W
W. DeGraw
Publications - 2
Citations - 305
W. DeGraw is an academic researcher. The author has contributed to research in topics: Ion & Electron. The author has an hindex of 1, co-authored 1 publications receiving 57 citations.
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Science Requirements and Detector Concepts for the Electron-Ion Collider: EIC Yellow Report
R. Abdul Khalek,Alberto Accardi,Jaroslav Adam,D. Adamiak,W. Akers,Miguel Albaladejo,A. Al-bataineh,M.G. Alexeev,F. Ameli,Pietro Antonioli,Néstor Armesto,Whitney Armstrong,Miguel Arratia,J. Arrington,A. Asaturyan,M. Asai,E. C. Aschenauer,S. Aune,H. Avagyan,C. Ayerbe Gayoso,B. Azmoun,Alessandro Bacchetta,M. D. Baker,Francisco Geraldo Barbosa,L. Barion,K. N. Barish,Patrick Barry,M. Battaglieri,A. Bazilevsky,N. K. Behera,Fatiha Benmokhtar,V. V. Berdnikov,Jan C. Bernauer,V. Bertone,S. Bhattacharya,C. Bissolotti,Daniël Boer,Mariaelena Boglione,M. Bondì,P. Boora,Ignacio Borsa,F. Bossu,Giuseppe Bozzi,James Brandenburg,N. Brei,Andrea Bressan,William Brooks,S. Bufalino,Masroor H. S. Bukhari,Volker D. Burkert,N. H. Buttimore,Alexandre Camsonne,A. Celentano,Francesco Giovanni Celiberto,W. Chang,C. Chatterjee,K. Chen,T. Chetry,T. Chiarusi,Y. T. Chien,M. Chiosso,X. Chu,E. Chudakov,G. Cicala,E. Cisbani,Ian C. Cloët,C. Cocuzza,P. L. Cole,D. Colella,J. Collins,Martha Constantinou,M. Contalbrigo,Giacomo Contin,R. Corliss,Wim Cosyn,Aurore Courtoy,J. Crafts,R. Cruz-Torres,R. C. Cuevas,Umberto D'Alesio,S. Dalla Torre,D. Das,S.S. Dasgupta,C. L. Da Silva,Wouter Deconinck,Maxime Defurne,W. DeGraw,K. Dehmelt,A. Del Dotto,Filippo Delcarro,Abhay Deshpande,W. Detmold,R. De Vita,Markus Diefenthaler,C. Dilks,D. U. Dixit,Sayipjamal Dulat,Adrian Dumitru,R. Dupre,J. M. Durham,Miguel G. Echevarria,L. El Fassi,D. Elia,Rolf Ent,Roli Esha,Jacob J. Ethier,Olga Evdokimov,K. O. Eyser,C. Fanelli,R. Fatemi,S. Fazio,César Fernández-Ramírez,M. Finger,D. Fitzgerald,Carlo Flore,Tobias Frederico,Ivica Friščić,S. Fucini,Sergey Furletov,Yulia Furletova,C. Gal,Leonard Gamberg,H. Gao,P. Garg,D. Gaskell,K. Gates,Michael Gericke,Gustavo Gil Da Silveira,F. X. Girod,D. I. Glazier,Kondo Gnanvo,Victor P. Goncalves,L. Gonella,J. O. Gonzalez Hernandez,Y. Goto,F. Grancagnolo,Leo Clifford Greiner,W. Guryn,V. Guzey,Yoshitaka Hatta,M. Hattawy,F. Hauenstein,X. He,T. K. Hemmick,Or Hen,G. Heyes,Douglas Higinbotham,A. N. Hiller Blin,Timothy Hobbs,Marcus Hohlmann,Tanja Horn,T. J. Hou,J. Huang,Q. Huang,G. M. Huber,C. E. Hyde,G. Iakovidis,Yordanka Ilieva,B. V. Jacak,Peter Martin Jacobs,M. Jadhav,Z. Janoska,Alexander Jentsch,T. Jezo,X. Jing,P. G. Jones,K. Joo,S. Joosten,V. Kafka,N. Kalantarians,G. Kalicy,D. Kang,Zhong-Bo Kang,K. Kauder,S. Kay,C. E. Keppel,J. Kim,Alexander Kiselev,Michael Klasen,S. R. Klein,H. T. Klest,O. Korchak,A. Kostina,P. Kotko,Yuri V. Kovchegov,M. Krelina,Sergey Kuleshov,S. Kumano,K. S. Kumar,Ramandeep Kumar,Lokesh Kumar,Krešimir Kumerički,Aleksander Kusina,Krzysztof Kutak,Y. S. Lai,K. Lalwani,Tuomas Lappi,J. Lauret,M. Lavinsky,D. Lawrence,D. Lednicky,C. Lee,Kyle Lee,S. H. Lee,S. Levorato,H. Li,S. Li,W. Li,X. Li,W. B. Li,T. Ligonzo,H. Liu,M. X. Liu,Xiaohui Liu,Simonetta Liuti,Nilanga Liyanage,Cédric Lorcé,Z. Lu,Gonzalo Lucero,N. S. Lukow,E. Lunghi,R. D. Majka,Yiannis Makris,I. Mandjavidze,Sonny Mantry,Heikki Mäntysaari,Frank Marhauser,Pete Markowitz,L. Marsicano,A. Mastroserio,Vincent Mathieu,Yacine Mehtar-Tani,Wolodymyr Melnitchouk,Leticia Cunqueiro Mendez,Andreas Metz,Z. E. Meziani,C. Mezrag,M. Mihovilovic,Ross Milner,M. Mirazita,H. Mkrtchyan,A. Mkrtchyan,V. V. Mochalov,V. Moiseev,M. M. Mondal,A. Morreale,D. P. Morrison,L. Motyka,H. Moutarde,C. Munoz Camacho,Francesco Murgia,Michael Murray,P. Musico,Pawel Nadel-Turonski,Pavel M. Nadolsky,J. Nam,Paul Newman,D. Neyret,D. Nguyen,Emanuele R. Nocera,F. Noferini,F. Noto,A. S. Nunes,Vitaly Okorokov,F. I. Olness,J. D. Osborn,B. S. Page,S. Park,Ashley Parker,Kent Paschke,B. Pasquini,Hannu Paukkunen,S. Paul,C. Pecar,Ian L. Pegg,C. Pellegrino,C. Peng,Lubomir Pentchev,Roberto Perrino,F. Petriello,R. J. Petti,Alessandro Pilloni,C. Pinkenburg,Bernard Pire,Cristian Pisano,Daniel Pitonyak,A. A. Poblaguev,Tomas Polakovic,M. Posik,M. Potekhin,R. Preghenella,S. Preins,A. Prokudin,Prabhat Ranjan Pujahari,Martin Purschke,J.R. Pybus,Marco Radici,Renuka Rajput-Ghoshal,P. E. Reimer,Matteo Rinaldi,Felix Ringer,Craig D. Roberts,S. Rodini,Juan Rojo,D. Romanov,P. Rossi,Elena Santopinto,M. Sarsour,R. Sassot,N. Sato,Björn Schenke,W. B. Schmidke,I. Schmidt,Alexander Schmidt,B. Schmookler,G. Schnell,Peter Schweitzer,J. Schwiening,Ignazio Scimemi,Sergio Scopetta,Jorge Segovia,R. Seidl,Stephen Sekula,K. Semenov-Tian-Shanskiy,D. Y. Shao,N. Sherrill,E. P. Sichtermann,M. Siddikov,Andrea Signori,Brajesh K. Singh,Simon Širca,Karl Slifer,W. Slominski,D. Sokhan,W. E. Sondheim,Y. Song,O. Soto,Hubert Spiesberger,A. Stasto,P. Stepanov,George Sterman,J. R. Stevens,Iain W. Stewart,I. I. Strakovsky,Mark Strikman,M. Sturm,M. Stutzman,M. K. Sullivan,Bernd Surrow,P. Svihra,S. Syritsyn,Adam P. Szczepaniak,P. Sznajder,H. Szumila-Vance,L. Szymanowski,A. S. Tadepalli,J. D. Tapia Takaki,G. Tassielli,John Terry,F. Tessarotto,Kemal Tezgin,L. Tomášek,F. Torales Acosta,Prithwish Tribedy,A. Tricoli,Triloki,S. Tripathi,Richard Trotta,O. D. Tsai,Z. Tu,Cristina Tuve,T. Ullrich,M. Ungaro,G. M. Urciuoli,A. Valentini,P. Vancura,M. Vandenbroucke,C. B. Van Hulse,G. Varner,Raju Venugopalan,Ivan Vitev,Aleksey Vladimirov,G. Volpe,A. Vossen,E. Voutier,Jakub Wagner,S. Wallon,H. Wang,Q. Wang,X. Wang,S. Y. Wei,Christian Weiss,T. Wenaus,H. Wennlöf,N. Wickramaarachchi,A. Wikramanayake,D. Winney,C. P. Wong,C. L. Woody,L. Xia,Bo-Wen Xiao,J. Xie,H. Xing,Q. H. Xu,Jie Zhang,S. Zhang,Z. Zhang,Z. W. Zhao,Y. X. Zhao,L. Zheng,Y. Zhou,Pia Zurita +411 more
TL;DR: The physics case, the resulting detector requirements, and the evolving detector concepts for the experimental program at the Electron-Ion Collider are described, providing the basis for a world-class experimental program that aims to increase the understanding of the fundamental structure of all visible matter.
First observation of cyclotron radiation from MeV-scale ${\rm e}^{pm}$ following nuclear beta decay
W. A. Byron,H.L. Harrington,Robert Joseph Taylor,W. DeGraw,N. Buzinsky,Berg Dodson,Martin Fertl,A. García,G. T. Garvey,B. Graner,M. Guigue,L. Hayen,X. Huyan,K. S. Khaw,K. E. Knutsen,D. McClain,Dan Melconian,P. E. Mueller,E. Novitski,N. S. Oblath,R. G. H. Robertson,G Rybka,Guy Savard,E. Smith,Daniel D. Stancil,Matthew Sternberg,Derek Storm,H. E. Swanson,Jonathan R. Tedeschi,B.A. VanDevender,Fred E. Wietfeldt,G. R. Young,X. Zhu +32 more
TL;DR: In this article , the cyclotron frequency of the radiating beta particles in a magnetic field is used to determine the beta energy precisely, which can be applied to a variety of nuclei, in particular, opening its reach to searches for evidence of new physics beyond the TeV scale via precision beta-decay measurements.