92 Hits

2 Downloads

Title: Room-temperature coherent coupling of single spins in diamond
Related: Nature physics, Vol. 2, Issue 6, p.408-413
DOI: 10.1038/nphys318
Publisher: Nature Publishing Group
Date: 2006
Author/Creator: Gaebel, Torsten
Author/Creator: Domhan, Michael
Author/Creator: Meijer, Jan
Author/Creator: Twamley, Jason
Author/Creator: Hemmer, Philip R
Author/Creator: Wrachtrup, Jorg
Author/Creator: Popa, Iulian
Author/Creator: Wittmann, Christoffer
Author/Creator: Neumann, Philipp
Author/Creator: Jelezko, Fedor
Author/Creator: Rabeau, James R
Author/Creator: Stavrias, Nikolas
Author/Creator: Greentree, Andrew D
Author/Creator: Prawer, Steven
Description: Coherent coupling between single quantum objects is at the very heart of modern quantum physics. When the coupling is strong enough to prevail over decoherence, it can be used to engineer quantum entangled states. Entangled states have attracted widespread attention because of applications to quantum computing and long-distance quantum communication. For such applications, solid-state hosts are preferred for scalability reasons, and spins are the preferred quantum system in solids because they offer long coherence times. Here we show that a single pair of strongly coupled spins in diamond, associated with a nitrogen-vacancy defect and a nitrogen atom, respectively, can be optically initialized and read out at room temperature. To effect this strong coupling, close proximity of the two spins is required, but large distances from other spins are needed to avoid deleterious decoherence. These requirements were reconciled by implanting molecular nitrogen into high-purity diamond.
Description: 6 page(s)
Subject Keyword: atomic and molecular physics
Subject Keyword: information theory and computation
Subject Keyword: quantum physics
Resource Type: journal article
Organisation: Macquarie University. Centre for Quantum Computer Technology

Identifier: http://hdl.handle.net/1959.14/14234
Identifier: ISSN:1745-2473
Identifier: mq-rm-2006005416
Language: eng
Reviewed

Macquarie University ResearchOnline

Search

Browse

Highlights

Resources