22 research outputs found
Spin density matrix of the ω in the reaction p¯p→ωπ0
- Author
- Amsler C.Physik-Institut der Universität Zürich, 8057, Zurich, Switzerland
- Heinsius F. H.(Ruhr-Universität Bochum, 44801, Bochum, Germany)
- Koch H.(Ruhr-Universität Bochum, 44801, Bochum, Germany)
- Kopf B.(Ruhr-Universität Bochum, 44801, Bochum, Germany)
- Kurilla U.(Ruhr-Universität Bochum, 44801, Bochum, Germany)
- Meyer C. A.(Carnegie Mellon University, 15213, Pittsburgh, PS, USA)
- Peters K.(Ruhr-Universität Bochum, 44801, Bochum, Germany)
- Pychy J.(Ruhr-Universität Bochum, 44801, Bochum, Germany)
- Steinke M.(Ruhr-Universität Bochum, 44801, Bochum, Germany)
- Wiedner U.(Ruhr-Universität Bochum, 44801, Bochum, Germany)
- Publication venue
- Publication date
- Field of study
The spin density matrix of the ω has been determined for the reaction p¯p→ωπ0 with unpolarized in-flight data measured by the Crystal Barrel LEAR experiment at CERN. The two main decay modes of the ω into π0γ and π+π-π0 have been separately analyzed for various p¯ momenta between 600 and 1940 MeV/c. The results obtained with the usual method by extracting the matrix elements via the ω decay angular distributions and with the more sophisticated method via a full partial wave analysis are in good agreement. A strong spin alignment of the ω is clearly visible in this energy regime and all individual spin density matrix elements exhibit an oscillatory dependence on the production angle. In addition, the largest contributing orbital angular momentum of the p¯p system has been identified for the different beam momenta. It increases from Lp¯pmax = 2 at 600 MeV/c to Lp¯pmax = 5 at 1940 MeV/c
Technical Design Report for PANDA Electromagnetic Calorimeter (EMC)
- Author
- A. A. Derevschikov(Serpukhov IHEP)
- A. A. Efremov(Dubna JINR)
- A. A. Fedorov(Belarus State U)
- A. A. Feshchenko(Dubna JINR)
- A. A. Piskun(Dubna JINR)
- A. Amoroso(Turin U)
- A. Arefiev(Dubna JINR)
- A. Bersani(INFN Genoa)
- A. Bianconi(Brescia U)
- A. Boukharov(Moscow Power Engineering Institute)
- A. Braghieri(Pavia U. & INFN Pavia)
- A. Bressan(Trieste U. & INFN Trieste)
- A. Bubak(Groningen KVI)
- A. Budzanowski(Cracow INP)
- A. Cecchi(Ferrara U. & INFN Ferrara)
- A. Chlopik(Warsaw Inst. Nucl. Studies)
- A. Demekhin(Moscow ITEP)
- A. Dolgolenko(Moscow ITEP)
- A. E. Yakutin(Serpukhov IHEP)
- A. F. Makarov(Dubna JINR)
- A. Feliciello(INFN Turin)
- A. Filippi(INFN Turin)
- A. Fontana(Pavia U. & INFN Pavia)
- A. G. Fedunov(Dubna JINR)
- A. G. Samartsev(Dubna JINR)
- A. G. Zorin(Dubna JINR)
- A. Gerasimov(Moscow ITEP)
- A. Gillitzer(Julich Forschungszentrum)
- A. Grasso(Turin U)
- A. Gruber(Vienna OAW)
- A. Hayrapetyan(Giessen U)
- A. Itzotov(St. Petersburg INP)
- A. K. Biegun(Groningen KVI)
- A. Karmokov(Dubna JINR)
- A. Khoukaz(Munster U. ITP)
- A. Kisselev(St. Petersburg INP)
- A. Kozela(Cracow INP)
- A. Kupsc(Uppsala U)
- A. Lehmann(Erlangen - Nuremberg U)
- A. Lehrach(Julich Forschungszentrum)
- A. M. Davidenko(Serpukhov IHEP)
- A. Magiera(Jagiellonian U)
- A. Mann(Munich Tech. U)
- A. Martin(Trieste U. & INFN Trieste)
- A. N. Skachkova(Dubna JINR)
- A. N. Vasiliev(Serpukhov IHEP)
- A. Olshevski(Dubna JINR)
- A. Ortiz(Valencia U)
- A. P. Meschanin(Serpukhov IHEP)
- A. Rivetti(INFN Turin)
- A. Rotondi(Pavia U. & INFN Pavia)
- A. S. Galoyan(Dubna JINR)
- A. S. Vodopianov(Dubna JINR)
- A. Sanchez-Lorente(Mainz U. Inst. Phys)
- A. Semenov(Moscow Power Engineering Institute)
- A. Shabratova(Dubna JINR)
- A. Szczurek(Cracow INP)
- A. Taeschner(Munster U. ITP)
- A. Teufel(Erlangen - Nuremberg U)
- A. Tomaradze(Northwestern U)
- A. Tudorache(Bukarest-Magurele U)
- A. V. Ryazantsev(Serpukhov IHEP)
- A. V. Uzunian(Serpukhov IHEP)
- A. Wilms(Darmstadt GSI)
- A. Wronska(Jagiellonian U)
- A. Zhadanov(St. Petersburg INP)
- B. Cederwall(Royal Inst. Tech. Stockholm)
- B. Czech(Cracow INP)
- B. Dulach(Frascati)
- B. Hoeistad(Uppsala U)
- B. Kamys(Jagiellonian U)
- B. Ketzer(Munich Tech. U)
- B. Kopf(Ruhr U. Bochum)
- B. Krusche(Basel U)
- B. Lewandowski(Darmstadt GSI)
- B. McKinnon(Glasgow U)
- B. Ramstein(Orsay IPN)
- B. Schroeder(Lund U)
- B. Seitz(Glasgow U)
- B. Slowinski(Otwock-Swierk Inst. Atomic Energy)
- B. Tann(Northwestern U)
- B. V. Batyunya(Dubna JINR)
- B. Voss(Darmstadt GSI)
- B. Zwieglinski(Warsaw Inst. Nucl. Studies)
- C. Bargholtz(Stockholm U)
- C. Ekstroem(TSL Uppsala)
- C. Guaraldo(Frascati)
- C. Hoeppner(Munich Tech. U)
- C. J. Schmidt(Darmstadt GSI)
- C. Salz(Giessen U)
- C. Schwarz(Darmstadt GSI)
- C. Sfienti(Catania U. & INFN Catania)
- C. Strackbein(Giessen U)
- D. -O. Riska(Helsinki U)
- D. A. Konstantinov(Serpukhov IHEP)
- D. A. Morozov(Serpukhov IHEP)
- D. Alberto(Turin U)
- D. Bettoni(Ferrara U. & INFN Ferrara)
- D. Branford(Edinburgh U)
- D. Calvo(INFN Turin)
- D. Gil(Jagiellonian U)
- D. Glazier(Edinburgh U)
- D. Grunwald(Julich Forschungszentrum)
- D. Ireland(Glasgow U)
- D. Lehmann(Darmstadt GSI)
- D. MacGregor(Glasgow U)
- D. Melnychuk(Warsaw Inst. Nucl. Studies)
- D. Mishra(Darmstadt GSI)
- D. Pantea(Bukarest-Magurele U)
- D. Panzieri(Piemonte Orientale U. Alessandria)
- D. Prasuhn(Julich Forschungszentrum)
- D. Protopopescu(Glasgow U)
- D. Przemyslaw(Otwock-Swierk Inst. Atomic Energy)
- D. Veretennikov(St. Petersburg INP)
- D. Watts(Edinburgh U)
- E. A. Perevalova(Dubna JINR)
- E. A. Strokovsky(Dubna JINR)
- E. Baldin(Novosibirsk IYF)
- E. Bialkowski(Cracow INP)
- E. Botta(Turin U)
- E. Cowie(Glasgow U)
- E. Downie(Glasgow U)
- E. Fioravanti(Ferrara U. & INFN Ferrara)
- E. Guliyev(Groningen KVI)
- E. K. Koshurnikov(Dubna JINR)
- E. Lisowski(Cracow Tech. U)
- E. Pace(Frascati)
- E. Rapisarda(Catania U. & INFN Catania)
- E. Thome(Uppsala U)
- E. Widmann(Vienna OAW)
- F. -H. Heinsius(Ruhr U. Bochum)
- F. Bradamante(Trieste U. & INFN Trieste)
- F. De Mori(Turin U)
- F. Feldbauer(Ruhr U. Bochum)
- F. Garcia(Helsinki U)
- F. Giacoppo(Catania U. & INFN Catania)
- F. Iazzi(Turin Polytechnic)
- F. Lisowski(Cracow Tech. U)
- F. Maas(Darmstadt GSI)
- F. Tosello(INFN Turin)
- G. A. Mustafaev(Dubna JINR)
- G. Alexeev(Dubna JINR)
- G. Boca(Pavia U. & INFN Pavia)
- G. Gavrilov(St. Petersburg INP)
- G. Giraudo(INFN Turin)
- G. Hill(Glasgow U)
- G. Kemmerling(Julich Forschungszentrum)
- G. Mazza(INFN Turin)
- G. Pontecorvo(Dubna JINR)
- G. Raciti(Catania U. & INFN Catania)
- G. Rosner(Glasgow U)
- G. S. Shabratova(Dubna JINR)
- G. Schepers(Darmstadt GSI)
- G. Serbanut(Turin U)
- G. Stancari(Ferrara U. & INFN Ferrara)
- G. Yang(Glasgow U)
- H. -G. Zaunick(Dresden Tech. U)
- H. Calen(Uppsala U)
- H. Clement(Tubingen U)
- H. Deppe(Darmstadt GSI)
- H. Flemming(Darmstadt GSI)
- H. Freiesleben(Dresden Tech. U)
- H. Kleines(Julich Forschungszentrum)
- H. Koch(Ruhr U. Bochum)
- H. Liu(Beijing Inst. High Energy Phys)
- H. Loehner(Groningen KVI)
- H. Ohm(Julich Forschungszentrum)
- H. Orth(Darmstadt GSI)
- H. Smit(Groningen KVI)
- H. Stenzel(Giessen U)
- H. Xu(Beijing Inst. High Energy Phys)
- H. Xu(Beijing Inst. High Energy Phys)
- I. Augustin(Darmstadt GSI)
- I. Brodski(Giessen U)
- I. Garzia(Ferrara U. & INFN Ferrara)
- I. Keshelashvili(Basel U)
- I. Konorov(Munich Tech. U)
- I. Lehmann(Glasgow U)
- I. Marishev(Moscow Power Engineering Institute)
- J. Becker(Ruhr U. Bochum)
- J. Boucher(Orsay IPN)
- J. C. van der Weele(Groningen KVI)
- J. Diaz(Valencia U)
- J. Gerl(Darmstadt GSI)
- J. Kisiel(Silesia U)
- J. Kopec(Warsaw Inst. Nucl. Studies)
- J. Luehning(Darmstadt GSI)
- J. Marton(Vienna OAW)
- J. Messchendorp(Groningen KVI)
- J. Pochodzalla(Mainz U. Inst. Phys)
- J. Pouthas(Orsay IPN)
- J. Ritman(Julich Forschungszentrum)
- J. Schneider(Giessen U)
- J. Smyrski(Jagiellonian U)
- J. Szewinski(Warsaw Inst. Nucl. Studies)
- J. Van de Wiele(Orsay IPN)
- J. Wessels(Munster U. ITP)
- J. Zhong(Ruhr U. Bochum)
- J. Zlomanczuk(Uppsala U)
- J. Zmeskal(Vienna OAW)
- K. -T. Brinkmann(Dresden Tech. U)
- K. Dmowski(Otwock-Swierk Inst. Atomic Energy)
- K. Foehl(Edinburgh U)
- K. Goetzen(Darmstadt GSI)
- K. Hansen(Lund U)
- K. Korcyl(Jagiellonian U)
- K. Kotov(Novosibirsk IYF)
- K. Livingston(Glasgow U)
- K. Peters(Darmstadt GSI)
- K. Pysz(Cracow INP)
- K. Seth(Northwestern U)
- K. Szymanska(INFN Turin)
- K. Szymanska(INFN Turin)
- K. Traczyk(Warsaw Inst. Nucl. Studies)
- L. Busso(Turin U)
- L. F. Soloviev(Serpukhov IHEP)
- L. Fava(Piemonte Orientale U. Alessandria)
- L. Ferrero(Turin U)
- L. Geren(Stockholm U)
- L. Isaksson(Lund U)
- L. Lavezzi(Pavia U. & INFN Pavia)
- L. Schmitt(Darmstadt GSI)
- L. V. Malinina(Dubna JINR)
- L. V. Nogach(Serpukhov IHEP)
- L. Wojnar(Cracow Tech. U)
- M. A. . Pasyuk(Dubna JINR)
- M. Agnello(Turin Polytechnic)
- M. Al-Turany(Darmstadt GSI)
- M. Babai(Groningen KVI)
- M. Bragadireanu(Bukarest-Magurele U)
- M. Buescher(Julich Forschungszentrum)
- M. C. Mora Espi(Mainz U. Inst. Phys)
- M. De Napoli(Catania U. & INFN Catania)
- M. Destefanis(Turin U)
- M. Domagala(Cracow Tech. U)
- M. Dueren(Giessen U)
- M. G. Sapozhnikov(Dubna JINR)
- M. Greco(Turin U)
- M. Hawryluk(Cracow Tech. U)
- M. Hoek(Glasgow U)
- M. K. Suleimanov(Dubna JINR)
- M. Kavatsyuk(Groningen KVI)
- M. Kistryn(Cracow INP)
- M. Kotulla(Giessen U)
- M. Liu(Giessen U)
- M. Lundin(Lund U)
- M. Macri(INFN Genoa)
- M. Maggiora(Turin U)
- M. Marinelli(INFN Genoa)
- M. Mertens(Julich Forschungszentrum)
- M. Murray(Glasgow U)
- M. Nanova(Giessen U)
- M. Negrini(Ferrara U. & INFN Ferrara)
- M. P. Bussa(Turin U)
- M. Pelizaeus(Ruhr U. Bochum)
- M. Plominski(Warsaw Inst. Nucl. Studies)
- M. Roeder(Julich Forschungszentrum)
- M. Savri`e(Ferrara U. & INFN Ferrara)
- M. Steinacher(Basel U)
- M. Steinke(Ruhr U. Bochum)
- M. Sudol(Orsay IPN)
- M. Thiel(Giessen U)
- M. V. Korzhik(Belarus State U)
- M. Yu. Barabanov(Dubna JINR)
- N. B. Skachkov(Dubna JINR)
- N. G. Minaev(Serpukhov IHEP)
- N. I. Belikov(Serpukhov IHEP)
- N. I. Zhuravlev(Dubna JINR)
- O. Malyshev(Moscow Power Engineering Institute)
- O. Miklukho(St. Petersburg INP)
- O. Morra(INAF-IFSI Turin)
- O. V. Missevitch(Belarus State U)
- O. Wang(Beijing Inst. High Energy Phys)
- P. A. Semenov(Serpukhov IHEP)
- P. Achenbach(Mainz U. Inst. Phys)
- P. Buehler(Vienna OAW)
- P. Dalpiaz(Ferrara U. & INFN Ferrara)
- P. De Remigis(INFN Turin)
- P. Drexler(Giessen U)
- P. E. Tegner(Stockholm U)
- P. Fedorets(Moscow ITEP)
- P. Genova(Pavia U. & INFN Pavia)
- P. Gianotti(Frascati)
- P. Hawranek(Jagiellonian U)
- P. Kienle(Vienna OAW)
- P. Kravchenko(St. Petersburg INP)
- P. Kulessa(Cracow INP)
- P. Marciniewski(Uppsala U)
- P. Montagna(Pavia U. & INFN Pavia)
- P. Moskal(Jagiellonian U)
- P. Rosier(Orsay IPN)
- P. Salabura(Jagiellonian U)
- P. Schoenmeier(Giessen U)
- P. Wieczorek(Darmstadt GSI)
- P. Wintz(Julich Forschungszentrum)
- P. Woods(Edinburgh U)
- P. Wuestner(Julich Forschungszentrum)
- PANDA Collaboration
- Q. Weitzel(Munich Tech. U)
- R. A. Salmin(Dubna JINR)
- R. Bertini(INFN Turin)
- R. Birsa(Trieste U. & INFN Trieste)
- R. Dosdall(Julich Forschungszentrum)
- R. Dzhygadlo(Julich Forschungszentrum)
- R. F. Parodi(INFN Genoa)
- R. Hohler(Darmstadt GSI)
- R. Jaekel(Dresden Tech. U)
- R. Kaiser(Glasgow U)
- R. Kliemt(Dresden Tech. U)
- R. Korzeniewski(Otwock-Swierk Inst. Atomic Energy)
- R. Kunne(Orsay IPN)
- R. Maier(Julich Forschungszentrum)
- R. Novotny(Giessen U)
- R. Schubert(Giessen U)
- R. Sh. Teshev(Dubna JINR)
- R. Siudak(Cracow INP)
- R. Varma(Indian Inst. Tech. Mumbai)
- R. Wheadon(INFN Turin)
- S. A. Zaporozhets(Dubna JINR)
- S. B. Nurushev(Serpukhov IHEP)
- S. Belostotski(St. Petersburg INP)
- S. Borsuk(Warsaw Inst. Nucl. Studies)
- S. Bufalino(Turin U)
- S. Coli(INFN Turin)
- S. Costanza(Pavia U. & INFN Pavia)
- S. Dobbs(Northwestern U)
- S. Fissum(Lund U)
- S. Grape(Uppsala U)
- S. Grigoryan(Dubna JINR)
- S. Kliczewski(Cracow INP)
- S. Lange(Giessen U)
- S. Li(Lanzhou Inst. Modern Phys)
- S. Lumsden(Glasgow U)
- S. Manaenkov(St. Petersburg INP)
- S. Marcello(Turin U)
- S. Neubert(Munich Tech. U)
- S. Ong(Orsay IPN)
- S. Paul(Munich Tech. U)
- S. Peleganchuk(Novosibirsk IYF)
- S. Sanchez(Mainz U. Inst. Phys)
- S. Sosio(Turin U)
- S. Spataro(Giessen U)
- S. Yang(Giessen U)
- St. Kistryn(Jagiellonian U)
- T. A. Pocheptsov(Dubna JINR)
- T. Baeck(Royal Inst. Tech. Stockholm)
- T. Bressani(Turin U)
- T. Clarkson(Glasgow U)
- T. Held(Ruhr U. Bochum)
- T. Hennino(Orsay IPN)
- T. Johansson(Uppsala U)
- T. Keri(Glasgow U)
- T. Kozlowski(Warsaw Inst. Nucl. Studies)
- T. Kugathasan(Turin U)
- T. Randriamalala(Julich Forschungszentrum)
- T. Rausmann(Munster U. ITP)
- T. Saito(Darmstadt GSI)
- T. Schroeder(Ruhr U. Bochum)
- T. Stockmanns(Julich Forschungszentrum)
- T. Wuerschig(Dresden Tech. U)
- T. Zerguerras(Orsay IPN)
- U. Thoering(Giessen U)
- U. Wiedner(Ruhr U. Bochum)
- V. A. Kachanov(Serpukhov IHEP)
- V. A. Kormilitsin(Serpukhov IHEP)
- V. Balanutsa(Moscow ITEP)
- V. Carassiti(Ferrara U. & INFN Ferrara)
- V. Ch. Kudaev(Dubna JINR)
- V. Chernetsky(Moscow ITEP)
- V. Goryachev(Moscow ITEP)
- V. I. Astakhov(Dubna JINR)
- V. I. Dormenev(Belarus State U)
- V. I. Kravtsov(Serpukhov IHEP)
- V. I. Lobanov(Dubna JINR)
- V. Jha(Julich Forschungszentrum)
- V. K. Rodionov(Dubna JINR)
- V. Kh. Dodokhov(Dubna JINR)
- V. L. Malyshev(Dubna JINR)
- V. Lucherini(Frascati)
- V. M. Abazov(Dubna JINR)
- V. Metag(Giessen U)
- V. N. Grishin(Serpukhov IHEP)
- V. S. Jothi(Groningen KVI)
- V. Tudorache(Bukarest-Magurele U)
- V. V. Mochalov(Serpukhov IHEP)
- V. V. Tokmenin(Dubna JINR)
- V. V. Uzhinsky(Dubna JINR)
- V. Vikhrov(St. Petersburg INP)
- W. Czy. zycki(Cracow Tech. U)
- W. Doering(Giessen U)
- W. Erni(Basel U)
- W. Eyrich(Erlangen - Nuremberg U)
- W. Krzemien(Jagiellonian U)
- W. Kuehn(Giessen U)
- W. Schaefer(Cracow INP)
- X. Shen(Beijing Inst. High Energy Phys)
- Y. A. Matulenko(Serpukhov IHEP)
- Y. Heng(Beijing Inst. High Energy Phys)
- Y. M. Goncharenko(Serpukhov IHEP)
- Y. M. Melnik(Serpukhov IHEP)
- Y. Naryshkin(St. Petersburg INP)
- Yu. I. Davydov(Dubna JINR)
- Yu. N. Rogov(Dubna JINR)
- Yu. Tikhonov(Novosibirsk IYF)
- Yu. Yu. Lobanov(Dubna JINR)
- Z. Gagyi-Palffy(Giessen U)
- Z. Guzik(Warsaw Inst. Nucl. Studies)
- Z. Li(Lanzhou Inst. Modern Phys)
- Z. Liu(Beijing Inst. High Energy Phys)
- Z. Metreveli(Northwestern U)
- Z. Rudy(Jagiellonian U)
- Z. Sun(Lanzhou Inst. Modern Phys)
- Publication venue
- Publication date
- Field of study
This document presents the technical layout and the envisaged performance of
the Electromagnetic Calorimeter (EMC) for the PANDA target spectrometer. The
EMC has been designed to meet the physics goals of the PANDA experiment, which
is being developed for the Facility for Antiproton and Ion Research (FAIR) at
Darmstadt, Germany. The performance figures are based on extensive prototype
tests and radiation hardness studies. The document shows that the EMC is ready
for construction up to the front-end electronics interface
The polarization observables T , P , and H and their impact on γp→pπ0 multipoles
- Author
- Anisovich A.V.(Helmholtz–Institut für Strahlen–und Kernphysik, Universität Bonn, Bonn, 53115, Germany)
- Bayadilov D.(Helmholtz–Institut für Strahlen–und Kernphysik, Universität Bonn, Bonn, 53115, Germany)
- Beck R.(Helmholtz–Institut für Strahlen–und Kernphysik, Universität Bonn, Bonn, 53115, Germany)
- Becker M.(Helmholtz–Institut für Strahlen–und Kernphysik, Universität Bonn, Bonn, 53115, Germany)
- Beloglazov Y.(Petersburg Nuclear Physics Institute, Gatchina, 188300, Russia)
- Berlin A.(Institut für Experimentalphysik I, Ruhr–Universität Bochum, Bochum, 44780, Germany)
- Bichow M.(Institut für Experimentalphysik I, Ruhr–Universität Bochum, Bochum, 44780, Germany)
- Brinkmann K.-Th.(II. Physikalisches Institut, Universität Gießen, Gießen, 35392, Germany)
- Böse S.(Helmholtz–Institut für Strahlen–und Kernphysik, Universität Bonn, Bonn, 53115, Germany)
- Crede V.(Department of Physics, Florida State University, Tallahassee, FL, 32306, USA)
- Dieterle M.(Department Physik, Universität Basel, Basel, 4056, Switzerland)
- Dutz H.(Physikalisches Institut, Universität Bonn, Bonn, 53115, Germany)
- Eberhardt H.(Physikalisches Institut, Universität Bonn, Bonn, 53115, Germany)
- Elsner D.(Physikalisches Institut, Universität Bonn, Bonn, 53115, Germany)
- Fornet-Ponse K.(Physikalisches Institut, Universität Bonn, Bonn, 53115, Germany)
- Friedrich St.(II. Physikalisches Institut, Universität Gießen, Gießen, 35392, Germany)
- Frommberger F.(Physikalisches Institut, Universität Bonn, Bonn, 53115, Germany)
- Funke Ch.(Helmholtz–Institut für Strahlen–und Kernphysik, Universität Bonn, Bonn, 53115, Germany)
- Goertz St.(Physikalisches Institut, Universität Bonn, Bonn, 53115, Germany)
- Gottschall M.(Helmholtz–Institut für Strahlen–und Kernphysik, Universität Bonn, Bonn, 53115, Germany)
- Gridnev A.(Petersburg Nuclear Physics Institute, Gatchina, 188300, Russia)
- Grüner M.(Helmholtz–Institut für Strahlen–und Kernphysik, Universität Bonn, Bonn, 53115, Germany)
- Gutz E.(II. Physikalisches Institut, Universität Gießen, Gießen, 35392, Germany)
- Hammann Ch.(Helmholtz–Institut für Strahlen–und Kernphysik, Universität Bonn, Bonn, 53115, Germany)
- Hannappel J.(Physikalisches Institut, Universität Bonn, Bonn, 53115, Germany)
- Hannen V.(II. Physikalisches Institut, Universität Gießen, Gießen, 35392, Germany)
- Hartmann J.Helmholtz–Institut für Strahlen–und Kernphysik, Universität Bonn, Bonn, 53115, Germany
- Herick J.(Institut für Experimentalphysik I, Ruhr–Universität Bochum, Bochum, 44780, Germany)
- Hillert W.(Physikalisches Institut, Universität Bonn, Bonn, 53115, Germany)
- Hoffmeister Ph.(Helmholtz–Institut für Strahlen–und Kernphysik, Universität Bonn, Bonn, 53115, Germany)
- Honisch Ch.(Helmholtz–Institut für Strahlen–und Kernphysik, Universität Bonn, Bonn, 53115, Germany)
- Jahn O.(Physikalisches Institut, Universität Bonn, Bonn, 53115, Germany)
- Jude T.(Physikalisches Institut, Universität Bonn, Bonn, 53115, Germany)
- Kaiser D.(Helmholtz–Institut für Strahlen–und Kernphysik, Universität Bonn, Bonn, 53115, Germany)
- Kalinowsky H.(Helmholtz–Institut für Strahlen–und Kernphysik, Universität Bonn, Bonn, 53115, Germany)
- Kalischewski F.(Helmholtz–Institut für Strahlen–und Kernphysik, Universität Bonn, Bonn, 53115, Germany)
- Keshelashvili I.(Department Physik, Universität Basel, Basel, 4056, Switzerland)
- Klassen P.(Helmholtz–Institut für Strahlen–und Kernphysik, Universität Bonn, Bonn, 53115, Germany)
- Klein F.(Physikalisches Institut, Universität Bonn, Bonn, 53115, Germany)
- Klempt E.(Helmholtz–Institut für Strahlen–und Kernphysik, Universität Bonn, Bonn, 53115, Germany)
- Koop K.(Helmholtz–Institut für Strahlen–und Kernphysik, Universität Bonn, Bonn, 53115, Germany)
- Krusche B.(Department Physik, Universität Basel, Basel, 4056, Switzerland)
- Kube M.(Helmholtz–Institut für Strahlen–und Kernphysik, Universität Bonn, Bonn, 53115, Germany)
- Käser A.(Department Physik, Universität Basel, Basel, 4056, Switzerland)
- Lang M.(Helmholtz–Institut für Strahlen–und Kernphysik, Universität Bonn, Bonn, 53115, Germany)
- Lopatin I.(Petersburg Nuclear Physics Institute, Gatchina, 188300, Russia)
- Makonyi K.(II. Physikalisches Institut, Universität Gießen, Gießen, 35392, Germany)
- Messi F.(Physikalisches Institut, Universität Bonn, Bonn, 53115, Germany)
- Metag V.(II. Physikalisches Institut, Universität Gießen, Gießen, 35392, Germany)
- Meyer W.(Institut für Experimentalphysik I, Ruhr–Universität Bochum, Bochum, 44780, Germany)
- Müller J.(Helmholtz–Institut für Strahlen–und Kernphysik, Universität Bonn, Bonn, 53115, Germany)
- Nanova M.(II. Physikalisches Institut, Universität Gießen, Gießen, 35392, Germany)
- Nikonov V.(Helmholtz–Institut für Strahlen–und Kernphysik, Universität Bonn, Bonn, 53115, Germany)
- Novinski D.(Petersburg Nuclear Physics Institute, Gatchina, 188300, Russia)
- Novotny R.(II. Physikalisches Institut, Universität Gießen, Gießen, 35392, Germany)
- Piontek D.(Helmholtz–Institut für Strahlen–und Kernphysik, Universität Bonn, Bonn, 53115, Germany)
- Reeve S.(Physikalisches Institut, Universität Bonn, Bonn, 53115, Germany)
- Reicherz G.(Institut für Experimentalphysik I, Ruhr–Universität Bochum, Bochum, 44780, Germany)
- Rosenbaum Ch.(Helmholtz–Institut für Strahlen–und Kernphysik, Universität Bonn, Bonn, 53115, Germany)
- Rostomyan T.(Department Physik, Universität Basel, Basel, 4056, Switzerland)
- Roth B.(Institut für Experimentalphysik I, Ruhr–Universität Bochum, Bochum, 44780, Germany)
- Runkel St.(Physikalisches Institut, Universität Bonn, Bonn, 53115, Germany)
- Sarantsev A.(Helmholtz–Institut für Strahlen–und Kernphysik, Universität Bonn, Bonn, 53115, Germany)
- Schmidt Ch.(Helmholtz–Institut für Strahlen–und Kernphysik, Universität Bonn, Bonn, 53115, Germany)
- Schmieden H.(Physikalisches Institut, Universität Bonn, Bonn, 53115, Germany)
- Schmitz R.(Helmholtz–Institut für Strahlen–und Kernphysik, Universität Bonn, Bonn, 53115, Germany)
- Seifen T.(Helmholtz–Institut für Strahlen–und Kernphysik, Universität Bonn, Bonn, 53115, Germany)
- Sokhoyan V.(Helmholtz–Institut für Strahlen–und Kernphysik, Universität Bonn, Bonn, 53115, Germany)
- Thiel A.(Helmholtz–Institut für Strahlen–und Kernphysik, Universität Bonn, Bonn, 53115, Germany)
- Thoma U.(Helmholtz–Institut für Strahlen–und Kernphysik, Universität Bonn, Bonn, 53115, Germany)
- Thämer Ph.(Helmholtz–Institut für Strahlen–und Kernphysik, Universität Bonn, Bonn, 53115, Germany)
- Urban M.(Helmholtz–Institut für Strahlen–und Kernphysik, Universität Bonn, Bonn, 53115, Germany)
- van Pee H.(Helmholtz–Institut für Strahlen–und Kernphysik, Universität Bonn, Bonn, 53115, Germany)
- Walther D.(Helmholtz–Institut für Strahlen–und Kernphysik, Universität Bonn, Bonn, 53115, Germany)
- Wendel Ch.(Helmholtz–Institut für Strahlen–und Kernphysik, Universität Bonn, Bonn, 53115, Germany)
- Wiedner U.(Institut für Experimentalphysik I, Ruhr–Universität Bochum, Bochum, 44780, Germany)
- Wilson A.(Helmholtz–Institut für Strahlen–und Kernphysik, Universität Bonn, Bonn, 53115, Germany)
- Winnebeck A.(Helmholtz–Institut für Strahlen–und Kernphysik, Universität Bonn, Bonn, 53115, Germany)
- Witthauer L.(Department Physik, Universität Basel, Basel, 4056, Switzerland)
- Publication venue
- Publication date
- Field of study
Data on the polarization observables T , P , and H for the reaction γp→pπ0 are reported. Compared to earlier data from other experiments, our data are more precise and extend the covered range in energy and angle substantially. The results were extracted from azimuthal asymmetries measured using a transversely polarized target and linearly polarized photons. The data were taken at the Bonn electron stretcher accelerator ELSA with the CBELSA/TAPS detector. Within the Bonn-Gatchina partial wave analysis, the new polarization data lead to a significant narrowing of the error band for the multipoles for neutral-pion photoproduction
Photoproduction of ω mesons off the proton
- Author
- Anisovich A.V.(Helmholtz-Institut für Strahlen- und Kernphysik, Universität Bonn, Bonn, D-53115, Germany)
- Bacelar J.C.S.(KVI, Groningen, 9747 AA, The Netherlands)
- Bantes B.(Physikalisches Institut, Universität Bonn, Bonn, D-53115, Germany)
- Bartholomy O.(Helmholtz-Institut für Strahlen- und Kernphysik, Universität Bonn, Bonn, D-53115, Germany)
- Bayadilov D.(Helmholtz-Institut für Strahlen- und Kernphysik, Universität Bonn, Bonn, D-53115, Germany)
- Beck R.(Helmholtz-Institut für Strahlen- und Kernphysik, Universität Bonn, Bonn, D-53115, Germany)
- Beloglazov Y.A.(Petersburg Nuclear Physics Institute, Gatchina, RU-188350, Russia)
- Brinkmann K.T.(II. Physikalisches Institut, Universität Gießen, Gießen, D-35392, Germany)
- Castelijns R.(KVI, Groningen, 9747 AA, The Netherlands)
- Crede V.(Department of Physics, Florida State University, Tallahassee, FL, 32306, USA)
- Dutz H.(Physikalisches Institut, Universität Bonn, Bonn, D-53115, Germany)
- Elsner D.(Physikalisches Institut, Universität Bonn, Bonn, D-53115, Germany)
- Ewald R.(Physikalisches Institut, Universität Bonn, Bonn, D-53115, Germany)
- Frommberger F.(Physikalisches Institut, Universität Bonn, Bonn, D-53115, Germany)
- Fuchs M.(Helmholtz-Institut für Strahlen- und Kernphysik, Universität Bonn, Bonn, D-53115, Germany)
- Funke Chr.(Helmholtz-Institut für Strahlen- und Kernphysik, Universität Bonn, Bonn, D-53115, Germany)
- Gregor R.(II. Physikalisches Institut, Universität Gießen, Gießen, D-35392, Germany)
- Gridnev A.(Petersburg Nuclear Physics Institute, Gatchina, RU-188350, Russia)
- Gutz E.(II. Physikalisches Institut, Universität Gießen, Gießen, D-35392, Germany)
- Hannappel J.(Physikalisches Institut, Universität Bonn, Bonn, D-53115, Germany)
- Hillert W.(Physikalisches Institut, Universität Bonn, Bonn, D-53115, Germany)
- Hoffmeister P.(Helmholtz-Institut für Strahlen- und Kernphysik, Universität Bonn, Bonn, D-53115, Germany)
- Horn I.(Helmholtz-Institut für Strahlen- und Kernphysik, Universität Bonn, Bonn, D-53115, Germany)
- Jaegle I.(Physikalisches Institut, Universität Basel, Basel, CH-4056, Switzerland)
- Jude T.(Physikalisches Institut, Universität Bonn, Bonn, D-53115, Germany)
- Junkersfeld J.(Helmholtz-Institut für Strahlen- und Kernphysik, Universität Bonn, Bonn, D-53115, Germany)
- Kalinowsky H.(Helmholtz-Institut für Strahlen- und Kernphysik, Universität Bonn, Bonn, D-53115, Germany)
- Kleber V.(Physikalisches Institut, Universität Bonn, Bonn, D-53115, Germany)
- Klein Frank(Physikalisches Institut, Universität Bonn, Bonn, D-53115, Germany)
- Klein Friedrich(Physikalisches Institut, Universität Bonn, Bonn, D-53115, Germany)
- Klempt E.(Helmholtz-Institut für Strahlen- und Kernphysik, Universität Bonn, Bonn, D-53115, Germany)
- Kotulla M.(Physikalisches Institut, Universität Basel, Basel, CH-4056, Switzerland)
- Krusche B.(Physikalisches Institut, Universität Basel, Basel, CH-4056, Switzerland)
- Lang M.(Helmholtz-Institut für Strahlen- und Kernphysik, Universität Bonn, Bonn, D-53115, Germany)
- Lopatin I.V.(Petersburg Nuclear Physics Institute, Gatchina, RU-188350, Russia)
- Lugert S.(II. Physikalisches Institut, Universität Gießen, Gießen, D-35392, Germany)
- Löhner H.(KVI, Groningen, 9747 AA, The Netherlands)
- Mertens T.(Physikalisches Institut, Universität Basel, Basel, CH-4056, Switzerland)
- Messchendorp J.G.(KVI, Groningen, 9747 AA, The Netherlands)
- Metag V.(II. Physikalisches Institut, Universität Gießen, Gießen, D-35392, Germany)
- Nanova M.(II. Physikalisches Institut, Universität Gießen, Gießen, D-35392, Germany)
- Nikonov V.A.(Helmholtz-Institut für Strahlen- und Kernphysik, Universität Bonn, Bonn, D-53115, Germany)
- Novinski D.(Petersburg Nuclear Physics Institute, Gatchina, RU-188350, Russia)
- Novotny R.(II. Physikalisches Institut, Universität Gießen, Gießen, D-35392, Germany)
- Ostrick M.(Physikalisches Institut, Universität Bonn, Bonn, D-53115, Germany)
- Pant L.M.(II. Physikalisches Institut, Universität Gießen, Gießen, D-35392, Germany)
- Pfeiffer M.(II. Physikalisches Institut, Universität Gießen, Gießen, D-35392, Germany)
- Roy A.(II. Physikalisches Institut, Universität Gießen, Gießen, D-35392, Germany)
- Sarantsev A.V.(Helmholtz-Institut für Strahlen- und Kernphysik, Universität Bonn, Bonn, D-53115, Germany)
- Schmidt C.(Helmholtz-Institut für Strahlen- und Kernphysik, Universität Bonn, Bonn, D-53115, Germany)
- Schmieden H.(Physikalisches Institut, Universität Bonn, Bonn, D-53115, Germany)
- Shende S.(KVI, Groningen, 9747 AA, The Netherlands)
- Sokhoyan V.(Helmholtz-Institut für Strahlen- und Kernphysik, Universität Bonn, Bonn, D-53115, Germany)
- Sparks N.(Department of Physics, Florida State University, Tallahassee, FL, 32306, USA)
- Sumachev V.V.(Petersburg Nuclear Physics Institute, Gatchina, RU-188350, Russia)
- Szczepanek T.(Helmholtz-Institut für Strahlen- und Kernphysik, Universität Bonn, Bonn, D-53115, Germany)
- Süle A.(Physikalisches Institut, Universität Bonn, Bonn, D-53115, Germany)
- Thoma U.(Helmholtz-Institut für Strahlen- und Kernphysik, Universität Bonn, Bonn, D-53115, Germany)
- Trnka D.(II. Physikalisches Institut, Universität Gießen, Gießen, D-35392, Germany)
- van Pee H.(Helmholtz-Institut für Strahlen- und Kernphysik, Universität Bonn, Bonn, D-53115, Germany)
- Varma R.(II. Physikalisches Institut, Universität Gießen, Gießen, D-35392, Germany)
- Walther D.(Helmholtz-Institut für Strahlen- und Kernphysik, Universität Bonn, Bonn, D-53115, Germany)
- Wendel Ch.(Helmholtz-Institut für Strahlen- und Kernphysik, Universität Bonn, Bonn, D-53115, Germany)
- Wiedner U.(Institut für Experimentalphysik I, Ruhr-Universität Bochum, Bochum, D-44780, Germany)
- Wilson A.Helmholtz-Institut für Strahlen- und Kernphysik, Universität Bonn, Bonn, D-53115, Germany
- Publication venue
- Publication date
- Field of study
The differential cross sections and unpolarized spin-density matrix elements for the reaction γp→pω were measured using the CBELSA/TAPS experiment for initial photon energies ranging from the reaction threshold to 2.5 GeV. These observables were measured from the radiative decay of the ω meson, ω→π0γ . The cross sections cover the full angular range and show the full extent of the t -channel forward rise. The overall shape of the angular distributions in the differential cross sections and unpolarized spin-density matrix elements are in fair agreement with previous data. In addition, for the first time, a beam of linearly-polarized tagged photons in the energy range from 1150 MeV to 1650 MeV was used to extract polarized spin-density matrix elements
Observation of Electromagnetic Dalitz decays J/ψ\to P e^+e^-
- Author
- A. A. Zafar(University of the Punjab)
- A. Calcaterra(19A)
- A. Denig(Johannes Gutenberg University of Mainz)
- A. Kupsc(Uppsala University)
- A. Q. Guo(Nankai university)
- A. Sarantsev(21 d)
- A. Yuncu(36B)
- A. Zallo(19A)
- A. Zhemchugov(21 b)
- B. J. Liu(Institute of High Energy Physics)
- B. Kloss(Johannes Gutenberg University of Mainz)
- B. Kopf( Bochum Ruhr-University, Germany)
- B. S. Zou(Institute of High Energy Physics)
- B. Spruck(Universitaet Giessen)
- B. Wang(Nankai university)
- B. X. Yu(Institute of High Energy Physics)
- B. X. Zhang(Institute of High Energy Physics)
- B. Y. Zhang(Institute of High Energy Physics)
- B. Zheng(University of South China)
- B. Zhong(Nanjing Normal University)
- C. B. Zhang(Hunan University)
- C. C. Zhang(Institute of High Energy Physics)
- C. D. Fu(Institute of High Energy Physics)
- C. Dong(Nankai university)
- C. F. Qiao(University of Chinese Academy of Sciences)
- C. F. Redmer(Johannes Gutenberg University of Mainz)
- C. Geng(University of Science and Technology of China)
- C. H. Li(Institute of High Energy Physics)
- C. Hu(Nanjing Normal University)
- C. J. Tang(Sichuan University)
- C. L. Liu(Carnegie Mellon University)
- C. L. Luo(Nanjing Normal University)
- C. Morales Morales(Helmholtz Institute Mainz)
- C. P. Shen(Beihang University)
- C. Q. Feng(University of Science and Technology of China)
- C. S. Ji(University of Science and Technology of China)
- C. X. Liu(Institute of High Energy Physics)
- C. X. Yu(Nankai university)
- C. Z. Yuan(Institute of High Energy Physics)
- C. Zhang(Nanjing University)
- Cheng Li(University of Science and Technology of China)
- Cui Li(University of Science and Technology of China)
- D. Cronin-Hennessy(University of Minnesota)
- D. Dedovich(Joint Institute for Nuclear Research)
- D. H. Wei(Guangxi Normal University)
- D. H. Zhang(Institute of High Energy Physics)
- D. J. Ambrose(University of Rochester)
- D. Li(Hunan University)
- D. M. Li(Zhengzhou University)
- D. P. Jin(Institute of High Energy Physics)
- D. Toth(University of Minnesota)
- D. Wang(Peking University)
- D. X. Lin(Helmholtz Institute Mainz)
- D. Xiao(Institute of High Energy Physics)
- D. Y. Wang(Peking University)
- E. Boger(21 b)
- E. H. Thorndike(University of Rochester)
- F. A. Harris(University of Hawaii)
- F. C. Ma(Liaoning University)
- F. E. Maas(Helmholtz Institute Mainz)
- F. F. An(Institute of High Energy Physics)
- F. H. Liu(Shanxi University)
- F. Li(Institute of High Energy Physics)
- Fang Liu(Institute of High Energy Physics)
- Feng Liu(Central China Normal University)
- G. Chelkov(21 b)
- G. Chen(Institute of High Energy Physics)
- G. F. Cao(Institute of High Energy Physics)
- G. F. Xu(Institute of High Energy Physics)
- G. Li(Institute of High Energy Physics)
- G. M. Huang(Central China Normal University)
- G. R. Lu(Henan Normal University)
- G. Rong(Institute of High Energy Physics)
- G. S. Huang(University of Science and Technology of China)
- G. S. Varner(University of Hawaii)
- G. X. Sun(Institute of High Energy Physics)
- G. Zhao(Institute of High Energy Physics)
- H. B. Li(Institute of High Energy Physics)
- H. B. Liu(GuangXi University)
- H. Cai(Wuhan University)
- H. H. Liu(Henan University of Science and Technology)
- H. H. Zhang(Sun Yat-Sen University)
- H. J. Lu(Huangshan College)
- H. L. Dai(Institute of High Energy Physics)
- H. L. Lu(Institute of High Energy Physics)
- H. L. Ma(Institute of High Energy Physics)
- H. Liang(University of Science and Technology of China)
- H. Loehner(KVI University of Groningen)
- H. M. Hu(Institute of High Energy Physics)
- H. M. Liu(Institute of High Energy Physics)
- H. Moeini(KVI University of Groningen)
- H. Muramatsu(University of Minnesota)
- H. P. Cheng(Huangshan College)
- H. P. Huang(Wuhan University)
- H. P. Peng(University of Science and Technology of China)
- H. S. Chen(Institute of High Energy Physics)
- H. W. Yu(Peking University)
- H. X. Yang(Institute of High Energy Physics)
- H. Y. Sheng(Institute of High Energy Physics)
- H. Y. Zhang(Institute of High Energy Physics)
- H. Ye(Institute of High Energy Physics)
- I. B. Nikolaev(8 a)
- I. Boyko(Joint Institute for Nuclear Research)
- I. Denysenko(Joint Institute for Nuclear Research)
- I. Tapan(36C)
- I. Uman(36B)
- J. B. Jiao(Shandong University)
- J. B. Wei(Peking University)
- J. C. Chen(Institute of High Energy Physics)
- J. C. Li(Institute of High Energy Physics)
- J. Dong(Institute of High Energy Physics)
- J. F. Chang(Institute of High Energy Physics)
- J. F. Hu(Universitaet Giessen)
- J. F. Qiu(Institute of High Energy Physics)
- J. F. Sun(Henan Normal University)
- J. Fang(Institute of High Energy Physics)
- J. G. Lu(Institute of High Energy Physics)
- J. G. Messchendorp(KVI University of Groningen)
- J. H. Zou(Institute of High Energy Physics)
- J. J. Zhang(Institute of High Energy Physics)
- J. L. Fu(Nanjing University)
- J. L. Ping(Nanjing Normal University)
- J. Liu(Institute of High Energy Physics)
- J. M. Bian(University of Minnesota)
- J. Min(Institute of High Energy Physics)
- J. P. Dai(Institute of High Energy Physics)
- J. P. Liu(Wuhan University)
- J. P. Zheng(Institute of High Energy Physics)
- J. Q. Zhang(Institute of High Energy Physics)
- J. S. Huang(Henan Normal University)
- J. S. Lange(Universitaet Giessen)
- J. S. Yu(Lanzhou University)
- J. V. Bennett(Indiana University)
- J. W. Zhang(Institute of High Energy Physics)
- J. W. Zhao(Institute of High Energy Physics)
- J. Y. Zhang(Institute of High Energy Physics)
- J. Z. Bai(Institute of High Energy Physics)
- J. Z. Fan(Tsinghua University)
- J. Z. Zhang(Institute of High Energy Physics)
- J. Zhuang(Institute of High Energy Physics)
- K. Goetzen(GSI Helmholtzcentre for Heavy Ion Research GmbH)
- K. H. Rashid(University of the Punjab)
- K. J. Zhu(Institute of High Energy Physics)
- K. L. He(Institute of High Energy Physics)
- K. Li(Shandong University)
- K. Li(Shandong University)
- K. Liu(Tsinghua University)
- K. Moriya(Indiana University)
- K. Peters(GSI Helmholtzcentre for Heavy Ion Research GmbH)
- K. Schoenning(Uppsala University)
- K. Wang(Institute of High Energy Physics)
- K. Y. Liu(Liaoning University)
- K. Zhu(Institute of High Energy Physics)
- L. B. Guo(Nanjing Normal University)
- L. Fava(45B 45C)
- L. G. Xia(Tsinghua University)
- L. H. Wu(Institute of High Energy Physics)
- L. Huang(Institute of High Energy Physics)
- L. L. Jiang(Institute of High Energy Physics)
- L. L. Wang(Institute of High Energy Physics)
- L. Q. Qin(Shandong University)
- L. S. Wang(Institute of High Energy Physics)
- L. W. Jiang(Wuhan University)
- L. Xu(Institute of High Energy Physics)
- L. Y. Dong(Institute of High Energy Physics)
- L. Yan(University of Science and Technology of China)
- L. Yang(Wuhan University)
- L. Zhou(Institute of High Energy Physics)
- Lei Li(Institute of High Energy Physics)
- Lei Zhao(University of Science and Technology of China)
- Li Zhou(Nankai university)
- Ling Zhao(Institute of High Energy Physics)
- M. AblikimInstitute of High Energy Physics
- M. Albrecht( Bochum Ruhr-University, Germany)
- M. Bertani(19A)
- M. Destefanis(45A 45C)
- M. G. Zhao(Nankai university)
- M. Greco(45A 45C)
- M. H. Gu(Institute of High Energy Physics)
- M. H. Ye(China Center of Advanced Science and Technology)
- M. He(Institute of High Energy Physics)
- M. Kavatsyuk(KVI University of Groningen)
- M. Kornicer(University of Hawaii)
- M. L. Chen(Institute of High Energy Physics)
- M. Lara(Indiana University)
- M. Leyhe( Bochum Ruhr-University, Germany)
- M. Lv(Institute of High Energy Physics)
- M. Maggiora(45A 45C)
- M. N. Achasov(8 a)
- M. Pelizaeus( Bochum Ruhr-University, Germany)
- M. Qi(Nanjing University)
- M. R. Shepherd(Indiana University)
- M. Ripka(Johannes Gutenberg University of Mainz)
- M. Shao(University of Science and Technology of China)
- M. Ullrich(Universitaet Giessen)
- M. Wang(Shandong University)
- M. Werner(Universitaet Giessen)
- M. Wolke(Uppsala University)
- M. X. Luo(Zhejiang University)
- M. Y. Dong(Institute of High Energy Physics)
- M. Ye(Institute of High Energy Physics)
- N. Kalantar-Nayestanaki(KVI University of Groningen)
- N. Q.(Wuhan University)
- N. Wu(Institute of High Energy Physics)
- N. Yu. Muchnoi(8 a)
- O. Albayrak(Carnegie Mellon University)
- O. Bondarenko(KVI University of Groningen)
- O. Cakir(36A)
- O. Fuks(21 b)
- P. L. Liu(Shandong University)
- P. L. Wang(Institute of High Energy Physics)
- P. Larin(Helmholtz Institute Mainz)
- P. R. Li(University of Chinese Academy of Sciences)
- P. Wang(Institute of High Energy Physics)
- P. Weidenkaff(Johannes Gutenberg University of Mainz)
- Q. A. Malik(University of the Punjab)
- Q. An(University of Science and Technology of China)
- Q. Gao(Institute of High Energy Physics)
- Q. J. Li(Institute of High Energy Physics)
- Q. J. Wang(Institute of High Energy Physics)
- Q. J. Xu(Hangzhou Normal University)
- Q. Ji(Institute of High Energy Physics)
- Q. L. Xiu(Institute of High Energy Physics)
- Q. Liu(University of Chinese Academy of Sciences)
- Q. M. Ma(Institute of High Energy Physics)
- Q. N. Xu(University of Chinese Academy of Sciences)
- Q. Ouyang(Institute of High Energy Physics)
- Q. P. Ji(Nankai university)
- Q. W. Zhao(Institute of High Energy Physics)
- Q. Zhao(Institute of High Energy Physics)
- R. A. Briere(Carnegie Mellon University)
- R. Baldini Ferroli(19A)
- R. E. Mitchell(Indiana University)
- R. G. Ping(Institute of High Energy Physics)
- R. Poling(University of Minnesota)
- S. A. Cetin(36B)
- S. B. Liu(University of Science and Technology of China)
- S. Braun(Universitaet Giessen)
- S. G. Wang(Peking University)
- S. H. Zhang(Institute of High Energy Physics)
- S. H. Zhu(Institute of High Energy Physics)
- S. J. Chen(Nanjing University)
- S. J. Zhao(Zhengzhou University)
- S. Jin(Institute of High Energy Physics)
- S. L. Olsen(Seoul National University)
- S. L. Zang(Nanjing University)
- S. Ma(Institute of High Energy Physics)
- S. Nisar(COMSATS Institute of Information Technology)
- S. P. Wen(Institute of High Energy Physics)
- S. P. Yu(Shandong University)
- S. Pacetti(19B)
- S. Qian(Institute of High Energy Physics)
- S. S. Fang(Institute of High Energy Physics)
- S. S. Sun(Institute of High Energy Physics)
- S. Schumann(Johannes Gutenberg University of Mainz)
- S. Spataro(45A 45C)
- S. X. Du(Zhengzhou University)
- T. C. Zhao(Institute of High Energy Physics)
- T. Guo(Nanjing Normal University)
- T. Held( Bochum Ruhr-University, Germany)
- T. Hu(Institute of High Energy Physics)
- T. Hussain(University of the Punjab)
- T. J. Min(Institute of High Energy Physics)
- T. Johansson(Uppsala University)
- T. Li(Shandong University)
- T. Luo(University of Hawaii)
- T. Ma(Institute of High Energy Physics)
- U. Wiedner( Bochum Ruhr-University, Germany)
- W. B. Yan(University of Science and Technology of China)
- W. C. Yan(University of Science and Technology of China)
- W. D. Li(Institute of High Energy Physics)
- W. G. Li(Institute of High Energy Physics)
- W. Gradl(Johannes Gutenberg University of Mainz)
- W. Kuehn(Universitaet Giessen)
- W. L. Yuan(Nanjing University)
- W. Lai(Institute of High Energy Physics)
- W. M. Ding(Shandong University)
- W. M. Song(Institute of High Energy Physics)
- W. Shan(Peking University)
- W. Wang(Institute of High Energy Physics)
- W. X. Gong(Institute of High Energy Physics)
- X. B. Ji(Institute of High Energy Physics)
- X. C. Ai(Institute of High Energy Physics)
- X. C. Lou(1 c)
- X. Cai(Institute of High Energy Physics)
- X. Chen(Institute of High Energy Physics)
- X. D. Ruan(GuangXi University)
- X. F. Wang(Tsinghua University)
- X. H. Mo(Institute of High Energy Physics)
- X. H. Zhao(Nanjing University)
- X. J. Zhang(Institute of High Energy Physics)
- X. K. Chu(Peking University)
- X. K. Zhou(University of Chinese Academy of Sciences)
- X. L. Ji(Institute of High Energy Physics)
- X. L. Kang(Institute of High Energy Physics)
- X. L. Li(Shandong University)
- X. L. Luo(Institute of High Energy Physics)
- X. L. Zhu(Tsinghua University)
- X. Liu(Institute of High Energy Physics)
- X. N. Li(Institute of High Energy Physics)
- X. P. Xu(Soochow University)
- X. Q. Li(Nankai university)
- X. R. Chen(Lanzhou University)
- X. R. Lu(University of Chinese Academy of Sciences)
- X. R. Zhou(University of Science and Technology of China)
- X. S. Jiang(Institute of High Energy Physics)
- X. S. Kang(Nankai university)
- X. S. Qin(Institute of High Energy Physics)
- X. T. Huang(Shandong University)
- X. Tang(Institute of High Energy Physics)
- X. Y. Ma(Institute of High Energy Physics)
- X. Y. Niu(Institute of High Energy Physics)
- X. Y. Shen(Institute of High Energy Physics)
- X. Y. Song(Institute of High Energy Physics)
- X. Y. Zhang(Shandong University)
- X. Y. Zhou(Institute of High Energy Physics)
- X. Zhou(Wuhan University)
- Y. B. Chen(Institute of High Energy Physics)
- Y. B. Liu(Nankai university)
- Y. B. Zhao(Institute of High Energy Physics)
- Y. Ban(Peking University)
- Y. C. Zhu(University of Science and Technology of China)
- Y. D. Wang(19A)
- Y. Ding(Liaoning University)
- Y. F. Liang(Sichuan University)
- Y. F. Wang(Institute of High Energy Physics)
- Y. Fang(Institute of High Energy Physics)
- Y. G. Xie(Institute of High Energy Physics)
- Y. Gao(Tsinghua University)
- Y. H. Guan(Institute of High Energy Physics)
- Y. H. Yan(Hunan University)
- Y. H. Zhang(Institute of High Energy Physics)
- Y. H. Zheng(University of Chinese Academy of Sciences)
- Y. Huang(Nanjing University)
- Y. J. Mao(Peking University)
- Y. J. Mo(Central China Normal University)
- Y. J. Sun(University of Science and Technology of China)
- Y. K. Heng(Institute of High Energy Physics)
- Y. L. Han(Institute of High Energy Physics)
- Y. Lu(Institute of High Energy Physics)
- Y. Nefedov(Joint Institute for Nuclear Research)
- Y. P. Chu(Institute of High Energy Physics)
- Y. P. Guo(Johannes Gutenberg University of Mainz)
- Y. P. Lu(Institute of High Energy Physics)
- Y. Q. Wang(Johannes Gutenberg University of Mainz)
- Y. Qin(Peking University)
- Y. S. Zhu(Institute of High Energy Physics)
- Y. T. Gu(GuangXi University)
- Y. T. Liang(Universitaet Giessen)
- Y. X. Yang(Guangxi Normal University)
- Y. Xia(Hunan University)
- Y. Yang(Central China Normal University)
- Y. Yuan(Institute of High Energy Physics)
- Y. Z. Sun(Institute of High Energy Physics)
- Y. Zeng(Hunan University)
- Y. Zhang(Institute of High Energy Physics)
- Z. A. Liu(Institute of High Energy Physics)
- Z. A. Zhu(Institute of High Energy Physics)
- Z. B. Li(Sun Yat-Sen University)
- Z. G. Wang(Institute of High Energy Physics)
- Z. G. Zhao(University of Science and Technology of China)
- Z. H. Qin(Institute of High Energy Physics)
- Z. H. Wang(University of Science and Technology of China)
- Z. H. Zhang(Central China Normal University)
- Z. J. Sun(Institute of High Energy Physics)
- Z. J. Xiao(Nanjing Normal University)
- Z. Jiao(Huangshan College)
- Z. L. Hou(Institute of High Energy Physics)
- Z. Ning(Institute of High Energy Physics)
- Z. P. Mao(Institute of High Energy Physics)
- Z. P. Zhang(University of Science and Technology of China)
- Z. T. Sun(University of Science and Technology of China)
- Z. Wang(Institute of High Energy Physics)
- Z. Wu(Institute of High Energy Physics)
- Z. Xue(Institute of High Energy Physics)
- Z. Y. Deng(Institute of High Energy Physics)
- Z. Y. He(Nankai university)
- Z. Y. Wang(Institute of High Energy Physics)
- Z. Y. Zhang(Wuhan University)
- Zhiqiang Liu(Institute of High Energy Physics)
- Zhiqing Liu(Johannes Gutenberg University of Mainz)
- Publication venue
- Publication date
- Field of study
Based on a sample of (225.3\pm2.8)\times 10^{6} J/\psi events collected with
the BESIII detector, the electromagnetic Dalitz decays of J/\psi \to P
e^+e^-(P=\eta'/\eta/\pi^0) are studied. By reconstructing the pseudoscalar
mesons in various decay modes, the decays J/\psi \to \eta' e^+e^-, J/\psi \to
\eta e^+e^- and J/\psi \to \pi^0 e^+e^- are observed for the first time. The
branching fractions are determined to be \mathcal{B}(J/\psi\to \eta' e^+e^-) =
(5.81\pm0.16\pm0.31)\times10^{-5}, \mathcal{B}(J/\psi\to \eta e^+e^-) =
(1.16\pm0.07\pm0.06)\times10^{-5}, and \mathcal{B}(J/\psi\to \pi^0
e^+e^-)=(7.56\pm1.32\pm0.50)\times10^{-7}, where the first errors are
statistical and the second ones systematic
γ
- Publication venue
- Publication date
- 20/04/2010
- Field of study
For detection of neutral particles and for electron identification in the target spectrometer region, PANDA will use an electromagnetic calorimeter consisting of about 16000 lead tungstate crystals. In combination with the shashlyk type calorimeter in the forward spectrometer, which is optimized to detect high energy photons at small polar angles, PANDA can cover nearly the full solid angle, which is important for the exclusive reconstruction of channels with many photons in the final state. Due to the short radiation length and small Moliere radius of lead tungstate, good spatial resolution can be achieved with a compact detector design. Especially for the forward endcap, good spatial resolution is needed for reconstruction of high energetic π 0 with good mass resolution. Figure 1 shows the expected π 0 mass resolution as a function of the π 0 momentum for several opening angle resolutions σα. α is defined as the angle between the photons from π 0 decay. From Monte Carlo simulation studies σα = 0.1 ◦ can be achieved for 5 GeV π 0 reconstructed with the forward endcap, which results in a π 0 mass resolution of about 4 MeV
Physics Performance Report for PANDA: Strong Interaction Studies with Antiprotons
- Author
- A. A. Derevschikov(Serpukhov IHEP)
- A. A. Efremov(Dubna JINR)
- A. A. Fedorov(Belarus State U)
- A. A. Feshchenko(Dubna JINR)
- A. A. Piskun(Dubna JINR)
- A. Amoroso(Turin U)
- A. Arefiev(Dubna JINR)
- A. Bersani(INFN Genoa)
- A. Bianconi(Brescia U)
- A. Boukharov(Moscow Power Engineering Institute)
- A. Braghieri(Pavia U. & INFN Pavia)
- A. Bressan(Trieste U. & INFN Trieste)
- A. Bubak(Groningen KVI)
- A. Budzanowski(Cracow INP)
- A. Cecchi(Ferrara U. & INFN Ferrara)
- A. Chlopik(Warsaw Inst. Nucl. Studies)
- A. Demekhin(Moscow ITEP)
- A. Dolgolenko(Moscow ITEP)
- A. E. Yakutin(Serpukhov IHEP)
- A. F. Makarov(Dubna JINR)
- A. Feliciello(INFN Turin)
- A. Filippi(INFN Turin)
- A. Fontana(Pavia U. & INFN Pavia)
- A. G. Fedunov(Dubna JINR)
- A. G. Samartsev(Dubna JINR)
- A. G. Zorin(Dubna JINR)
- A. Gerasimov(Moscow ITEP)
- A. Gillitzer(Julich Forschungszentrum)
- A. Grasso(Turin U)
- A. Gruber(Vienna OAW) , M.F.M. Lutz, B. Pire, O. Scholten, R. Timmermans)
- A. Hayrapetyan(Giessen U)
- A. Itzotov(St. Petersburg INP)
- A. K. Biegun(Groningen KVI)
- A. Karmokov(Dubna JINR)
- A. Khoukaz(Munster U. ITP)
- A. Kisselev(St. Petersburg INP)
- A. Kozela(Cracow INP)
- A. Kupsc(Uppsala U)
- A. Lehmann(Erlangen - Nuremberg U)
- A. Lehrach(Julich Forschungszentrum)
- A. M. Davidenko(Serpukhov IHEP)
- A. Magiera(Jagiellonian U)
- A. Mann(Munich Tech. U)
- A. Martin(Trieste U. & INFN Trieste)
- A. N. Skachkova(Dubna JINR)
- A. N. Vasiliev(Serpukhov IHEP)
- A. Olshevski(Dubna JINR)
- A. Ortiz(Valencia U)
- A. P. Meschanin(Serpukhov IHEP)
- A. Rivetti(INFN Turin)
- A. Rotondi(Pavia U. & INFN Pavia)
- A. S. Galoyan(Dubna JINR)
- A. S. Vodopianov(Dubna JINR)
- A. Sanchez-Lorente(Mainz U. Inst. Phys)
- A. Semenov(Moscow Power Engineering Institute)
- A. Shabratova(Dubna JINR)
- A. Szczurek(Cracow INP)
- A. Taeschner(Munster U. ITP)
- A. Teufel(Erlangen - Nuremberg U)
- A. Tomaradze(Northwestern U)
- A. Tudorache(Bukarest-Magurele U)
- A. V. Ryazantsev(Serpukhov IHEP)
- A. V. Uzunian(Serpukhov IHEP)
- A. Wilms(Darmstadt GSI)
- A. Wronska(Jagiellonian U)
- A. Zhadanov(St. Petersburg INP)
- B. Cederwall(Royal Inst. Tech. Stockholm)
- B. Czech(Cracow INP)
- B. Dulach(Frascati)
- B. Hoeistad(Uppsala U)
- B. Kamys(Jagiellonian U)
- B. Ketzer(Munich Tech. U)
- B. Kopf(Ruhr U. Bochum)
- B. Krusche(Basel U)
- B. Lewandowski(Darmstadt GSI)
- B. McKinnon(Glasgow U)
- B. Pire()
- B. Ramstein(Orsay IPN)
- B. Schroeder(Lund U)
- B. Seitz(Glasgow U)
- B. Slowinski(Otwock-Swierk Inst. Atomic Energy)
- B. Tann(Northwestern U)
- B. V. Batyunya(Dubna JINR)
- B. Voss(Darmstadt GSI)
- B. Zwieglinski(Warsaw Inst. Nucl. Studies)
- C. Bargholtz(Stockholm U)
- C. Ekstroem(TSL Uppsala)
- C. Guaraldo(Frascati)
- C. Hoeppner(Munich Tech. U)
- C. J. Schmidt(Darmstadt GSI)
- C. Salz(Giessen U)
- C. Schwarz(Darmstadt GSI)
- C. Sfienti(Catania U. & INFN Catania)
- C. Strackbein(Giessen U)
- D. -O. Riska(Helsinki U)
- D. A. Konstantinov(Serpukhov IHEP)
- D. A. Morozov(Serpukhov IHEP)
- D. Alberto(Turin U)
- D. Bettoni(Ferrara U. & INFN Ferrara)
- D. Branford(Edinburgh U)
- D. Calvo(INFN Turin)
- D. Gil(Jagiellonian U)
- D. Glazier(Edinburgh U)
- D. Grunwald(Julich Forschungszentrum)
- D. Ireland(Glasgow U)
- D. Lehmann(Darmstadt GSI)
- D. MacGregor(Glasgow U)
- D. Melnychuk(Warsaw Inst. Nucl. Studies)
- D. Mishra(Darmstadt GSI)
- D. Pantea(Bukarest-Magurele U)
- D. Panzieri(Piemonte Orientale U. Alessandria)
- D. Prasuhn(Julich Forschungszentrum)
- D. Protopopescu(Glasgow U)
- D. Przemyslaw(Otwock-Swierk Inst. Atomic Energy)
- D. Veretennikov(St. Petersburg INP)
- D. Watts(Edinburgh U)
- E. A. Perevalova(Dubna JINR)
- E. A. Strokovsky(Dubna JINR)
- E. Baldin(Novosibirsk IYF)
- E. Bialkowski(Cracow INP)
- E. Botta(Turin U)
- E. Cowie(Glasgow U)
- E. Downie(Glasgow U)
- E. Fioravanti(Ferrara U. & INFN Ferrara)
- E. Guliyev(Groningen KVI)
- E. K. Koshurnikov(Dubna JINR)
- E. Lisowski(Cracow Tech. U)
- E. Pace(Frascati)
- E. Rapisarda(Catania U. & INFN Catania)
- E. Thome(Uppsala U)
- E. Widmann(Vienna OAW) , M.F.M. Lutz, B. Pire, O. Scholten, R. Timmermans)
- F. -H. Heinsius(Ruhr U. Bochum)
- F. Bradamante(Trieste U. & INFN Trieste)
- F. De Mori(Turin U)
- F. Feldbauer(Ruhr U. Bochum)
- F. Garcia(Helsinki U)
- F. Giacoppo(Catania U. & INFN Catania)
- F. Iazzi(Turin Polytechnic)
- F. Lisowski(Cracow Tech. U)
- F. Maas(Darmstadt GSI)
- F. Tosello(INFN Turin)
- G. A. Mustafaev(Dubna JINR)
- G. Alexeev(Dubna JINR)
- G. Boca(Pavia U. & INFN Pavia)
- G. Gavrilov(St. Petersburg INP)
- G. Giraudo(INFN Turin)
- G. Hill(Glasgow U)
- G. Kemmerling(Julich Forschungszentrum)
- G. Mazza(INFN Turin)
- G. Pontecorvo(Dubna JINR)
- G. Raciti(Catania U. & INFN Catania)
- G. Rosner(Glasgow U)
- G. S. Shabratova(Dubna JINR)
- G. Schepers(Darmstadt GSI)
- G. Serbanut(Turin U)
- G. Stancari(Ferrara U. & INFN Ferrara)
- G. Yang(Glasgow U)
- H. -G. Zaunick(Dresden Tech. U)
- H. Calen(Uppsala U)
- H. Clement(Tubingen U)
- H. Deppe(Darmstadt GSI)
- H. Flemming(Darmstadt GSI)
- H. Freiesleben(Dresden Tech. U)
- H. Kleines(Julich Forschungszentrum)
- H. Koch(Ruhr U. Bochum)
- H. Liu(Beijing Inst. High Energy Phys)
- H. Loehner(Groningen KVI)
- H. Ohm(Julich Forschungszentrum)
- H. Orth(Darmstadt GSI)
- H. Smit(Groningen KVI)
- H. Stenzel(Giessen U)
- H. Xu(Beijing Inst. High Energy Phys)
- H. Xu(Beijing Inst. High Energy Phys)
- I. Augustin(Darmstadt GSI)
- I. Brodski(Giessen U)
- I. Garzia(Ferrara U. & INFN Ferrara)
- I. Keshelashvili(Basel U)
- I. Konorov(Munich Tech. U)
- I. Lehmann(Glasgow U)
- I. Marishev(Moscow Power Engineering Institute)
- J. Becker(Ruhr U. Bochum)
- J. Boucher(Orsay IPN)
- J. C. van der Weele(Groningen KVI)
- J. Diaz(Valencia U)
- J. Gerl(Darmstadt GSI)
- J. Kisiel(Silesia U)
- J. Kopec(Warsaw Inst. Nucl. Studies)
- J. Luehning(Darmstadt GSI)
- J. Marton(Vienna OAW) , M.F.M. Lutz, B. Pire, O. Scholten, R. Timmermans)
- J. Messchendorp(Groningen KVI)
- J. Pochodzalla(Mainz U. Inst. Phys)
- J. Pouthas(Orsay IPN)
- J. Ritman(Julich Forschungszentrum)
- J. Schneider(Giessen U)
- J. Smyrski(Jagiellonian U)
- J. Szewinski(Warsaw Inst. Nucl. Studies)
- J. Van de Wiele(Orsay IPN)
- J. Wessels(Munster U. ITP)
- J. Zhong(Ruhr U. Bochum)
- J. Zlomanczuk(Uppsala U)
- J. Zmeskal(Vienna OAW) , M.F.M. Lutz, B. Pire, O. Scholten, R. Timmermans)
- K. -T. Brinkmann(Dresden Tech. U)
- K. Dmowski(Otwock-Swierk Inst. Atomic Energy)
- K. Foehl(Edinburgh U)
- K. Goetzen(Darmstadt GSI)
- K. Hansen(Lund U)
- K. Korcyl(Jagiellonian U)
- K. Kotov(Novosibirsk IYF)
- K. Livingston(Glasgow U)
- K. Peters(Darmstadt GSI)
- K. Pysz(Cracow INP)
- K. Seth(Northwestern U)
- K. Szymanska(INFN Turin)
- K. Szymanska(INFN Turin)
- K. Traczyk(Warsaw Inst. Nucl. Studies)
- L. Busso(Turin U)
- L. F. Soloviev(Serpukhov IHEP)
- L. Fava(Piemonte Orientale U. Alessandria)
- L. Ferrero(Turin U)
- L. Geren(Stockholm U)
- L. Isaksson(Lund U)
- L. Lavezzi(Pavia U. & INFN Pavia)
- L. Schmitt(Darmstadt GSI)
- L. V. Malinina(Dubna JINR)
- L. V. Nogach(Serpukhov IHEP)
- L. Wojnar(Cracow Tech. U)
- M. A. . Pasyuk(Dubna JINR)
- M. Agnello(Turin Polytechnic)
- M. Al-Turany(Darmstadt GSI)
- M. Babai(Groningen KVI)
- M. Bragadireanu(Bukarest-Magurele U)
- M. Buescher(Julich Forschungszentrum)
- M. C. Mora Espi(Mainz U. Inst. Phys)
- M. De Napoli(Catania U. & INFN Catania)
- M. Destefanis(Turin U)
- M. Domagala(Cracow Tech. U)
- M. Dueren(Giessen U)
- M. F. M. Lutz()
- M. G. Sapozhnikov(Dubna JINR)
- M. Greco(Turin U)
- M. Hawryluk(Cracow Tech. U)
- M. Hoek(Glasgow U)
- M. K. Suleimanov(Dubna JINR)
- M. Kavatsyuk(Groningen KVI)
- M. Kistryn(Cracow INP)
- M. Kotulla(Giessen U)
- M. Liu(Giessen U)
- M. Lundin(Lund U)
- M. Macri(INFN Genoa)
- M. Maggiora(Turin U)
- M. Marinelli(INFN Genoa)
- M. Mertens(Julich Forschungszentrum)
- M. Murray(Glasgow U)
- M. Nanova(Giessen U)
- M. Negrini(Ferrara U. & INFN Ferrara)
- M. P. Bussa(Turin U)
- M. Pelizaeus(Ruhr U. Bochum)
- M. Plominski(Warsaw Inst. Nucl. Studies)
- M. Roeder(Julich Forschungszentrum)
- M. Savri`e(Ferrara U. & INFN Ferrara)
- M. Steinacher(Basel U)
- M. Steinke(Ruhr U. Bochum)
- M. Sudol(Orsay IPN)
- M. Thiel(Giessen U)
- M. V. Korzhik(Belarus State U)
- M. Yu. Barabanov(Dubna JINR)
- N. B. Skachkov(Dubna JINR)
- N. G. Minaev(Serpukhov IHEP)
- N. I. Belikov(Serpukhov IHEP)
- N. I. Zhuravlev(Dubna JINR)
- O. Malyshev(Moscow Power Engineering Institute)
- O. Miklukho(St. Petersburg INP)
- O. Morra(INAF-IFSI Turin)
- O. Scholten()
- O. V. Missevitch(Belarus State U)
- O. Wang(Beijing Inst. High Energy Phys)
- P. A. Semenov(Serpukhov IHEP)
- P. Achenbach(Mainz U. Inst. Phys)
- P. Buehler(Vienna OAW) , M.F.M. Lutz, B. Pire, O. Scholten, R. Timmermans)
- P. Dalpiaz(Ferrara U. & INFN Ferrara)
- P. De Remigis(INFN Turin)
- P. Drexler(Giessen U)
- P. E. Tegner(Stockholm U)
- P. Fedorets(Moscow ITEP)
- P. Genova(Pavia U. & INFN Pavia)
- P. Gianotti(Frascati)
- P. Hawranek(Jagiellonian U)
- P. Kienle(Vienna OAW) , M.F.M. Lutz, B. Pire, O. Scholten, R. Timmermans)
- P. Kravchenko(St. Petersburg INP)
- P. Kulessa(Cracow INP)
- P. Marciniewski(Uppsala U)
- P. Montagna(Pavia U. & INFN Pavia)
- P. Moskal(Jagiellonian U)
- P. Rosier(Orsay IPN)
- P. Salabura(Jagiellonian U)
- P. Schoenmeier(Giessen U)
- P. Wieczorek(Darmstadt GSI)
- P. Wintz(Julich Forschungszentrum)
- P. Woods(Edinburgh U)
- P. Wuestner(Julich Forschungszentrum)
- PANDA Collaboration
- Q. Weitzel(Munich Tech. U)
- R. A. Salmin(Dubna JINR)
- R. Bertini(INFN Turin)
- R. Birsa(Trieste U. & INFN Trieste)
- R. Dosdall(Julich Forschungszentrum)
- R. Dzhygadlo(Julich Forschungszentrum)
- R. F. Parodi(INFN Genoa)
- R. Hohler(Darmstadt GSI)
- R. Jaekel(Dresden Tech. U)
- R. Kaiser(Glasgow U)
- R. Kliemt(Dresden Tech. U)
- R. Korzeniewski(Otwock-Swierk Inst. Atomic Energy)
- R. Kunne(Orsay IPN)
- R. Maier(Julich Forschungszentrum)
- R. Novotny(Giessen U)
- R. Schubert(Giessen U)
- R. Sh. Teshev(Dubna JINR)
- R. Siudak(Cracow INP)
- R. Timmermans()
- R. Varma(Indian Inst. Tech. Mumbai)
- R. Wheadon(INFN Turin)
- S. A. Zaporozhets(Dubna JINR)
- S. B. Nurushev(Serpukhov IHEP)
- S. Belostotski(St. Petersburg INP)
- S. Borsuk(Warsaw Inst. Nucl. Studies)
- S. Bufalino(Turin U)
- S. Coli(INFN Turin)
- S. Costanza(Pavia U. & INFN Pavia)
- S. Dobbs(Northwestern U)
- S. Fissum(Lund U)
- S. Grape(Uppsala U)
- S. Grigoryan(Dubna JINR)
- S. Kliczewski(Cracow INP)
- S. Lange(Giessen U)
- S. Li(Lanzhou Inst. Modern Phys)
- S. Lumsden(Glasgow U)
- S. Manaenkov(St. Petersburg INP)
- S. Marcello(Turin U)
- S. Neubert(Munich Tech. U)
- S. Ong(Orsay IPN)
- S. Paul(Munich Tech. U)
- S. Peleganchuk(Novosibirsk IYF)
- S. Sanchez(Mainz U. Inst. Phys)
- S. Sosio(Turin U)
- S. Spataro(Giessen U)
- S. Yang(Giessen U)
- St. Kistryn(Jagiellonian U)
- T. A. Pocheptsov(Dubna JINR)
- T. Baeck(Royal Inst. Tech. Stockholm)
- T. Bressani(Turin U)
- T. Clarkson(Glasgow U)
- T. Held(Ruhr U. Bochum)
- T. Hennino(Orsay IPN)
- T. Johansson(Uppsala U)
- T. Keri(Glasgow U)
- T. Kozlowski(Warsaw Inst. Nucl. Studies)
- T. Kugathasan(Turin U)
- T. Randriamalala(Julich Forschungszentrum)
- T. Rausmann(Munster U. ITP)
- T. Saito(Darmstadt GSI)
- T. Schroeder(Ruhr U. Bochum)
- T. Stockmanns(Julich Forschungszentrum)
- T. Wuerschig(Dresden Tech. U)
- T. Zerguerras(Orsay IPN)
- U. Thoering(Giessen U)
- U. Wiedner(Ruhr U. Bochum)
- V. A. Kachanov(Serpukhov IHEP)
- V. A. Kormilitsin(Serpukhov IHEP)
- V. Balanutsa(Moscow ITEP)
- V. Carassiti(Ferrara U. & INFN Ferrara)
- V. Ch. Kudaev(Dubna JINR)
- V. Chernetsky(Moscow ITEP)
- V. Goryachev(Moscow ITEP)
- V. I. Astakhov(Dubna JINR)
- V. I. Dormenev(Belarus State U)
- V. I. Kravtsov(Serpukhov IHEP)
- V. I. Lobanov(Dubna JINR)
- V. Jha(Julich Forschungszentrum)
- V. K. Rodionov(Dubna JINR)
- V. Kh. Dodokhov(Dubna JINR)
- V. L. Malyshev(Dubna JINR)
- V. Lucherini(Frascati)
- V. M. Abazov(Dubna JINR)
- V. Metag(Giessen U)
- V. N. Grishin(Serpukhov IHEP)
- V. S. Jothi(Groningen KVI)
- V. Tudorache(Bukarest-Magurele U)
- V. V. Mochalov(Serpukhov IHEP)
- V. V. Tokmenin(Dubna JINR)
- V. V. Uzhinsky(Dubna JINR)
- V. Vikhrov(St. Petersburg INP)
- W. Czy. zycki(Cracow Tech. U)
- W. Doering(Giessen U)
- W. Erni(Basel U)
- W. Eyrich(Erlangen - Nuremberg U)
- W. Krzemien(Jagiellonian U)
- W. Kuehn(Giessen U)
- W. Schaefer(Cracow INP)
- X. Shen(Beijing Inst. High Energy Phys)
- Y. A. Matulenko(Serpukhov IHEP)
- Y. Heng(Beijing Inst. High Energy Phys)
- Y. M. Goncharenko(Serpukhov IHEP)
- Y. M. Melnik(Serpukhov IHEP)
- Y. Naryshkin(St. Petersburg INP)
- Yu. I. Davydov(Dubna JINR)
- Yu. N. Rogov(Dubna JINR)
- Yu. Tikhonov(Novosibirsk IYF)
- Yu. Yu. Lobanov(Dubna JINR)
- Z. Gagyi-Palffy(Giessen U)
- Z. Guzik(Warsaw Inst. Nucl. Studies)
- Z. Li(Lanzhou Inst. Modern Phys)
- Z. Liu(Beijing Inst. High Energy Phys)
- Z. Metreveli(Northwestern U)
- Z. Rudy(Jagiellonian U)
- Z. Sun(Lanzhou Inst. Modern Phys)
- Publication venue
- Publication date
- Field of study
To study fundamental questions of hadron and nuclear physics in interactions
of antiprotons with nucleons and nuclei, the universal PANDA detector will be
built. Gluonic excitations, the physics of strange and charm quarks and nucleon
structure studies will be performed with unprecedented accuracy thereby
allowing high-precision tests of the strong interaction. The proposed PANDA
detector is a state-of-the art internal target detector at the HESR at FAIR
allowing the detection and identification of neutral and charged particles
generated within the relevant angular and energy range. This report presents a
summary of the physics accessible at PANDA and what performance can be
expected
"Table 1" of "Study of e+e−→ppˉ in the vicinity of ψ(3770)"
- Author
- Ablikim M.
- Achasov M.N.
- Ai X.C.
- Albayrak O.
- Albrecht M.
- Ambrose D.J.
- An F.F.
- An Q.
- Ankara University
- Bai J.Z.
- Baldini Ferroli Ferroli R.
- Ban Y.
- Beihang University
- Bennett J.V.
- Bertani M.
- Bian J.M.
- Boger E.
- Bondarenko O.
- Boyko I.
- Braun S.
- Briere R.A.
- Budker Institute of Nuclear Physics of the Siberian Branch of the RAS
- Cai H.
- Cai X.
- Cakir O.
- Calcaterra A.
- Cao G.F.
- Carnegie Mellon University
- Central China Normal University
- Cetin S.A.
- Chang J.F.
- Chelkov G.
- Chen G.
- Chen H.S.
- Chen J.C.
- Chen M.L.
- Chen S.J.
- Chen X.
- Chen X.R.
- Chen Y.B.
- Cheng H.P.
- China Center of Advanced Science and Technology World Laboratory
- Chu X.K.
- Chu Y.P.
- COMSATS Institute of Information Technology Lahore
- Cronin-Hennessy D.
- Dai H.L.
- Dai J.P.
- Dedovich D.
- Deng Z.Y.
- Denig A.
- Denysenko I.
- Destefanis M.
- Ding W.M.
- Ding Y.
- Dogus University
- Dong C.
- Dong J.
- Dong L.Y.
- Dong M.Y.
- Du S.X.
- Fan J.Z.
- Fang J.
- Fang S.S.
- Fang Y.
- Fava L.
- Feng C.Q.
- Fu C.D.
- Fuks O.
- Gao Q.
- Gao Y.
- Geng C.
- Gesell. fur Schwerionenforschung
- Goetzen K.
- Gong W.X.
- Gradl W.
- Greco M.
- Gu M.H.
- Gu Y.T.
- Guan Y.H.
- Guangxi Normal University
- Guangxi University
- Guo L.B.
- Guo T.
- Guo Y.P.
- Han Y.L.
- Hangzhou Normal University
- Harris F.A.
- He K.L.
- He M.
- He Z.Y.
- Held T.
- Helmholtz Institute Mainz
- Henan Normal University
- Henan University of Science and Technology
- Heng Y.K.
- Hou Z.L.
- Hu C.
- Hu H.M.
- Hu J.F.
- Hu T.
- Huang G.M.
- Huang G.S.
- Huang H.P.
- Huang J.S.
- Huang L.
- Huang X.T.
- Huang Y.
- Huangshan College
- Hunan University
- Hussain T.
- Indiana University
- Institut für Kernphysik der Universität Mainz
- Institute of High Energy Physics Chinese Academy of Science
- Ji C.S.
- Ji Q.
- Ji Q.P.
- Ji X.B.
- Ji X.L.
- Jiang L.L.
- Jiang L.W.
- Jiang X.S.
- Jiao J.B.
- Jiao Z.
- Jin D.P.
- Jin S.
- Johansson T.
- Joint Institute for Nuclear Research Dubna
- Justus Liebig University Giessen
- Kalantar-Nayestanaki N.
- Kang X.L.
- Kang X.S.
- Kavatsyuk M.
- Kloss B.
- Kopf B.
- Kornicer M.
- Kupsc A.
- Kühn W.
- Laboratori Nazionali di Frascati dell'INFN
- Lai W.
- Lange J.S.
- Lanzhou University
- Lara M.
- Larin P.
- Leyhe M.
- Li C.H.
- Li Cheng
- Li Cui
- Li D.
- Li D.M.
- Li F.
- Li G.
- Li H.B.
- Li J.C.
- Li K.
- Li K.
- Li Lei
- Li P.R.
- Li Q.J.
- Li T.
- Li W.D.
- Li W.G.
- Li X.L.
- Li X.N.
- Li X.Q.
- Li Z.B.
- Liang H.
- Liang Y.F.
- Liang Y.T.
- Liaoning University
- Lin D.X.
- Liu B.J.
- Liu C.L.
- Liu C.X.
- Liu F.H.
- Liu Fang
- Liu Feng
- Liu H.B.
- Liu H.H.
- Liu H.M.
- Liu J.
- Liu J.P.
- Liu K.
- Liu K.Y.
- Liu P.L.
- Liu Q.
- Liu S.B.
- Liu X.
- Liu Y.B.
- Liu Z.A.
- Liu Zhiqiang
- Liu Zhiqing
- Loehner H.
- Lou X.C.
- Lu G.R.
- Lu H.J.
- Lu H.L.
- Lu J.G.
- Lu X.R.
- Lu Y.
- Lu Y.P.
- Luo C.L.
- Luo M.X.
- Luo T.
- Luo X.L.
- Lv M.
- Ma F.C.
- Ma H.L.
- Ma Q.M.
- Ma S.
- Ma T.
- Ma X.Y.
- Maas F.E.
- Maggiora M.
- Malik Q.A.
- Mao Y.J.
- Mao Z.P.
- Messchendorp J.G.
- Min J.
- Min T.J.
- Mitchell R.E.
- Mo X.H.
- Mo Y.J.
- Moeini H.
- Morales Morales Morales C.
- Moriya K.
- Moscow Institute of Physics and Technology
- Muchnoi Muchnoi
- Muramatsu H.
- Nanjing Normal University
- Nanjing University
- Nankai University
- National Research Tomsk State University
- Nefedov Y.
- Nerling F.
- Nikolaev I.B.
- Ning Z.
- Nisar S.
- Niu X.Y.
- Novosibirsk State University
- Olsen S.L.
- Ouyang Q.
- Pacetti S.
- Peking University
- Pelizaeus M.
- Peng H.P.
- Peters K.
- Petersburg Nuclear Physics Institute (PNPI)
- Ping J.L.
- Ping R.G.
- Poling R.
- Qi M.
- Qian S.
- Qiao C.F.
- Qin L.Q.
- Qin N.
- Qin X.S.
- Qin Y.
- Qin Z.H.
- Qiu J.F.
- Rashid K.H.
- Redmer C.F.
- Research unit Nuclear & Hadron Physics
- Ripka M.
- Rong G.
- Ruan X.D.
- Ruhr University Bochum
- Russian Academy of Medical Sciences
- Sarantsev A.
- Schoenning K.
- Schumann S.
- Seoul National University
- Sezione di Torino
- Shan W.
- Shandong University
- Shanxi University
- Shao M.
- Shen C.P.
- Shen X.Y.
- Sheng H.Y.
- Shepherd M.R.
- Sichuan University
- Song W.M.
- Song X.Y.
- Soochow University
- Spataro S.
- Spruck B.
- Sun Yat-Sen University
- Sun G.X.
- Sun J.F.
- Sun S.S.
- Sun Y.J.
- Sun Y.Z.
- Sun Z.J.
- Sun Z.T.
- Tang C.J.
- Tang X.
- Tapan I.
- Thorndike E.H.
- Toth D.
- Tsinghua University
- Ullrich M.
- Uludag University
- Uman I.
- University of Chinese Academy of Sciences
- University of Groningen
- University of Groningen
- University of Hawaii at Manoa
- University of Minnesota
- University of Piemonte Orientale
- University of Rochester
- University of Science and Technology of China
- University of South China
- University of Texas at Dallas
- University of the Punjab Lahore
- University of Turin
- Università di Perugia
- Uppsala University
- Varner G.S.
- Wang B.
- Wang D.
- Wang D.Y.
- Wang K.
- Wang L.L.
- Wang L.S.
- Wang M.
- Wang P.
- Wang P.L.
- Wang Q.J.
- Wang S.G.
- Wang W.
- Wang X.F.
- Wang Y.D.
- Wang Y.F.
- Wang Y.Q.
- Wang Z.
- Wang Z.G.
- Wang Z.H.
- Wang Z.Y.
- Wei D.H.
- Wei J.B.
- Weidenkaff P.
- Wen S.P.
- Werner M.
- Wiedner U.
- Wolke M.
- Wu L.H.
- Wu N.
- Wu Z.
- Wuhan University
- Xia L.G.
- Xia Y.
- Xiao D.
- Xiao Z.J.
- Xie Y.G.
- Xiu Q.L.
- Xu G.F.
- Xu L.
- Xu Q.J.
- Xu Q.N.
- Xu X.P.
- Xue Z.
- Yan L.
- Yan W.B.
- Yan W.C.
- Yan Y.H.
- Yang H.X.
- Yang L.
- Yang Y.
- Yang Y.X.
- Ye H.
- Ye M.
- Ye M.H.
- Yu B.X.
- Yu C.X.
- Yu H.W.
- Yu J.S.
- Yu S.P.
- Yuan C.Z.
- Yuan W.L.
- Yuan Y.
- Yuncu A.
- Zafar A.A.
- Zallo A.
- Zang S.L.
- Zeng Y.
- Zhang B.X.
- Zhang B.Y.
- Zhang C.
- Zhang C.B.
- Zhang C.C.
- Zhang D.H.
- Zhang H.H.
- Zhang H.Y.
- Zhang J.J.
- Zhang J.Q.
- Zhang J.W.
- Zhang J.Y.
- Zhang J.Z.
- Zhang S.H.
- Zhang X.J.
- Zhang X.Y.
- Zhang Y.
- Zhang Y.H.
- Zhang Z.H.
- Zhang Z.P.
- Zhang Z.Y.
- Zhao G.
- Zhao J.W.
- Zhao Lei
- Zhao Ling
- Zhao M.G.
- Zhao Q.
- Zhao Q.W.
- Zhao S.J.
- Zhao T.C.
- Zhao X.H.
- Zhao Y.B.
- Zhao Z.G.
- Zhejiang University
- Zhemchugov A.
- Zheng B.
- Zheng J.P.
- Zheng Y.H.
- Zhengzhou University
- Zhong B.
- Zhou L.
- Zhou Li
- Zhou X.
- Zhou X.K.
- Zhou X.R.
- Zhou X.Y.
- Zhu K.
- Zhu K.J.
- Zhu X.L.
- Zhu Y.C.
- Zhu Y.S.
- Zhu Z.A.
- Zhuang J.
- Zou B.S.
- Zou J.H.
- Publication venue
- HEPData
- Publication date
- 01/01/2014
- Field of study
Summary of results at center-of-mass energies from 3.65 to 3.90 GeV. N(SIG) is the number of E+ E- --> P P events; EPSILON is the detection efficiency; L is the integrated luminosity; (1 + DELTA)(DRESSED) is the initial state radiation correction factor without the vacuum polarization correction; and SIG(OBS), SIG(DRESSED) and SIG(BORN) are the observed cross section, the dressed cross section and the Born cross section, respectively
"Table 2" of "Study of e+e−→ppˉ in the vicinity of ψ(3770)"
- Author
- Ablikim M.
- Achasov M.N.
- Ai X.C.
- Albayrak O.
- Albrecht M.
- Ambrose D.J.
- An F.F.
- An Q.
- Ankara University
- Bai J.Z.
- Baldini Ferroli Ferroli R.
- Ban Y.
- Beihang University
- Bennett J.V.
- Bertani M.
- Bian J.M.
- Boger E.
- Bondarenko O.
- Boyko I.
- Braun S.
- Briere R.A.
- Budker Institute of Nuclear Physics of the Siberian Branch of the RAS
- Cai H.
- Cai X.
- Cakir O.
- Calcaterra A.
- Cao G.F.
- Carnegie Mellon University
- Central China Normal University
- Cetin S.A.
- Chang J.F.
- Chelkov G.
- Chen G.
- Chen H.S.
- Chen J.C.
- Chen M.L.
- Chen S.J.
- Chen X.
- Chen X.R.
- Chen Y.B.
- Cheng H.P.
- China Center of Advanced Science and Technology World Laboratory
- Chu X.K.
- Chu Y.P.
- COMSATS Institute of Information Technology Lahore
- Cronin-Hennessy D.
- Dai H.L.
- Dai J.P.
- Dedovich D.
- Deng Z.Y.
- Denig A.
- Denysenko I.
- Destefanis M.
- Ding W.M.
- Ding Y.
- Dogus University
- Dong C.
- Dong J.
- Dong L.Y.
- Dong M.Y.
- Du S.X.
- Fan J.Z.
- Fang J.
- Fang S.S.
- Fang Y.
- Fava L.
- Feng C.Q.
- Fu C.D.
- Fuks O.
- Gao Q.
- Gao Y.
- Geng C.
- Gesell. fur Schwerionenforschung
- Goetzen K.
- Gong W.X.
- Gradl W.
- Greco M.
- Gu M.H.
- Gu Y.T.
- Guan Y.H.
- Guangxi Normal University
- Guangxi University
- Guo L.B.
- Guo T.
- Guo Y.P.
- Han Y.L.
- Hangzhou Normal University
- Harris F.A.
- He K.L.
- He M.
- He Z.Y.
- Held T.
- Helmholtz Institute Mainz
- Henan Normal University
- Henan University of Science and Technology
- Heng Y.K.
- Hou Z.L.
- Hu C.
- Hu H.M.
- Hu J.F.
- Hu T.
- Huang G.M.
- Huang G.S.
- Huang H.P.
- Huang J.S.
- Huang L.
- Huang X.T.
- Huang Y.
- Huangshan College
- Hunan University
- Hussain T.
- Indiana University
- Institut für Kernphysik der Universität Mainz
- Institute of High Energy Physics Chinese Academy of Science
- Ji C.S.
- Ji Q.
- Ji Q.P.
- Ji X.B.
- Ji X.L.
- Jiang L.L.
- Jiang L.W.
- Jiang X.S.
- Jiao J.B.
- Jiao Z.
- Jin D.P.
- Jin S.
- Johansson T.
- Joint Institute for Nuclear Research Dubna
- Justus Liebig University Giessen
- Kalantar-Nayestanaki N.
- Kang X.L.
- Kang X.S.
- Kavatsyuk M.
- Kloss B.
- Kopf B.
- Kornicer M.
- Kupsc A.
- Kühn W.
- Laboratori Nazionali di Frascati dell'INFN
- Lai W.
- Lange J.S.
- Lanzhou University
- Lara M.
- Larin P.
- Leyhe M.
- Li C.H.
- Li Cheng
- Li Cui
- Li D.
- Li D.M.
- Li F.
- Li G.
- Li H.B.
- Li J.C.
- Li K.
- Li K.
- Li Lei
- Li P.R.
- Li Q.J.
- Li T.
- Li W.D.
- Li W.G.
- Li X.L.
- Li X.N.
- Li X.Q.
- Li Z.B.
- Liang H.
- Liang Y.F.
- Liang Y.T.
- Liaoning University
- Lin D.X.
- Liu B.J.
- Liu C.L.
- Liu C.X.
- Liu F.H.
- Liu Fang
- Liu Feng
- Liu H.B.
- Liu H.H.
- Liu H.M.
- Liu J.
- Liu J.P.
- Liu K.
- Liu K.Y.
- Liu P.L.
- Liu Q.
- Liu S.B.
- Liu X.
- Liu Y.B.
- Liu Z.A.
- Liu Zhiqiang
- Liu Zhiqing
- Loehner H.
- Lou X.C.
- Lu G.R.
- Lu H.J.
- Lu H.L.
- Lu J.G.
- Lu X.R.
- Lu Y.
- Lu Y.P.
- Luo C.L.
- Luo M.X.
- Luo T.
- Luo X.L.
- Lv M.
- Ma F.C.
- Ma H.L.
- Ma Q.M.
- Ma S.
- Ma T.
- Ma X.Y.
- Maas F.E.
- Maggiora M.
- Malik Q.A.
- Mao Y.J.
- Mao Z.P.
- Messchendorp J.G.
- Min J.
- Min T.J.
- Mitchell R.E.
- Mo X.H.
- Mo Y.J.
- Moeini H.
- Morales Morales Morales C.
- Moriya K.
- Moscow Institute of Physics and Technology
- Muchnoi Muchnoi
- Muramatsu H.
- Nanjing Normal University
- Nanjing University
- Nankai University
- National Research Tomsk State University
- Nefedov Y.
- Nerling F.
- Nikolaev I.B.
- Ning Z.
- Nisar S.
- Niu X.Y.
- Novosibirsk State University
- Olsen S.L.
- Ouyang Q.
- Pacetti S.
- Peking University
- Pelizaeus M.
- Peng H.P.
- Peters K.
- Petersburg Nuclear Physics Institute (PNPI)
- Ping J.L.
- Ping R.G.
- Poling R.
- Qi M.
- Qian S.
- Qiao C.F.
- Qin L.Q.
- Qin N.
- Qin X.S.
- Qin Y.
- Qin Z.H.
- Qiu J.F.
- Rashid K.H.
- Redmer C.F.
- Research unit Nuclear & Hadron Physics
- Ripka M.
- Rong G.
- Ruan X.D.
- Ruhr University Bochum
- Russian Academy of Medical Sciences
- Sarantsev A.
- Schoenning K.
- Schumann S.
- Seoul National University
- Sezione di Torino
- Shan W.
- Shandong University
- Shanxi University
- Shao M.
- Shen C.P.
- Shen X.Y.
- Sheng H.Y.
- Shepherd M.R.
- Sichuan University
- Song W.M.
- Song X.Y.
- Soochow University
- Spataro S.
- Spruck B.
- Sun Yat-Sen University
- Sun G.X.
- Sun J.F.
- Sun S.S.
- Sun Y.J.
- Sun Y.Z.
- Sun Z.J.
- Sun Z.T.
- Tang C.J.
- Tang X.
- Tapan I.
- Thorndike E.H.
- Toth D.
- Tsinghua University
- Ullrich M.
- Uludag University
- Uman I.
- University of Chinese Academy of Sciences
- University of Groningen
- University of Groningen
- University of Hawaii at Manoa
- University of Minnesota
- University of Piemonte Orientale
- University of Rochester
- University of Science and Technology of China
- University of South China
- University of Texas at Dallas
- University of the Punjab Lahore
- University of Turin
- Università di Perugia
- Uppsala University
- Varner G.S.
- Wang B.
- Wang D.
- Wang D.Y.
- Wang K.
- Wang L.L.
- Wang L.S.
- Wang M.
- Wang P.
- Wang P.L.
- Wang Q.J.
- Wang S.G.
- Wang W.
- Wang X.F.
- Wang Y.D.
- Wang Y.F.
- Wang Y.Q.
- Wang Z.
- Wang Z.G.
- Wang Z.H.
- Wang Z.Y.
- Wei D.H.
- Wei J.B.
- Weidenkaff P.
- Wen S.P.
- Werner M.
- Wiedner U.
- Wolke M.
- Wu L.H.
- Wu N.
- Wu Z.
- Wuhan University
- Xia L.G.
- Xia Y.
- Xiao D.
- Xiao Z.J.
- Xie Y.G.
- Xiu Q.L.
- Xu G.F.
- Xu L.
- Xu Q.J.
- Xu Q.N.
- Xu X.P.
- Xue Z.
- Yan L.
- Yan W.B.
- Yan W.C.
- Yan Y.H.
- Yang H.X.
- Yang L.
- Yang Y.
- Yang Y.X.
- Ye H.
- Ye M.
- Ye M.H.
- Yu B.X.
- Yu C.X.
- Yu H.W.
- Yu J.S.
- Yu S.P.
- Yuan C.Z.
- Yuan W.L.
- Yuan Y.
- Yuncu A.
- Zafar A.A.
- Zallo A.
- Zang S.L.
- Zeng Y.
- Zhang B.X.
- Zhang B.Y.
- Zhang C.
- Zhang C.B.
- Zhang C.C.
- Zhang D.H.
- Zhang H.H.
- Zhang H.Y.
- Zhang J.J.
- Zhang J.Q.
- Zhang J.W.
- Zhang J.Y.
- Zhang J.Z.
- Zhang S.H.
- Zhang X.J.
- Zhang X.Y.
- Zhang Y.
- Zhang Y.H.
- Zhang Z.H.
- Zhang Z.P.
- Zhang Z.Y.
- Zhao G.
- Zhao J.W.
- Zhao Lei
- Zhao Ling
- Zhao M.G.
- Zhao Q.
- Zhao Q.W.
- Zhao S.J.
- Zhao T.C.
- Zhao X.H.
- Zhao Y.B.
- Zhao Z.G.
- Zhejiang University
- Zhemchugov A.
- Zheng B.
- Zheng J.P.
- Zheng Y.H.
- Zhengzhou University
- Zhong B.
- Zhou L.
- Zhou Li
- Zhou X.
- Zhou X.K.
- Zhou X.R.
- Zhou X.Y.
- Zhu K.
- Zhu K.J.
- Zhu X.L.
- Zhu Y.C.
- Zhu Y.S.
- Zhu Z.A.
- Zhuang J.
- Zou B.S.
- Zou J.H.
- Publication venue
- HEPData
- Publication date
- 01/01/2014
- Field of study
The two solutions of the dressed cross section and the corresponding phase angles, PHI
"Table 3" of "Evidence for e+e−→γχc1,2 at center-of-mass energies from 4.009 to 4.360 GeV"
- Author
- Ablikim M.
- Achasov M.N.
- Ai X.C.
- Albayrak O.
- Albrecht M.
- Ambrose D.J.
- Amoroso A.
- An F.F.
- An Q.
- Ankara University
- Bai J.Z.
- Baldini Ferroli Ferroli R.
- Ban Y.
- Beihang University
- Bennett D.W.
- Bennett J.V.
- Bertani M.
- Bettoni D.
- Bian J.M.
- Bianchi F.
- Bogazici University
- Boger E.
- Bondarenko O.
- Boyko I.
- Briere R.A.
- Budker Institute of Nuclear Physics of the Siberian Branch of the RAS
- Cai H.
- Cai X.
- Cakir O.
- Calcaterra A.
- Cao G.F.
- Carnegie Mellon University
- Central China Normal University
- Cetin S.A.
- Chang J.F.
- Chelkov G.
- Chen G.
- Chen H.S.
- Chen H.Y.
- Chen J.C.
- Chen M.L.
- Chen S.J.
- Chen X.
- Chen X.R.
- Chen Y.B.
- Cheng H.P.
- China Center of Advanced Science and Technology World Laboratory
- Chu X.K.
- Cibinetto G.
- COMSATS Institute of Information Technology Lahore
- Cronin-Hennessy D.
- Dai H.L.
- Dai J.P.
- Dbeyssi A.
- De Mori Mori F.
- Dedovich D.
- Deng Z.Y.
- Denig A.
- Denysenko I.
- Destefanis M.
- Ding Y.
- Dogus University
- Dong C.
- Dong J.
- Dong L.Y.
- Dong M.Y.
- Du S.X.
- Duan P.F.
- Fan J.Z.
- Fang J.
- Fang S.S.
- Fang X.
- Fang Y.
- Fava L.
- Feldbauer F.
- Felici G.
- Feng C.Q.
- Fioravanti E.
- Fritsch M.
- Fu C.D.
- Gao Q.
- Gao Y.
- Gao Z.
- Garzia I.
- Gesell. fur Schwerionenforschung
- Goetzen K.
- Gong W.X.
- Gradl W.
- Greco M.
- Gu M.H.
- Gu Y.T.
- Guan Y.H.
- Guangxi Normal University
- Guangxi University
- Guo A.Q.
- Guo L.B.
- Guo T.
- Guo Y.
- Guo Y.P.
- Haddadi Z.
- Hafner A.
- Han S.
- Han Y.L.
- Hangzhou Normal University
- Harris F.A.
- He K.L.
- He Z.Y.
- Held T.
- Helmholtz Institute Mainz
- Henan Normal University
- Henan University of Science and Technology
- Heng Y.K.
- Hou Z.L.
- Hu C.
- Hu H.M.
- Hu J.F.
- Hu T.
- Hu Y.
- Huang G.M.
- Huang G.S.
- Huang H.P.
- Huang J.S.
- Huang X.T.
- Huang Y.
- Huangshan College
- Hunan University
- Hussain T.
- Indiana University
- Infn Sezione di Ferrara
- Institut für Kernphysik der Universität Mainz
- Institute of High Energy Physics Chinese Academy of Science
- Istanbul Arel University
- Istanbul Aydin University
- Ji Q.
- Ji Q.P.
- Ji X.B.
- Ji X.L.
- Jiang L.L.
- Jiang L.W.
- Jiang X.S.
- Jiao J.B.
- Jiao Z.
- Jin D.P.
- Jin S.
- Johansson T.
- Joint Institute for Nuclear Research Dubna
- Julin A.
- Justus Liebig University Giessen
- Kalantar-Nayestanaki N.
- Kang X.L.
- Kang X.S.
- Kavatsyuk M.
- Ke B.C.
- Kliemt R.
- Kloss B.
- Kolcu O.B.
- Kopf B.
- Kornicer M.
- Kuehn W.
- Kupsc A.
- Laboratori Nazionali di Frascati dell'INFN
- Lai W.
- Lange J.S.
- Lanzhou University
- Lara M.
- Larin P.
- Li C.H.
- Li Cheng
- Li D.M.
- Li F.
- Li G.
- Li H.B.
- Li J.C.
- Li Jin
- Li K.
- Li K.
- Li P.R.
- Li T.
- Li W.D.
- Li W.G.
- Li X.L.
- Li X.M.
- Li X.N.
- Li X.Q.
- Li Z.B.
- Liang H.
- Liang Y.F.
- Liang Y.T.
- Liao G.R.
- Liaoning University
- Lin D.X.
- Liu B.J.
- Liu C.L.
- Liu C.X.
- Liu F.H.
- Liu Fang
- Liu Feng
- Liu H.B.
- Liu H.H.
- Liu H.H.
- Liu H.M.
- Liu J.
- Liu J.P.
- Liu J.Y.
- Liu K.
- Liu K.Y.
- Liu L.D.
- Liu P.L.
- Liu Q.
- Liu S.B.
- Liu X.
- Liu X.X.
- Liu Y.B.
- Liu Z.A.
- Liu Zhiqiang
- Liu Zhiqing
- Loehner H.
- Lou X.C.
- Lu H.J.
- Lu J.G.
- Lu R.Q.
- Lu Y.
- Lu Y.P.
- Luo C.L.
- Luo M.X.
- Luo T.
- Luo X.L.
- Lv M.
- Lyu X.R.
- Ma F.C.
- Ma H.L.
- Ma L.L.
- Ma Q.M.
- Ma S.
- Ma T.
- Ma X.N.
- Ma X.Y.
- Maas F.E.
- Maggiora M.
- Malik Q.A.
- Mao Y.J.
- Mao Z.P.
- Marcello S.
- Messchendorp J.G.
- Min J.
- Min T.J.
- Mitchell R.E.
- Mo X.H.
- Mo Y.J.
- Morales C.
- Moriya K.
- Moscow Institute of Physics and Technology
- Muramatsu H.
- Nanjing Normal University
- Nanjing University
- Nankai University
- Nefedov Y.
- Nerling F.
- Nikolaev I.B.
- Ning Z.
- Nisar S.
- Niu S.L.
- Niu X.Y.
- Novosibirsk State University
- Olsen S.L.
- Ouyang Q.
- Pacetti S.
- Patteri P.
- Peking University
- Pelizaeus M.
- Peng H.P.
- Peters K.
- Petersburg Nuclear Physics Institute (PNPI)
- Ping J.L.
- Ping R.G.
- Poling R.
- Pu Y.N.
- Qi M.
- Qian S.
- Qiao C.F.
- Qin L.Q.
- Qin N.
- Qin X.S.
- Qin Y.
- Qin Z.H.
- Qiu J.F.
- Rashid K.H.
- Redmer C.F.
- Ren H.L.
- Research unit Nuclear & Hadron Physics
- Ripka M.
- Rong G.
- Ruan X.D.
- Ruhr University Bochum
- Russian Academy of Medical Sciences
- Santoro V.
- Sarantsev A.
- Savrié M.
- Schoenning K.
- Schumann S.
- Seoul National University
- Sezione di Torino
- Shan W.
- Shandong University
- Shanghai Jiaotong University
- Shanxi University
- Shao M.
- Shen C.P.
- Shen P.X.
- Shen X.Y.
- Sheng H.Y.
- Shepherd M.R.
- Sichuan University
- Song W.M.
- Song X.Y.
- Soochow University
- Sosio S.
- Spataro S.
- Spruck B.
- Sun Yat-Sen University
- Sun G.X.
- Sun J.F.
- Sun S.S.
- Sun Y.J.
- Sun Y.Z.
- Sun Z.J.
- Sun Z.T.
- Tang C.J.
- Tang X.
- Tapan I.
- Thorndike E.H.
- Tiemens M.
- Toth D.
- Tsinghua University
- Ullrich M.
- Uludag University
- Uman I.
- University of Chinese Academy of Sciences
- University of Groningen
- University of Hawaii at Manoa
- University of Minnesota
- University of Piemonte Orientale
- University of Rochester
- University of Science and Technology of China
- University of South China
- University of Texas at Dallas
- University of the Punjab Lahore
- University of Turin
- Università di Ferrara
- Università di Perugia
- Uppsala University
- Varner G.S.
- Wang Yadi Yadi Y.D.
- Wang B.
- Wang B.L.
- Wang D.
- Wang D.Y.
- Wang K.
- Wang L.L.
- Wang L.S.
- Wang M.
- Wang P.
- Wang P.L.
- Wang Q.J.
- Wang S.G.
- Wang W.
- Wang X.F.
- Wang Y.F.
- Wang Y.Q.
- Wang Z.
- Wang Z.G.
- Wang Z.H.
- Wang Z.Y.
- Weber T.
- Wei D.H.
- Wei J.B.
- Weidenkaff P.
- Wen S.P.
- Wiedner U.
- Wolke M.
- Wu L.H.
- Wu Z.
- Wuhan University
- Xia L.G.
- Xia Y.
- Xiao D.
- Xiao Z.J.
- Xie Y.G.
- Xu G.F.
- Xu L.
- Xu Q.J.
- Xu Q.N.
- Xu X.P.
- Yan L.
- Yan W.B.
- Yan W.C.
- Yan Y.H.
- Yang H.X.
- Yang L.
- Yang Y.
- Yang Y.X.
- Ye H.
- Ye M.
- Ye M.H.
- Yin J.H.
- Yu Muchnoi Muchnoi N.
- Yu B.X.
- Yu C.X.
- Yu H.W.
- Yu J.S.
- Yuan C.Z.
- Yuan W.L.
- Yuan Y.
- Yuncu A.
- Zafar A.A.
- Zallo A.
- Zeng Y.
- Zhang B.X.
- Zhang B.Y.
- Zhang C.
- Zhang C.C.
- Zhang D.H.
- Zhang H.H.
- Zhang H.Y.
- Zhang J.J.
- Zhang J.L.
- Zhang J.Q.
- Zhang J.W.
- Zhang J.Y.
- Zhang J.Z.
- Zhang K.
- Zhang L.
- Zhang S.H.
- Zhang X.Y.
- Zhang Y.
- Zhang Y.H.
- Zhang Y.T.
- Zhang Z.H.
- Zhang Z.P.
- Zhang Z.Y.
- Zhao G.
- Zhao J.W.
- Zhao J.Y.
- Zhao J.Z.
- Zhao Lei
- Zhao Ling
- Zhao M.G.
- Zhao Q.
- Zhao Q.W.
- Zhao S.J.
- Zhao T.C.
- Zhao Y.B.
- Zhao Z.G.
- Zhejiang University
- Zhemchugov A.
- Zheng B.
- Zheng J.P.
- Zheng W.J.
- Zheng Y.H.
- Zhengzhou University
- Zhong B.
- Zhou L.
- Zhou Li
- Zhou X.
- Zhou X.K.
- Zhou X.R.
- Zhou X.Y.
- Zhu K.
- Zhu K.J.
- Zhu S.
- Zhu X.L.
- Zhu Y.C.
- Zhu Y.S.
- Zhu Z.A.
- Zhuang J.
- Zou B.S.
- Zou J.H.
- Publication venue
- HEPData
- Publication date
- 01/01/2016
- Field of study
The results on e+e−→γχc2 Born cross section measurement. Shown in the table are the significance σ, detection efficiency ϵ, number of signal events from the fits Nobs, radiative correction factor (1+δr), vacuum polarization factor (1+δv), upper limit (at the 90% C.L.) on the number of signal events NUP, Born cross section σB and upper limit (at the 90% C.L.) on the Born cross section σUP at different CME points