E
Evan Meyer-Scott
Researcher at University of Paderborn
Publications - 60
Citations - 3013
Evan Meyer-Scott is an academic researcher from University of Paderborn. The author has contributed to research in topics: Photon & Quantum entanglement. The author has an hindex of 20, co-authored 60 publications receiving 2436 citations. Previous affiliations of Evan Meyer-Scott include University of Waterloo.
Papers
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Journal ArticleDOI
Strong Loophole-Free Test of Local Realism.
Lynden K. Shalm,Evan Meyer-Scott,Bradley G. Christensen,Peter Bierhorst,Michael A. Wayne,Michael A. Wayne,Martin J. Stevens,Thomas Gerrits,Scott Glancy,Deny R. Hamel,Michael S. Allman,Kevin J. Coakley,Shellee D. Dyer,Carson Hodge,Adriana E. Lita,Varun B. Verma,Camilla Lambrocco,Edward Tortorici,Alan L. Migdall,Yanbao Zhang,Daniel Kumor,William H. Farr,Francesco Marsili,Matthew D. Shaw,Jeffrey A. Stern,Carlos Abellan,Waldimar Amaya,Valerio Pruneri,Thomas Jennewein,Morgan W. Mitchell,Paul G. Kwiat,Joshua C. Bienfang,Richard P. Mirin,Emanuel Knill,Sae Woo Nam +34 more
TL;DR: In this paper, the authors present a loophole-free violation of local realism using entangled photon pairs, ensuring that all relevant events in their Bell test are spacelike separated by placing the parties far enough apart and by using fast random number generators and high-speed polarization measurements.
Journal ArticleDOI
A comprehensive design and performance analysis of low Earth orbit satellite quantum communication
J. P. Bourgoin,Evan Meyer-Scott,Brendon L. Higgins,Bassam Helou,Chris Erven,Hannes Hübel,B. Kumar,Darren D. Hudson,I. D'Souza,R. Girard,Raymond Laflamme,Thomas Jennewein +11 more
TL;DR: In this article, the authors developed a thorough numerical simulation using realistic simulated orbits and incorporating the effects of pointing error, diffraction, atmosphere and telescope design, to obtain estimates of the loss and background noise which a satellite-based system would experience.
Posted ContentDOI
A strong loophole-free test of local realism
Lynden K. Shalm,Evan Meyer-Scott,Bradley G. Christensen,Peter Bierhorst,Michael A. Wayne,Deny R. Hamel,Martin J. Stevens,Thomas Gerrits,Scott Glancy,Michael S. Allman,Kevin J. Coakley,Shellee D. Dyer,Adriana E. Lita,Varun B. Verma,Joshua C. Bienfang,Alan L. Migdall,Yanbao Zhang,William H. Farr,Francesco Marsili,Matthew D. Shaw,Jeffrey A. Stern,Carlos Abellan,Waldimar Amaya,Valerio Pruneri,Thomas Jennewein,Morgan W. Mitchell,Paul G. Kwiat,Richard P. Mirin,Emanuel Knill,Sae Woo Nam +29 more
TL;DR: In this paper, the authors present a loophole-free violation of local realism using entangled photon pairs, where all relevant events in the Bell test are spacelike separated by placing the parties far enough apart and by using fast random number generators and high-speed polarization measurements.
Journal ArticleDOI
A comprehensive design and performance analysis of LEO satellite quantum communication
J. P. Bourgoin,Evan Meyer-Scott,Brendon L. Higgins,Bassam Helou,Chris Erven,H. Huebel,B. Kumar,Danya Hudson,I. D'Souza,R. Girard,Raymond Laflamme,Thomas Jennewein +11 more
TL;DR: In this article, the authors have developed a thorough numerical simulation using realistic simulated orbits and incorporating the effects of pointing error, diffraction, atmosphere and telescope design, to obtain estimates of the loss and background noise which a satellite-based system would experience.
Journal ArticleDOI
Experimental three-photon quantum nonlocality under strict locality conditions
Chris Erven,Chris Erven,Evan Meyer-Scott,Kent A. G. Fisher,Jonathan Lavoie,Brendon L. Higgins,Zhizhong Yan,Zhizhong Yan,Christopher J. Pugh,J. P. Bourgoin,Robert Prevedel,Robert Prevedel,Lynden K. Shalm,Lynden K. Shalm,L. Richards,Nikolay Gigov,Raymond Laflamme,Gregor Weihs,Gregor Weihs,Thomas Jennewein,Kevin J. Resch +20 more
TL;DR: In this article, a light source for producing entangled multiphoton states and measurement technologies for precise timing and efficient detection were developed, and the classical bound of the three-particle Mermin inequality was violated by nine standard deviations by closing both the locality and freedom-of-choice loopholes.