Playing the quantum harp: Multipartite squeezing and entanglement of harmonic oscillators

Pfister, Olivier, Menicucci, Nicolas C., Flammia, Steven T., Zaidi, Hussain, Bloomer, Russell and Pysher, Matthew (2008). Playing the quantum harp: Multipartite squeezing and entanglement of harmonic oscillators. In: Alan E. Craig and Selim M. Shahriar, Quantum Electronics Metrology. Quantum Electronics Metrology, QEM, San Jose, CA, (). 20 - 21 January 2008. doi:10.1117/12.762995

Attached Files (Some files may be inaccessible until you login with your UQ eSpace credentials)
Name Description MIMEType Size Downloads
UQ315688_OA.pdf Full text (open access) application/pdf 540.42KB 0

Author Pfister, Olivier
Menicucci, Nicolas C.
Flammia, Steven T.
Zaidi, Hussain
Bloomer, Russell
Pysher, Matthew
Title of paper Playing the quantum harp: Multipartite squeezing and entanglement of harmonic oscillators
Conference name Quantum Electronics Metrology, QEM
Conference location San Jose, CA
Conference dates 20 - 21 January 2008
Proceedings title Quantum Electronics Metrology   Check publisher's open access policy
Journal name Proceedings of SPIE - International Society for Optical Engineering   Check publisher's open access policy
Place of Publication Bellingham, WA United States
Publisher S P I E - International Society for Optical Engineering
Publication Year 2008
Year available 2008
Sub-type Fully published paper
DOI 10.1117/12.762995
Open Access Status File (Publisher version)
ISBN 9780819470812
ISSN 0277-786X
Editor Alan E. Craig
Selim M. Shahriar
Volume 6906
Total pages 10
Language eng
Formatted Abstract/Summary
The frequency comb of an optical resonator is a naturally large set of exquisitely well defined quantum systems, such as in the broadband mode-locked lasers which have redefined time/frequency metrology and ultraprecise measurements in recent years. High coherence can therefore be expected in the quantum version of the frequency comb, in which nonlinear interactions couple different cavity modes, as can be modeled by different forms of graph states. We show that is possible to thereby generate states of interest to quantum metrology and computing, such as multipartite entangled cluster and Greenberger-Horne-Zeilinger states. 
Subjects 2208 Electrical and Electronic Engineering
3104 Condensed Matter Physics
Keyword Continuous variable entanglement
Laser stabilization
Optical frequency comb
Optical parametric oscillator
Quantum communication
Quantum information
Q-Index Code E1
Q-Index Status Provisional Code
Institutional Status UQ

Document type: Conference Paper
Sub-type: Fully published paper
Collection: School of Mathematics and Physics
Version Filter Type
Citation counts: TR Web of Science Citation Count  Cited 0 times in Thomson Reuters Web of Science Article
Scopus Citation Count Cited 0 times in Scopus Article
Google Scholar Search Google Scholar
Created: Wed, 27 Nov 2013, 08:30:24 EST by System User on behalf of School of Mathematics & Physics