Y
Y. S. Shiao
Researcher at National Taiwan University
Publications - 14
Citations - 328
Y. S. Shiao is an academic researcher from National Taiwan University. The author has contributed to research in topics: Neutrino & Radio wave. The author has an hindex of 6, co-authored 11 publications receiving 235 citations.
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Journal ArticleDOI
Performance of two Askaryan Radio Array stations and first results in the search for ultrahigh energy neutrinos
Patrick Allison,R. Bard,J. J. Beatty,D. Z. Besson,C. Bora,C. C. Chen,Chun Hsiung Chen,Pisin Chen,A. Christenson,Amy Connolly,J. Davies,Michael DuVernois,B. D. Fox,R. Gaior,Peter Gorham,Kael Hanson,J. Haugen,Berkeley Hill,Kara Hoffman,E. Hong,S. Y. Hsu,L. Hu,J. J. Huang,M. A. Huang,A. Ishihara,A. Karle,J. L. Kelley,Daniel Kennedy,Ilya Kravchenko,T. Kuwabara,H. Landsman,A. Laundrie,C.-J. Li,Tsung-Che Liu,M.-Y. Lu,Luca Macchiarulo,K. Mase,Thomas Meures,R. Meyhandan,C. Miki,R. Morse,Jiwoo Nam,R. J. Nichol,G. Nir,Alexander Novikov,Aongus O'Murchadha,Carl Pfendner,Kenneth L. Ratzlaff,M. Relich,M. Richman,Lisa Ritter,B. Rotter,P. Sandstrom,P. Schellin,A. Shultz,D. Seckel,Y. S. Shiao,J. Stockham,M. Stockham,J. Touart,G. S. Varner,M. Z. Wang,S. H. Wang,Yifan Yang,S. Yoshida,R. Young +65 more
TL;DR: In this article, the ARA detector as built and calibrations are described and data reduction methods used to distinguish the rare radio signals from overwhelming background of thermal and anthropogenic origin are presented.
Journal ArticleDOI
Design and performance of an interferometric trigger array for radio detection of high-energy neutrinos
Patrick Allison,S. Archambault,R. Bard,J. J. Beatty,M. Beheler-Amass,D. Z. Besson,D. Z. Besson,M. Beydler,M. Bogdan,C. C. Chen,Chun Hsiung Chen,Pisin Chen,Brian Clark,A. Clough,Amy Connolly,L. Cremonesi,J. Davies,Cosmin Deaconu,Michael DuVernois,E. Friedman,J. Hanson,Kael Hanson,J. Haugen,Kara Hoffman,Benjamin Hokanson-Fasig,E. Hong,S. Y. Hsu,L. Hu,J. J. Huang,M. H. Huang,K. Hughes,A. Ishihara,Albrecht Karle,J. L. Kelley,R. Khandelwal,M.-C. Kim,I. Kravchenko,J. Kruse,K. Kurusu,H. Landsman,U. Latif,A. Laundrie,C.-J. Li,Tsung-Che Liu,M.-Y. Lu,Andrew Ludwig,K. Mase,Thomas Meures,Jiwoo Nam,R. J. Nichol,G. Nir,Eric Oberla,Aongus O'Murchadha,Y. Pan,C. Pfendner,M. Ransom,Kenneth L. Ratzlaff,J. Roth,P. Sandstrom,D. Seckel,Y. S. Shiao,A. Shultz,David J. Smith,M. Song,M. Sullivan,J. Touart,Abigail G. Vieregg,M. Z. Wang,S. H. Wang,K. Wei,Stephanie Wissel,S. Yoshida,R. Young +72 more
TL;DR: The NuPhase detector as mentioned in this paper was installed at an Askaryan Radio Array (ARA) station during the 2017/18 Austral summer season and achieved a trigger threshold of 1.6 for neutrino interactions that are in the far field of the array.
Journal ArticleDOI
Constraints on the diffuse flux of ultrahigh energy neutrinos from four years of Askaryan Radio Array data in two stations
Patrick Allison,S. Archambault,J. J. Beatty,M. Beheler-Amass,D. Z. Besson,D. Z. Besson,M. Beydler,C. C. Chen,Chun Hsiung Chen,Po-Hsun Chen,Brian Clark,Brian Clark,W. Clay,Amy Connolly,L. Cremonesi,J. Davies,S. De Kockere,K. D. de Vries,Cosmin Deaconu,Michael DuVernois,E. Friedman,R. Gaior,J. C. Hanson,Kael Hanson,Kara Hoffman,Benjamin Hokanson-Fasig,E. Hong,S. Y. Hsu,L. Hu,J. J. Huang,M.-H. A. Huang,K. Hughes,A. Ishihara,A. Karle,J. L. Kelley,R. Khandelwal,K.-C. Kim,M.-C. Kim,I. Kravchenko,K. Kurusu,H. Landsman,U. Latif,A. Laundrie,C.-J. Li,Tsung-Che Liu,M.-Y. Lu,B. Madison,K. Mase,Thomas Meures,J. Nam,R. J. Nichol,G. Nir,Alexander Novikov,Alexander Novikov,A. Nozdrina,Eric Oberla,Aongus O'Murchadha,James C. Osborn,Y. Pan,C. Pfendner,J. Roth,P. Sandstrom,D. Seckel,Y. S. Shiao,A. Shultz,David J. Smith,Jorge Torres,J. Touart,N. van Eijndhoven,G. S. Varner,Abigail G. Vieregg,M. Z. Wang,S. H. Wang,Stephanie Wissel,Stephanie Wissel,S. Yoshida,R. Young +76 more
TL;DR: In this article, the authors present constraints on the diffuse flux of ultra-high energy neutrinos between 1016 and 1021 ǫ eV resulting from a search for neutrino in two complementary analyses.
Journal ArticleDOI
Measurement of the real dielectric permittivity ? r of glacial ice
Patrick Allison,S. Archambault,J. Auffenberg,R. Bard,J. J. Beatty,M. Beheler-Amass,D. Z. Besson,D. Z. Besson,M. Beydler,C. C. Chen,Chun Hsiung Chen,Po-Hsun Chen,A. Christenson,Brian Clark,Amy Connolly,L. Cremonesi,Cosmin Deaconu,Michael DuVernois,L. Friedman,R. Gaior,J. C. Hanson,Kael Hanson,J. Haugen,Kara Hoffman,E. Hong,S. Y. Hsu,L. Hu,J. J. Huang,M.-H. A. Huang,A. Ishihara,A. Karle,J. L. Kelley,R. Khandelwal,M.-C. Kim,I. Kravchenko,J. Kruse,K. Kurusu,T. Kuwabara,H. Landsman,U. Latif,A. Laundrie,C.-J. Li,Tsung-Che Liu,M.-Y. Lu,K. Mase,Thomas Meures,J. Nam,R. J. Nichol,G. Nir,Alexander Novikov,Alexander Novikov,Eric Oberla,A. O’ Murchadha,Y. Pan,Carl Pfendner,Kenneth L. Ratzlaff,M. Relich,J. Roth,P. Sandstrom,D. Seckel,Y. S. Shiao,A. Shultz,M. Song,J. Touart,G. S. Varner,Abigail G. Vieregg,M. Z. Wang,S. H. Wang,Stephanie Wissel,S. Yoshida,R. Young +70 more
TL;DR: In this paper, the authors used long-baseline RF propagation to extract information on the index-of-refraction (n = ϵ r ) in South Polar ice.
Journal ArticleDOI
Long-baseline horizontal radio-frequency transmission through polar ice
Patrick Allison,S. Archambault,J. J. Beatty,D. Z. Besson,C. C. Chen,Chun Hsiung Chen,Po-Hsun Chen,A. Christenson,Brian Clark,W. Clay,Amy Connolly,L. Cremonesi,Cosmin Deaconu,Michael DuVernois,L. Friedman,R. Gaior,J. C. Hanson,Kael Hanson,J. Haugen,K. D. Hoffman,E. Hong,S. Y. Hsu,L. Hu,J. J. Huang,A. M.-H. Huang,K. Hughes,A. Ishihara,A. Karle,J. L. Kelley,R. Khandelwal,M.-C. Kim,I. Kravchenko,J. Kruse,K. Kurusu,T. Kuwabara,U. Latif,A. Laundrie,C.-J. Li,Tsung-Che Liu,M.-Y. Lu,B. Madison,K. Mase,Thomas Meures,Jiwoo Nam,R. J. Nichols,Alexander Novikov,A. Nozdrina,Eric Oberla,Y. Pan,Carl Pfendner,M. Relich,P. Sandstrom,D. Seckel,Y. S. Shiao,A. Shultz,David J. Smith,M. Song,Jorge Torres,J. Touart,G. S. Varner,Abigail G. Vieregg,M. Z. Wang,S. H. Wang,Stephanie Wissel,S. Yoshida,R. Young +65 more
TL;DR: In this paper, the authors report on analysis of englacial radiofrequency (RF) pulser data received over horizontal baselines of 1-5 km, based on broadcasts from two sets of transmitters deployed to depths of up to 1500 meters at the South Pole.