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arxiv: 1501.05241 · v2 · submitted 2015-01-21 · ⚛️ physics.ins-det · hep-ex

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Mu2e Technical Design Report

L. Bartoszek , E. Barnes , J.P. Miller , J. Mott , A. Palladino , J. Quirk , B.L. Roberts , J. Crnkovic
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V. Polychronakos V. Tishchenko P. Yamin C.-h. Cheng B. Echenard K. Flood D.G. Hitlin J.H. Kim T.S. Miyashita F.C. Porter M. R\"ohrken J. Trevor R.-Y. Zhu E. Heckmaier T.I. Kang G. Lim W. Molzon Z. You A.M. Artikov J.A. Budagov Yu.I. Davydov V.V. Glagolev A.V. Simonenko Z.U. Usubov S.H. Oh C. Wang G. Ambrosio N. Andreev D. Arnold M. Ball R.H. Bernstein A. Bianchi K. Biery R. Bossert M. Bowden J. Brandt G. Brown H. Brown M. Buehler M. Campbell S. Cheban M. Chen J. Coghill R. Coleman C. Crowley A. Deshpande G. Deuerling J. Dey N. Dhanaraj M. Dinnon S. Dixon B. Drendel N. Eddy R. Evans D. Evbota J. Fagan S. Feher B. Fellenz H. Friedsam G. Gallo A. Gaponenko M. Gardner S. Gaugel K. Genser G. Ginther H. Glass D. Glenzinski D. Hahn S. Hansen B. Hartsell S. Hays J.A. Hocker E. Huedem D. Huffman A. Ibrahim C. Johnstone V. Kashikhin V.V. Kashikhin P. Kasper T. Kiper D. Knapp K. Knoepfel L. Kokoska M. Kozlovsky G. Krafczyk M. Kramp S. Krave K. Krempetz R.K. Kutschke R. Kwarciany T. Lackowski M.J. Lamm M. Larwill F. Leavell D. Leeb A. Leveling D. Lincoln V. Logashenko V. Lombardo M.L. Lopes A. Makulski A. Martinez D. McArthur F. McConologue L. Michelotti N. Mokhov J. Morgan A. Mukherjee P. Murat V. Nagaslaev D.V. Neuffer T. Nicol J. Niehoff J. Nogiec M. Olson D. Orris R. Ostojic T. Page C. Park T. Peterson R. Pilipenko A. Pla-Dalmau V. Poloubotko M. Popovic E. Prebys P. Prieto V. Pronskikh D. Pushka R. Rabehl R.E. Ray R. Rechenmacher R. Rivera W. Robotham P. Rubinov V.L. Rusu V. Scarpine W. Schappert D. Schoo A. Stefanik D. Still Z. Tang N. Tanovic M. Tartaglia G. Tassotto D. Tinsley R.S. Tschirhart G. Vogel R. Wagner R. Wands M. Wang S. Werkema H.B. White Jr. J. Whitmore R. Wielgos R. Woods C. Worel R. Zifko P. Ciambrone F. Colao M. Cordelli G. Corradi E. Dane S. Giovannella F. Happacher A. Luca S. Miscetti B. Ponzio G. Pileggi A. Saputi I. Sarra R.S. Soleti V. Stomaci M. Martini P. Fabbricatore S. Farinon R. Musenich D. Alexander A. Daniel A. Empl E.V. Hungerford K. Lau G.D. Gollin C. Huang D. Roderick B. Trundy D.Na. Brown D. Ding Yu.G. Kolomensky M.J. Lee M. Cascella F. Grancagnolo F. Ignatov A. Innocente A. L'Erario A. Miccoli A. Maffezzoli P. Mazzotta G. Onorato G.M. Piacentino S. Rella F. Rossetti M. Spedicato G. Tassielli A. Taurino G. Zavarise R. Hooper D.No. Brown R. Djilkibaev V. Matushko C. Ankenbrandt S. Boi A. Dychkant D. Hedin Z. Hodge V. Khalatian R. Majewski L. Martin U. Okafor N. Pohlman R.S. Riddel A. Shellito A.L. de Gouvea F. Cervelli R. Carosi S. Di Falco S. Donati T. Lomtadze G. Pezzullo L. Ristori F. Spinella M. Jones M.D. Corcoran J. Orduna D. Rivera R. Bennett O. Caretta T. Davenne C. Densham P. Loveridge J. Odell R. Bomgardner E.C. Dukes R. Ehrlich M. Frank S. Goadhouse R. Group E. Ho H. Ma Y. Oksuzian J. Purvis Y. Wu D.W. Hertzog P. Kammel K.R. Lynch J.L. Popp
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classification ⚛️ physics.ins-det hep-ex
keywords experimentmu2edesignprocesssensitivityapprovalapproximatelyarray
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The Mu2e experiment at Fermilab will search for charged lepton flavor violation via the coherent conversion process mu- N --> e- N with a sensitivity approximately four orders of magnitude better than the current world's best limits for this process. The experiment's sensitivity offers discovery potential over a wide array of new physics models and probes mass scales well beyond the reach of the LHC. We describe herein the preliminary design of the proposed Mu2e experiment. This document was created in partial fulfillment of the requirements necessary to obtain DOE CD-2 approval.

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