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Xian Ma
Researcher at University of Waterloo
Publications - 4
Citations - 267
Xian Ma is an academic researcher from University of Waterloo. The author has contributed to research in topics: Quantum gravity & Quantum information science. The author has an hindex of 2, co-authored 4 publications receiving 224 citations. Previous affiliations of Xian Ma include University of Queensland.
Papers
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Journal ArticleDOI
Fundamental quantum optics experiments conceivable with satellites - reaching relativistic distances and velocities
David Rideout,David Rideout,Thomas Jennewein,Giovanni Amelino-Camelia,Tommaso F. Demarie,Brendon L. Higgins,Achim Kempf,Adrian Kent,Adrian Kent,Raymond Laflamme,Raymond Laflamme,Xian Ma,Robert B. Mann,Eduardo Martín-Martínez,Nicolas C. Menicucci,Nicolas C. Menicucci,John W. Moffat,Christoph Simon,Rafael D. Sorkin,Lee Smolin,Daniel R. Terno +20 more
TL;DR: In this article, a wide variety of potential tests of fundamental physics that are conceivable with artificial satellites in Earth orbit and elsewhere in the solar system, and attempt to sketch the magnitudes of potentially observable effects.
Journal ArticleDOI
Arbitrarily large continuous-variable cluster states from a single quantum nondemolition gate.
TL;DR: This work presents a compact experimental design for producing an arbitrarily large optical continuous-variable cluster state using just one single-mode vacuum squeezer and one quantum nondemolition gate.
Journal ArticleDOI
Fundamental quantum optics experiments conceivable with satellites -- reaching relativistic distances and velocities
David Rideout,David Rideout,Thomas Jennewein,Giovanni Amelino-Camelia,Tommaso F. Demarie,Brendon L. Higgins,Achim Kempf,Adrian Kent,Adrian Kent,Raymond Laflamme,Raymond Laflamme,Xian Ma,Robert B. Mann,Eduardo Martín-Martínez,Nicolas C. Menicucci,Nicolas C. Menicucci,John W. Moffat,Christoph Simon,Rafael D. Sorkin,Lee Smolin,Daniel R. Terno +20 more
TL;DR: A wide variety of potential tests of fundamental physics that are conceivable with artificial satellites in Earth orbit and elsewhere in the solar system, and attempt to sketch the magnitudes of potentially observable effects are reviewed in this paper.
Posted Content
An Experimental Test of Envariance
Lydia Vermeyden,Xian Ma,Jonathan Lavoie,Madeleine Bonsma,Urbasi Sinha,Raymond Laflamme,Kevin J. Resch +6 more
TL;DR: In this article, the degree to which nature respects this symmetry by using entangled photon pairs was measured by measuring the less-than-maximal entanglement in their photon pairs, and the results showed that quantum states can be 99.66(4)% envariant as measured using the quantum fidelity, and 99.963(5)% as measured by a modified Bhattacharya Coefficient.