C
C. Zhang
Researcher at California Institute of Technology
Publications - 22
Citations - 505
C. Zhang is an academic researcher from California Institute of Technology. The author has contributed to research in topics: Cosmic microwave background & Detector. The author has an hindex of 9, co-authored 17 publications receiving 363 citations. Previous affiliations of C. Zhang include Brookhaven National Laboratory.
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Journal ArticleDOI
Ionization electron signal processing in single phase LArTPCs. Part I. Algorithm Description and quantitative evaluation with MicroBooNE simulation
C. Adams,R. An,J. Anthony,J. Asaadi,Martin Auger,L. Bagby,S. Balasubramanian,B. Baller,C. Barnes,G.D. Barr,M. Bass,M. Bass,F. Bay,A. Bhat,K. Bhattacharya,M. Bishai,Andrew Blake,T. Bolton,L. Camilleri,D. Caratelli,R. Castillo Fernandez,F. Cavanna,Giuseppe Benedetto Cerati,H. S. Chen,Yi Chen,E. Church,D. Cianci,E. Cohen,G. H. Collin,Janet Conrad,M. E. Convery,L. Cooper-Troendle,J. I. Crespo-Anadón,M. Del Tutto,D. Devitt,A. Diaz,S. Dytman,B. Eberly,Antonio Ereditato,L. Escudero Sanchez,J. Esquivel,J. J. Evans,A.A. Fadeeva,B.T. Fleming,W. Foreman,A. P. Furmanski,D. Garcia-Gamez,G. T. Garvey,V. Genty,D. Goeldi,S. Gollapinni,E. Gramellini,H. Greenlee,R. Grosso,R. Guenette,R. Guenette,P. Guzowski,A. Hackenburg,P. M. Hamilton,Or Hen,J. Hewes,Colin Hill,J. Ho,G. A. Horton-Smith,A. Hourlier,E.-C. Huang,C. James,J. Jan de Vries,L. Jiang,R. A. Johnson,J. Joshi,H. Jostlein,Y.-J. Jwa,D. Kaleko,G. Karagiorgi,W. Ketchum,B. Kirby,Michael H Kirby,T. Kobilarcik,I. Kreslo,Yang Li,A. Lister,B. R. Littlejohn,S. Lockwitz,D. Lorca,W. C. Louis,M. Luethi,B. Lundberg,X. Luo,A. Marchionni,S. Marcocci,C. Mariani,John Marshall,D. A. Martinez Caicedo,A. Mastbaum,V. Meddage,T. Miceli,G. B. Mills,A. Mogan,J. Moon,M. Mooney,M. Mooney,C.D. Moore,J. Mousseau,Michael T. Murphy,R. Murrells,D. Naples,P. Nienaber,J. A. Nowak,Ornella Palamara,Vishvas Pandey,V. Paolone,Afroditi Papadopoulou,V. Papavassiliou,S. F. Pate,Z. Pavlovic,E. Piasetzky,D. Porzio,G. Pulliam,Xin Qian,J. L. Raaf,Veljko Radeka,A. Rafique,L. Rochester,M. Ross-Lonergan,C. Rudolf von Rohr,B. Russell,D. W. Schmitz,A. Schukraft,W. G. Seligman,M. H. Shaevitz,J. Sinclair,Andrew Smith,E.L. Snider,M. Soderberg,S. Söldner-Rembold,S.R. Soleti,S.R. Soleti,Panagiotis Spentzouris,J. Spitz,J. St. John,J. St. John,Thomas Strauss,K. Sutton,S. Sword-Fehlberg,A. M. Szelc,N. Tagg,W. Tang,Kazuhiro Terao,Kazuhiro Terao,M. A. Thomson,C. E. Thorn,M. Toups,Y.-T. Tsai,S. Tufanli,T. Usher,W. Van De Pontseele,W. Van De Pontseele,R. G. Van de Water,B. Viren,Marc Weber,H. Y. Wei,D.A. Wickremasinghe,K. Wierman,Z. Williams,S. Wolbers,T. Wongjirad,T. Wongjirad,K. Woodruff,T. Yang,G. Yarbrough,L.E. Yates,Bo Yu,G. P. Zeller,J. Zennamo,C. Zhang +175 more
TL;DR: In this article, the concept and procedure of drifted-charge extraction developed in the MicroBooNE experiment, a single-phase liquid argon time projection chamber (LArTPC), is described.
Journal ArticleDOI
The Pandora multi-algorithm approach to automated pattern recognition of cosmic-ray muon and neutrino events in the MicroBooNE detector
R. Acciarri,C. Adams,C. Adams,R. An,J. Anthony,J. Asaadi,M. Auger,L. Bagby,S. Balasubramanian,B. Baller,C. Barnes,G.D. Barr,M. Bass,F. Bay,M. Bishai,Andrew Blake,T. Bolton,L. Camilleri,D. Caratelli,B. Carls,R. Castillo Fernandez,F. Cavanna,H. S. Chen,E. Church,D. Cianci,D. Cianci,E. Cohen,G. H. Collin,Janet Conrad,M. E. Convery,J. I. Crespo-Anadón,M. Del Tutto,D. Devitt,S. Dytman,B. Eberly,Antonio Ereditato,L. Escudero Sanchez,J. Esquivel,A.A. Fadeeva,B.T. Fleming,W. Foreman,A. P. Furmanski,D. Garcia-Gamez,G. T. Garvey,V. Genty,D. Goeldi,S. Gollapinni,S. Gollapinni,N. Graf,E. Gramellini,H. Greenlee,R. Grosso,R. Guenette,R. Guenette,A. Hackenburg,P. M. Hamilton,Or Hen,J. Hewes,Colin Hill,J. Ho,G. A. Horton-Smith,A. Hourlier,E.-C. Huang,C. James,J. Jan de Vries,C.-M. Jen,L. Jiang,R. A. Johnson,J. Joshi,H. Jöstlein,D. Kaleko,G. Karagiorgi,G. Karagiorgi,W. Ketchum,B. Kirby,Michael H Kirby,T. Kobilarcik,I. Kreslo,A. Laube,Yang Li,A. Lister,B. R. Littlejohn,S. Lockwitz,D. Lorca,W. C. Louis,M. Luethi,B. Lundberg,X. Luo,A. Marchionni,C. Mariani,John Marshall,D. A. Martinez Caicedo,V. Meddage,T. Miceli,G. B. Mills,J. Moon,M. Mooney,C.D. Moore,J. Mousseau,R. Murrells,D. Naples,P. Nienaber,J. A. Nowak,Ornella Palamara,V. Paolone,V. Papavassiliou,S. F. Pate,Z. Pavlovic,E. Piasetzky,D. Porzio,G. Pulliam,Xin Qian,J. L. Raaf,A. Rafique,L. Rochester,C. Rudolf von Rohr,B. Russell,D. W. Schmitz,A. Schukraft,W. G. Seligman,M. H. Shaevitz,J. Sinclair,Andrew Smith,E.L. Snider,M. Soderberg,S. Söldner-Rembold,S.R. Soleti,Panagiotis Spentzouris,J. Spitz,J. St. John,Thomas Strauss,A. M. Szelc,N. Tagg,Kazuhiro Terao,Kazuhiro Terao,M. A. Thomson,M. Toups,Y.-T. Tsai,S. Tufanli,T. Usher,W. Van De Pontseele,R. G. Van de Water,B. Viren,Marc Weber,D.A. Wickremasinghe,S. Wolbers,T. Wongjirad,K. Woodruff,T. Yang,Luke A. Yates,G. P. Zeller,J. Zennamo,C. Zhang +152 more
TL;DR: The Pandora Software Development Kit as discussed by the authors provides functionality to aid the design and implementation of pattern-recognition algorithms and promotes the use of a multi-algorithm approach to pattern recognition, in which individual algorithms each address a specific task in a particular topology.
Journal ArticleDOI
Ionization electron signal processing in single phase LArTPCs. Part II. Data/simulation comparison and performance in MicroBooNE
C. Adams,R. An,J. Anthony,J. Asaadi,Martin Auger,S. Balasubramanian,B. Baller,C. Barnes,G.D. Barr,M. Bass,F. Bay,A. Bhat,K. Bhattacharya,M. Bishai,Andrew Blake,T. Bolton,L. Camilleri,D. Caratelli,I. Caro Terrazas,R. Carr,R. Castillo Fernandez,F. Cavanna,Giuseppe Benedetto Cerati,H. S. Chen,Yi Chen,E. Church,D. Cianci,E. Cohen,G. H. Collin,Janet Conrad,M. E. Convery,L. Cooper-Troendle,J. I. Crespo-Anadón,M. Del Tutto,D. Devitt,Alejandro Diaz,M. Dolce,S. Dytman,B. Eberly,Antonio Ereditato,L. Escudero Sanchez,J. Esquivel,J. J. Evans,A.A. Fadeeva,B.T. Fleming,W. Foreman,A. P. Furmanski,D. Garcia-Gamez,G. T. Garvey,V. Genty,D. Goeldi,S. Gollapinni,E. Gramellini,H. Greenlee,R. Grosso,R. Guenette,P. Guzowski,A. Hackenburg,P. M. Hamilton,Or Hen,J. Hewes,Colin Hill,J. Ho,G. A. Horton-Smith,A. Hourlier,E.-C. Huang,C. James,J. Jan de Vries,L. Jiang,R. A. Johnson,J. Joshi,H. Jostlein,Y.-J. Jwa,D. Kaleko,G. Karagiorgi,W. Ketchum,B. Kirby,Michael H Kirby,T. Kobilarcik,I. Kreslo,Yang Li,A. Lister,B. R. Littlejohn,S. Lockwitz,D. Lorca,W. C. Louis,M. Luethi,B. Lundberg,X. Luo,A. Marchionni,S. Marcocci,C. Mariani,John Marshall,D. A. Martinez Caicedo,A. Mastbaum,V. Meddage,T. Mettler,T. Miceli,G. B. Mills,A. Mogan,J. Moon,M. Mooney,C.D. Moore,J. Mousseau,Michael T. Murphy,R. Murrells,D. Naples,P. Nienaber,J. A. Nowak,Ornella Palamara,Vishvas Pandey,V. Paolone,Afroditi Papadopoulou,V. Papavassiliou,S. F. Pate,Z. Pavlovic,E. Piasetzky,D. Porzio,G. Pulliam,Xin Qian,J. L. Raaf,Veljko Radeka,A. Rafique,L. Rochester,M. Ross-Lonergan,C. Rudolf von Rohr,B. Russell,D. W. Schmitz,A. Schukraft,W. G. Seligman,M. H. Shaevitz,J. Sinclair,Andrew Smith,E.L. Snider,M. Soderberg,S. Söldner-Rembold,S.R. Soleti,S.R. Soleti,Panagiotis Spentzouris,J. Spitz,J. St. John,J. St. John,Thomas Strauss,K. Sutton,S. Sword-Fehlberg,A. M. Szelc,N. Tagg,W. Tang,Kazuhiro Terao,M. A. Thomson,M. Toups,Y.-T. Tsai,S. Tufanli,T. Usher,W. Van De Pontseele,W. Van De Pontseele,R. G. Van de Water,B. Viren,Marc Weber,H. Y. Wei,D.A. Wickremasinghe,K. Wierman,Z. Williams,S. Wolbers,T. Wongjirad,K. Woodruff,T. Yang,G. Yarbrough,L.E. Yates,Bo Yu,G. P. Zeller,J. Zennamo,C. Zhang +172 more
TL;DR: In this article, a single-phase liquid argon time projection chamber (LArTPC) is used to extract ionization charge from the induction wire planes of the MicroBooNE detector.
Proceedings ArticleDOI
BICEP Array: A multi-frequency degree-scale CMB polarimeter
Howard Hui,Peter A. R. Ade,Zeeshan Ahmed,Randol W. Aikin,Kate D. Alexander,Denis Barkats,S. J. Benton,Colin A. Bischoff,James J. Bock,R. Bowens-Rubin,Justus A. Brevik,I. Buder,E. Bullock,Victor Buza,Jake Connors,J. Cornelison,B. P. Crill,M. Crumrine,Marion Dierickx,L. Duband,Cora Dvorkin,Jeffrey P. Filippini,S. Fliescher,J. A. Grayson,G. Hall,Mark Halpern,Sarah M. Harrison,S. R. Hildebrandt,Gene C. Hilton,Kent D. Irwin,J. Kang,Kirit Karkare,E. Karpel,J. P. Kaufman,Brian Keating,S. Kefeli,S. A. Kernasovskiy,John M Kovac,C. L. Kuo,Kam Y. Lau,N. A. Larsen,E. M. Leitch,M. Lueker,K. G. Megerian,Lorenzo Moncelsi,T. Namikawa,Calvin B. Netterfield,H. T. Nguyen,Roger O'Brient,R. W. Ogburn,S. Palladino,C. Pryke,B. Racine,S. Richter,R. Schwarz,Alessandro Schillaci,C. D. Sheehy,Ahmed Soliman,T. St. Germaine,Z. K. Staniszewski,Bryan Steinbach,Rashmikant V. Sudiwala,G. P. Teply,K. L. Thompson,J. E. Tolan,Carole Tucker,A. D. Turner,C. Umiltà,Abigail G. Vieregg,A. Wandui,A. C. Weber,Donald V. Wiebe,J. Willmert,C. L. Wong,W. L. K. Wu,Eui-Hyeok Yang,Ki Won Yoon,C. Zhang +77 more
TL;DR: The Bicep Array as discussed by the authors is the latest multi-frequency instrument in the BICEp/Keck Array program, consisting of four 550mm aperture refractive telescopes observing the polarization of the cosmic microwave background (CMB) at 30/40, 95, 150 and 220/270 GHz with over 30,000 detectors.
Proceedings ArticleDOI
BICEP Array: a multi-frequency degree-scale CMB polarimeter
Howard Hui,Peter A. R. Ade,Zeeshan Ahmed,Randol W. Aikin,Kate D. Alexander,Denis Barkats,S. J. Benton,Colin A. Bischoff,James J. Bock,R. Bowens-Rubin,Justus A. Brevik,I. Buder,E. Bullock,Victor Buza,Jake Connors,J. Cornelison,B. P. Crill,M. Crumrine,Marion Dierickx,L. Duband,Cora Dvorkin,Jeffrey P. Filippini,S. Fliescher,J. A. Grayson,G. Hall,Mark Halpern,Sarah M. Harrison,S. R. Hildebrandt,Gene C. Hilton,Kent D. Irwin,J. Kang,Kirit Karkare,E. Karpel,J. P. Kaufman,Brian Keating,S. Kefeli,S. A. Kernasovskiy,John M Kovac,C. L. Kuo,Kam Y. Lau,N. A. Larsen,E. M. Leitch,M. Lueker,K. G. Megerian,Lorenzo Moncelsi,T. Namikawa,Calvin B. Netterfield,H. T. Nguyen,Roger O'Brient,R. W. Ogburn,S. Palladino,C. Pryke,B. Racine,S. Richter,R. Schwarz,Alessandro Schillaci,C. D. Sheehy,Ahmed Soliman,T. St. Germaine,Z. K. Staniszewski,Bryan Steinbach,Rashmikant V. Sudiwala,G. P. Teply,K. L. Thompson,J. E. Tolan,Carole Tucker,A. D. Turner,C. Umiltà,Abigail G. Vieregg,A. Wandui,A. C. Weber,Donald V. Wiebe,J. Willmert,C. L. Wong,W. L. K. Wu,Eui-Hyeok Yang,Ki Won Yoon,C. Zhang +77 more
TL;DR: The BICEP Array as mentioned in this paper is the newest multi-frequency instrument in the BiceP/Keck Array program, consisting of four 550 mm aperture refractive telescopes observing the polarization of the cosmic microwave background (CMB) at 30/40, 95, 150 and 220/270 GHz with over 30,000 detectors.