Feasibility studies of time-like proton electromagnetic form factors at PANDA at FAIR

The results of simulations for future measurements of electromagnetic form factors at \PANDA (FAIR) within the PandaRoot software framework are reported. The statistical precision at which the proton form factors can be determined is estimated. The signal channel $\bar p p \to e^+ e^-$ is studied on the basis of two different but consistent procedures. The suppression of the main background channel, i.e. the $\bar p p \to \pi^+ \pi^-$, is studied. Furthermore, the background versus signal efficiency, statistic and systematic uncertainties on the extracted proton form factors are evaluated using to the two different procedures. The results are consistent with those of a previous simulation study using an older, simplified framework. However, a slightly better precision is achieved in the PandaRoot study in a large range of momentum transfer, assuming the nominal beam condition and detector performances.

D. Grunwald | J. Lange | M. Steinke | P. Balanutsa | M. Macrì | F. Balestra | K. Swientek | K. Korcyl | V. Malyshev | B. Mindur | D. Pantea | K. Peters | H. Stenzel | Y. Tikhonov | B. Yabsley | M. Idzik | B. Frohlich | A. Bressan | M. Kube | V. Bobrovnikov | D. Dutta | A. Mohanty | V. Grishin | V. Kachanov | A. Uzunian | V. Abazov | G. Alexeev | V. Tokmenin | Y. Liang | Y. Wang | A. Zambanini | M. Albrecht | A. C. Ramusino | N. Skachkov | A. Drago | M. Ball | G. Kemmerling | A. Magiera | B. Roy | J. Smyrski | K. Suzuki | A. Hayrapetyan | T. Fiutowski | P. Schakel | T. Stockmanns | M. Krebs | S. Maldaner | C. Ugur | M. Cardinali | A. Gerhardt | H. Kumawat | D. Lehmann | M. Patsyuk | G. Schepers | L. Schmitt | C. Schwarz | J. Schwiening | M. Traxler | V. Dodokhov | A. Britting | W. Eyrich | A. Lehmann | F. Uhlig | J. Rieke | G. Rosner | P. Achenbach | O. Corell | M. Hoek | W. Lauth | C. Sfienti | M. Thiel | P. Buhler | L. Gruber | J. Marton | M. Destefanis | M. Maggiora | V. Rigato | A. Derevschikov | N. Minaev | L. Nogach | A. Yakutin | A. Bianconi | R. Schnell | M. Bohm | A. Olshevskiy | T. Saito | J. Biernat | L. Cao | S. Marcello | E. Prencipe | S. Reiter | S. Leiber | H. Liu | P. Montagna | V. Jha | A. Karavdina | L. Bianchi | C. Hammann | P. Genova | A. Rotondi | T. Sefzick | V. Goryachev | F. Heinsius | A. Vodopianov | B. Krusche | G. Korcyl | W. Krzemień | E. Widmann | J. Zmeskal | A. Barnyakov | A. Roy | D. Melnychuk | O. Missevitch | X. Shen | V. Abramov | M. Greco | A. Skachkova | A. Levin | A. Wilson | K. Beloborodov | V. Blinov | H. Deppe | M. Savrié | A. Chłopik | B. Batyunya | G. Boca | S. Costanza | P. Gianotti | S. Grigoryan | B. Ketzer | I. Kisel | C. Kobdaj | L. Malinina | J. Wessels | A. Vasiliev | M. Zambrana | T. Pocheptsov | S. Coli | G. Shabratova | A. Fedunov | A. Rivetti | G. Giraudo | S. Zaporozhets | M. Zyzak | A. Szczurek | H. Xu | M. Al-Turany | S. Ahmed | A. Amoroso | D. Bettoni | A. Dbeyssi | F. Mori | L. Fava | F. Feldbauer | E. Fioravanti | I. Garzia | T. Held | T. Holtmann | W. Andersson | T. Johansson | M. Kavatsyuk | A. Khoukaz | R. Kliemt | B. Kopf | A. Kupść | L. Lavezzi | H. Leithoff | B. Liu | S. Lusso | F. Maas | J. Messchendorp | C. Morales | A. Mustafa | F. Nerling | M. Papenbrock | J. Pettersson | A. Pitka | M. Richter | C. Schnier | S. Sosio | C. Sowa | S. Spataro | M. Tiemens | T. Weber | U. Wiedner | M. Wolke | Y. Yan | J. Zhao | M. Korjik | A. Filippi | E. Kravchenko | A. Onuchin | I. Keshk | W. Kuhn | A. E. Blinov | P. Marciniewski | P. Remigis | E. Koshurnikov | V. Lobanov | M. Mignone | R. Wheadon | A. Belias | A. Bersani | S. Dobbs | K. Seth | A. Tomaradze | T. Xiao | M. Krawczyk | V. Uzhinsky | R. Valente | N. Zhuravlev | V. Carassiti | M. Barabanov | P. Wintz | J. Putz | A. Dolgolenko | S. Li | A. Fedorov | K. Makónyi | P. Tegner | L. Isaksson | C. Rosenbaum | W. Erni | J. D́ıaz | D. Przyborowski | A. Galoyan | P. Moskal | Z. Rudy | P. Salabura | M. Preston | H. Calén | U. Thoma | D. Branford | M. Steinacher | Z. Liu | C. Wang | M. Fink | H. Koch | M. Kuhlmann | M. Mikirtychyants | P. Musiol | J. Pychy | T. Triffterer | R. Beck | P. Mahlberg | M. Rossbach | C. Schmidt | R. Schmitz | D. Walther | C. Wendel | M. Bragadireanu | M. Caprini | B. Patel | W. Czyżycki | M. Domagala | G. Filo | E. Lisowski | F. Lisowski | A. Kozela | P. Kulessa | P. Lebiedowicz | K. Pysz | B. Kamys | S. Kistryn | P. Strzempek | A. Wrońska | I. Augustin | I. Lehmann | L. Capozza | R. Dzhygadlo | A. Ehret | H. Flemming | R. Karabowicz | U. Kurilla | H. Orth | B. Voss | P. Wieczorek | A. Wilms | V. Astakhov | Y. Davydov | Y. Lobanov | A. Makarov | E. Perevalova | A. Piskun | G. Pontecorvo | V. Rodionov | Y. Rogov | R. Salmin | A. Samartsev | M. Sapozhnikov | E. Strokovsky | M. Suleimanov | R. Teshev | A. Zorin | D. Glazier | D. Watts | P. Dalpiaz | V. Akishina | A. Gromliuk | C. Guaraldo | V. Lucherini | G. Bracco | R. Parodi | S. Diehl | V. Dormenev | P. Drexler | M. Galuska | E. Gutz | J. Hu | T. Kuske | V. Metag | M. Nanova | R. Novotny | T. Quagli | M. Ullrich | T. Wasem | H. Zaunick | D. Ireland | B. Seitz | P. Deepak | A. Kulkarni | A. Apostolou | M. Babai | P. Lemmens | M. Lindemulder | H. Smit | J. C. Weele | R. Veenstra | S. Vejdani | K. Kalita | A. Kumar | H. Sohlbach | A. Cebulla | R. Dosdall | A. Gillitzer | F. Goldenbaum | A. Herten | Q. Hu | H. Kleines | A. Lehrach | R. Nellen | H. Ohm | S. Orfanitski | D. Prasuhn | J. Ritman | S. Schadmand | V. Serdyuk | G. Sterzenbach | Z. Li | Z. Sun | S. Bleser | M. Deiseroth | A. Denig | M. Distler | M. Fritsch | P. Jasiński | H. Merkel | M. Michel | C. Motzko | O. Noll | J. Pochodzalla | S. Sánchez | S. Schlimme | M. Steinen | V. Balanutsa | V. Chernetsky | A. Demekhin | P. Fedorets | A. Gerasimov | V. Varentsov | A. Boukharov | O. Malyshev | I. Marishev | S. Grieser | V. Chandratre | V. Datar | S. Kononov | I. Kuyanov | A. Sokolov | E. Atomssa | R. Kunne | D. Marchand | B. Ramstein | E. Tomasi-Gustafsson | J. Wiele | N. Belikov | S. Bukreeva | A. Davidenko | Y. Goncharenko | V. Kormilitsin | Y. Melnik | V. Mochalov | D. Morozov | S. Poslavskiy | A. Ryazantsev | S. Ryzhikov | P. Semenov | I. Shein | B. Cederwall | S. Belostotski | G. Gavrilov | A. Izotov | S. Manaenkov | O. Miklukho | D. Veretennikov | A. Rai | S. Godre | M. Bussa | L. Busso | L. Ferrero | G. Maniscalco | D. Calvo | G. Mazza | F. Iazzi | R. Introzzi | A. Lavagno | R. Birsa | F. Bradamante | V. Arefiev | H. Loehner | K. Khosonthongkee | A. Limphirat | C. Fritzsch | A. Taschner | A. Efremov | N. Walford | M. Urban | M. Kummel | A. Parmar | J. Luhning | U. Lynen | N. Husken | S. Wronka | M. Pfaffinger | G. Kozlov | M. Pugach | T. Erlen | C. Hahn | M. Kesselkaul | M. Schmidt | B. Wohlfahrt | B. Gålnander | M. Duren | A. Trzciński | M. Marta | W. Schafer | M. Wagner | P. Wustner | D. Khaneft | K. Dutta | R. Bohm | U. Muller | B. Zwiȩgliński | B. Hetz | M. Wojciechowski | M. Barnyakov | S. Serednyakov | K. Schonning | K. Brinkmann | A. Sanchez-Lorente | B. Slowinski | M. Buscher | A. Pyszniak | A. Fechtchenko | R. Klasen | D. R. Pineiro | I. Zimmermann | P. Srisawad | J. Jaworowski | M. Michałek | D. Marinescu | K. Biguenko | V. D. Pietro | M. Bai | H. Ahmadi | D. Kang | D. Lin | G. Sonika | K. Martin | U. Roy | J. Olave | A. Martin | V. P. Chackara | G. Kęsik | D. Steinschaden | E. Etzelmuller | M. Pelizaus | T. Schroder | K. Gotzen | T. Back | Panda Collaboration B. Singh | S. Jasper | P. Pozna'nski | J. Pla.zek | S. Lochner | M. Zuhlsdorf | S. Nazarenko | U. Thoring | M. C. M. Esp'i | S. Pfluger | A. Hergemoller | A. Zhdanov | D. Wolbing | J. Díaz | J. Hu | D. Pineiro | Y. Liang | K. Suzuki | J. Hu | J. Hu | D. Dutta | R. Novotný | J. Lange | Y. Tikhonov | R. Beck | T. Saito | P. Montagna | G. Gavrilov | A. Chlopik

[1]  전세경 2015 , 2018, Eu minha tía e o golpe do atraso.

[2]  R. Sarpong,et al.  Bio-inspired synthesis of xishacorenes A, B, and C, and a new congener from fuscol† †Electronic supplementary information (ESI) available. See DOI: 10.1039/c9sc02572c , 2019, Chemical science.

[3]  T. Ferber Towards First Physics at Belle II , 2015 .

[4]  K. Perez Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment , 2014 .

[5]  Study of the internal structure of the proton with the PANDA experiment at FAIR , 2013 .

[6]  Stefano Spataro,et al.  Event Reconstruction in the PandaRoot framework , 2012 .

[7]  P. A. Semenov,et al.  Technical Design Report for the: PANDA Micro Vertex Detector , 2012, 1207.6581.

[8]  P. Cochat,et al.  Et al , 2008, Archives de pediatrie : organe officiel de la Societe francaise de pediatrie.

[9]  W. Marsden I and J , 2012 .

[10]  S. Ong,et al.  Regge description of two pseudoscalar meson production in antiproton-proton annihilation , 2010, 1004.2152.

[11]  Orsay,et al.  Technical Design Report for the PANDA Solenoid and Dipole Spectrometer Magnets , 2009, 0907.0169.

[12]  Orsay,et al.  Physics Performance Report for PANDA: Strong Interaction Studies with Antiprotons , 2009, 0903.3905.

[13]  New possibility for further measurements of nucleon form factors at large momentum transfer in time-like region: $\bar{p}+{p}\to \ell^+ +\ell^-$, $\ell=e$ or $\mu$ , 2008, 0810.4245.

[14]  Orsay,et al.  Technical Design Report for PANDA Electromagnetic Calorimeter (EMC) , 2008, 0810.1216.

[15]  M. Berz,et al.  Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment: Editorial , 2006 .

[16]  C. Bini,et al.  A description of the ratio between electric and magnetic proton form factors by using space-like, time-like data and dispersion relations , 2005, hep-ph/0507085.

[17]  M. Rekalo,et al.  Search for evidence of asymptotic regime of nucleon electromagnetic form factors from a compared analysis in space- and time-like regions , 2001 .

[18]  F. Gasparini,et al.  Determination of the electric and magnetic form factors of the proton in the time-like region , 1994 .

[19]  White,et al.  Comparison of 20 exclusive reactions at large t. , 1994, Physical review. D, Particles and fields.

[20]  S. Berman,et al.  Nuovo Cimento , 1983 .

[21]  T. Buran,et al.  Antiproton-proton annihilation into π+π− and K+K− at 6.2 GeV/c , 1976 .

[22]  A. Astbury,et al.  Measurement of differential cross sections for antiproton-proton annihilation into charged pion and kaon pairs between 0.79 and 243 GeV/c , 1975 .

[23]  M. Davier,et al.  Elastic scattering and two-body annihilations at 5 GeV/c , 1973 .

[24]  R. Gatto,et al.  Proton-antiproton annihilation into electrons, muons and vector bosons , 1962 .

[25]  R. E. Casten,et al.  Nuclear Physics , 1935, Nature.