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Ping Koy Lam

Researcher at Australian National University

Publications -  449
Citations -  20289

Ping Koy Lam is an academic researcher from Australian National University. The author has contributed to research in topics: Quantum entanglement & Gravitational wave. The author has an hindex of 75, co-authored 426 publications receiving 18126 citations. Previous affiliations of Ping Koy Lam include Pusan National University & Tianjin University.

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A quantum laser pointer.

Nicolas Treps, +6 more
- 15 Aug 2003 - 
TL;DR: A quantum laser pointer is experimentally produced, a beam of light whose direction is measured with a precision greater than that possible for a usual laser beam, providing a demonstration of multichannel spatial squeezing and its application to the improvement of beam positioning sensitivity and, more generally, to imaging.
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Multipartite Einstein-Podolsky-Rosen steering and genuine tripartite entanglement with optical networks

Seiji Armstrong, +10 more
- 01 Feb 2015 - 
TL;DR: In this paper, the Australian Research Council Centre of Excellence for Quantum Computation and Communication Technology (CE110001029) and DECRA and Discovery Project Grants schemes have been used.
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Experimental Investigation of Criteria for Continuous Variable Entanglement

Warwick P. Bowen, +3 more
- 29 Jan 2003 - 
TL;DR: Theentanglement is presented on a diagram of the average sideband photon number required to generate the entanglement versus the average number of excess sideband photons, as deduced from the measured values of the quadrature variances.
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Search for gravitational waves from low mass compact binary coalescence in LIGO's sixth science run and Virgo's science runs 2 and 3

J. Abadie, +884 more
- 19 Apr 2012 - 
TL;DR: In this paper, the authors report on a search for gravitational waves from coalescing compact binaries using LIGO and Virgo observations between July 7, 2009, and October 20, 2010.
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Quantum entanglement of angular momentum states with quantum numbers up to 10,010

Robert Fickler, +5 more
- 29 Nov 2016 - 
TL;DR: The results show how complex the structure of entangled photons can be and hint at the large information content a single quantum system is able to carry, and highlight OAM as a promising way to increase the information capacity of a single photon.