D
D. Evbota
Researcher at Fermilab
Publications - 15
Citations - 212
D. Evbota is an academic researcher from Fermilab. The author has contributed to research in topics: Solenoid & Mu2e. The author has an hindex of 6, co-authored 15 publications receiving 205 citations.
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Mu2e Conceptual Design Report
R. J. Abrams,D. Alezander,Giorgio Ambrosio,N. Andreev,C.M. Ankenbrandt,D. M. Asner,D. Arnold,A. Artikov,E. Barnes,Larry Bartoszek,R. H. Bernstein,K. Biery,V. Biliyar,R. Bonicalzi,R. Bossert,M. Bowden,J. Brandt,D. N. Brown,J. Budagov,M. Buehler,A. Burov,R. Carcagno,R. M. Carey,R. Carosi,M. Cascella,D. Cauz,F. Cervelli,A. Chandra,J. K. Chang,C. Cheng,Paolo Ciambrone,R. Coleman,M. Cooper,M. C. Corcoran,M. Cordelli,Y. Davydov,A. de Gouvea,L. De Lorenzis,P. T. Debevec,F. DeJongh,C. J. Densham,G. Deuerling,J. Dey,S. Di Falco,S. D. Dixon,Rashid M. Djilkibaev,B. Drendel,E. C. Dukes,A. Dychkant,B. Echenard,R. Ehrlich,N. Evans,D. Evbota,I. Fang,J. Fast,Sandor Feher,M. Fischler,Markus Frank,E. Frlez,S. S. Fung,G. Gallo,G. Galucci,A. Gaponenko,K. Genser,S. Giovannella,V. V. Glagolev,D. Glenzinski,Dario Gnani,S. Goadhouse,G. D. Gollin,Carl Grace,F. Grancagnolo,J. Hanson,Stephen José Hanson,F. Happacher,E. Heckmaier,D. Hedin,D. W. Hertzog,Robert Hirosky,D. G. Hitlin,E. Ho,X. Huang,E. Huedem,P. Q. Hung,E. V. Hungerford,T. Ito,W. Jaskierny,R. Jedziniak,Randall P. Johnson,Carol Johnstone,J. Johnstone,S.A. Kahn,P. Kammel,T. I. Kang,V.S. Kashikhin,V.V. Kashikhin,P. H. Kasper,D. M. Kawall,V. Khalatian,M. Kim,A. Klebaner,D. Kocen,Yu.G. Kolomensky,I. Kourbanis,Jim Kowalkowski,J. Kozminski,K. Krempetz,K. S. Kumar,Robert K. Kutschke,R Kwarciany,T. Lackowski,M.J. Lamm,M. Larwill,K. Lau,M. J. Lee,A. L'Erario,T. Leveling,G. Lim,C. Lindenmeyer,V. Logashenko,T. Lontadze,M. L. Lopes,A. Luca,K. R. Lynch,T. Ma,Alfonso Maffezzoli,William J. Marciano,M. Martini,W. Masayoshi,V. Matushko,M. McAteer,R. McCrady,A. Moccoli,L. Michelotti,J. P. Miller,S. Miscetti,W. R. Molzon,J. Morgan,A. Mukherjee,S. Nagaitsev,V. Nagaslaev,J. Niehoff,David Neuffer,Thomas H. Nicol,Andrew Norman,B. Norris,J. Odell,S. Oh,Y. Oksuzian,G. Onorato,J. Orduna,D.F. Orris,R. Ostojic,T. Page,Kent Paschke,G. Pauletta,T.J. Peterson,G. Piacentino,G. Pileggi,Anna Pla-Dalmau,Dinko Pocanic,C. C. Polly,Venetios Polychronakos,B. Ponzio,Milorad Popovic,James L. Popp,F. C. Porter,E. Presbys,P. Prieto,Vitaly Pronskikh,F. Puccinelli,R. Rabehl,Joseph D. Ramsey,R. E. Ray,R. Rechenmacher,Simona Rella,Luciano Ristori,R. Rivera,B. L. Roberts,T. J. Roberts,P. Rubinov,V. Rusu,A. Saputi,I. Sarra,Y. Smertzidis,P. Shanahan,A. Simonenko,J. Steward,I. Suslov,C. Sylvester,Z. Tang,M.A. Tartaglia,G. F. Tassielli,V. Tereshchenko,J. Theilacker,J.C. Tompkins,R. Tschirhart,G. Van Zandbergen,C. Vannini,G. Venanzoni,H. von der Lippe,R. L. Wagner,J.-P. Walder,R. Walton,S. Wands,S. Wang,G. Warren,Steven Werkema,H. B. White,R. Wielgos,Lynn Wood,M. Woodward,J. Wu,M. Xiao,R. Yamada,P. Yamin,K. Yarritu,Katsuya Yonehara,C. Yoshikawa,Z. You,G. Yu,A. Yurkewicz,Giorgio Zavarise,R. Y. Zhu +223 more
TL;DR: The Mu2e experiment at Fermilab will search for charged lepton flavor violation via the coherent conversion process with a sensitivity approximately four orders of magnitude better than the current world's best limits for this process.
Journal ArticleDOI
Mu2e Transport Solenoid Prototype Tests Results
M. L. Lopes,Giorgio Ambrosio,Karie Badgley,Joseph DiMarco,D. Evbota,P. Fabbricatore,S. Farinon,Sandor Feher,Horst W. Friedsam,Artur Galt,S. Hays,J.A. Hocker,M. J. Kim,Lidija Kokoska,Sergey Koshelev,S. Kotelnikov,M.J. Lamm,A. Makulski,Maxim Marchevsky,R. Nehring,J. Nogiec,D.F. Orris,Roman Pilipenko,Roger Rabehl,C Santini,C. Sylvester,M.A. Tartaglia +26 more
TL;DR: The Fermilab Mu2e experiment has been developed to search for evidence of charged lepton flavor violation through the direct conversion of muons into electrons as mentioned in this paper, where the transport solenoid is an s-shaped magnet that guides the muons from the source to the stopping target.
Journal ArticleDOI
Solenoid Magnet System for the Fermilab Mu2e Experiment
M.J. Lamm,N. Andreev,Giorgio Ambrosio,J. Brandt,R. Coleman,D. Evbota,V.V. Kashikhin,M. L. Lopes,J. P. Miller,Thomas H. Nicol,R. Ostojic,T. Page,T. Peterson,James L. Popp,Vitaly Pronskikh,Z. Tang,M. Tartaglia,Masayoshi Wake,R. Wands,Ryuji Yamada +19 more
TL;DR: In this article, a conceptual design for the magnetic system which meets the Fermilab Mu2e experiment requirements is presented, where the magnetic field requirements, the significant magnetic coupling between the solenoids, the curved muon transport geometry and the large beam induced energy deposition into the superconducting coils pose significant challenges to the magnetic, mechanical and thermal design of this system.
Journal ArticleDOI
Challenges and Design of the Transport Solenoid for the Mu2e Experiment at Fermilab
Giorgio Ambrosio,N. Andreev,Sergey Cheban,R. Coleman,N. Dhanaraj,D. Evbota,Sandor Feher,V.V. Kashikhin,M.J. Lamm,V. Lombardo,M. L. Lopes,J. P. Miller,Thomas H. Nicol,D.F. Orris,T. Page,T.J. Peterson,Vitaly Pronskikh,W. Schappert,M.A. Tartaglia,R. Wands +19 more
TL;DR: In this article, the conceptual design of the Transport Solenoid is presented and discussed focusing on coupling issues and the proposed solutions, and the quench protection system should handle all possible quench and failure scenarios in all three solenoids.
Journal ArticleDOI
Tolerance Studies of the Mu2e Solenoid System
M. L. Lopes,Giorgio Ambrosio,M. Buehler,R. Coleman,D. Evbota,Sandor Feher,V.V. Kashikhin,M.J. Lamm,J. P. Miller,Giacomo Moretti,R. Ostojic,T. Page,James L. Popp,M.A. Tartaglia +13 more
TL;DR: In this article, Tolerance sensitivity studies of the magnet system were performed with the objective of demonstrating that the present magnet design meets all the field requirements, which helps to identify the critical sources of errors and which are translated to coil manufacturing and mechanical support tolerances.