edoc

PANDA Phase One

Barucca, G. and Davi, F. and Lancioni, G. and Mengucci, P. and Montalto, L. and Natali, P. P. and Paone, N. and Rinaldi, D. and Scalise, L. and Krusche, B. and Steinacher, M. and Liu, Z. and Liu, C. and Liu, B. and Shen, X. and Sun, S. and Zhao, G. and Zhao, J. and Albrecht, M. and Alkakhi, W. and Bokelmann, S. and Coen, S. and Feldbauer, F. and Fink, M. and Frech, J. and Freudenreich, V. and Fritsch, M. and Grochowski, J. and Hagdorn, R. and Heinsius, F. H. and Held, T. and Holtmann, T. and Keshk, I. and Koch, H. and Kopf, B. and Kummel, M. and Kussner, M. and Li, J. and Linzen, L. and Maldaner, S. and Oppotsch, J. and Pankonin, S. and Pelizaus, M. and Pfluger, S. and Reher, J. and Reicherz, G. and Schnier, C. and Steinke, M. and Triffterer, T. and Wenzel, C. and Wiedner, U. and Denizli, H. and Er, N. and Keskin, U. and Yerlikaya, S. and Yilmaz, A. and Beck, R. and Chauhan, V. and Hammann, C. and Hartmann, J. and Ketzer, B. and Muellers, J. and Salisbury, B. and Schmidt, C. and Thoma, U. and Urban, M. and Bianconi, A. and Bragadireanu, M. and Pantea, D. and Rimjaem, S. and Domagala, M. and Filo, G. and Lisowski, E. and Lisowski, F. and Michalek, M. and Poznanski, P. and Plazek, J. and Korcyl, K. and Lebiedowicz, P. and Pysz, K. and Schafer, W. and Szczurek, A. and Firlej, M. and Fiutowski, T. and Idzik, M. and Moron, J. and Swientek, K. and Terlecki, P. and Korcyl, G. and Lalik, R. and Malige, A. and Moskal, P. and Nowakowski, K. and Przygoda, W. and Rathod, N. and Salabura, P. and Smyrski, J. and Augustin, I. and Boehm, R. and Lehmann, I. and Schmitt, L. and Varentsov, V. and Al-Turany, M. and Belias, A. and Deppe, H. and Dzhygadlo, R. and Flemming, H. and Gerhardt, A. and Goetzen, K. and Heinz, A. and Jiang, P. and Karabowicz, R. and Koch, S. and Kurilla, U. and Lehmann, D. and Luehning, J. and Lynen, U. and Orth, H. and Peters, K. and Puetz, J. and Ritman, J. and Schepers, G. and Schmidt, C. J. and Schwarz, C. and Schwiening, J. and Taschner, A. and Traxler, M. and Voss, B. and Wieczorek, P. and Abazov, V. and Alexeev, G. and Barabanov, M. Yu. and Dodokhov, V. Kh. and Efremov, A. and Fechtchenko, A. and Galoyan, A. and Golovanov, G. and Koshurnikov, E. K. and Lobanov, Y. Yu. and Olshevskiy, A. G. and Piskun, A. A. and Samartsev, A. and Shimanski, S. and Skachkov, N. B. and Skachkova, A. N. and Strokovsky, E. A. and Tokmenin, V. and Uzhinsky, V. and Verkheev, A. and Vodopianov, A. and Zhuravlev, N. I. and Watts, D. and Boehm, M. and Eyrich, W. and Lehmann, A. and Miehling, D. and Pfaffinger, M. and Seth, K. and Xiao, T. and Ali, A. and Hamdi, A. and Himmelreich, M. and Krebs, M. and Nakhoul, S. and Nerling, F. and Gianotti, P. and Lucherini, V. and Bracco, G. and Bodenschatz, S. and Brinkmann, K. T. and Brueck, L. and Diehl, S. and Dormenev, V. and Dueren, M. and Erlen, T. and Hahn, C. and Hayrapetyan, A. and Hofmann, J. and Kegel, S. and Khalid, F. and Koeseoglu, I. and Kripko, A. and Kuehn, W. and Metag, V. and Moritz, M. and Nanova, M. and Novotny, R. and Orsich, P. and Pereira-de-Lira, J. and Sachs, M. and Schmidt, M. and Schubert, R. and Strickert, M. and Wasem, T. and Zaunick, H. G. and Tomasi-Gustafsson, E. and Glazier, D. and Ireland, D. and Seitz, B. and Kappert, R. and Kavatsyuk, M. and Loehner, H. and Messchendorp, J. and Rodin, V. and Kalita, K. and Huang, G. and Liu, D. and Peng, H. and Qi, H. and Sun, Y. and Zhou, X. and Kunze, M. and Azizi, K. and Olgun, A. T. and Tavukoglu, Z. and Derichs, A. and Dosdall, R. and Esmail, W. and Gillitzer, A. and Goldenbaum, F. and Grunwald, D. and Jokhovets, L. and Kannika, J. and Kulessa, P. and Orfanitski, S. and Perez-Andrade, G. and Prasuhn, D. and Prencipe, E. and Rosenthal, E. and Schadmand, S. and Schmitz, R. and Scholl, A. and Sefzick, T. and Serdyuk, V. and Stockmanns, T. and Veretennikov, D. and Wintz, P. and Wuestner, P. and Xu, H. and Zhou, Y. and Cao, X. and Hu, Q. and Liang, Y. and Rigato, V. and Isaksson, L. and Achenbach, P. and Corell, O. and Denig, A. and Distler, M. and Hoek, M. and Lauth, W. and Leithoff, H. H. and Merkel, H. and Mueller, U. and Petersen, J. and Pochodzalla, J. and Schlimme, S. and Sfienti, C. and Thiel, M. and Bleser, S. and Boelting, M. and Capozza, L. and Dbeyssi, A. and Ehret, A. and Klasen, R. and Kliemt, R. and Maas, F. and Motzko, C. and Noll, O. and Pineiro, D. Rodriguez and Schupp, F. and Steinen, M. and Wolff, S. and Zimmermann, I. and Kazlou, D. and Korzhik, M. and Missevitch, O. and Balanutsa, P. and Chernetsky, V. and Demekhin, A. and Dolgolenko, A. and Fedorets, P. and Gerasimov, A. and Golubev, A. and Kantsyrev, A. and Kirin, D. Y. and Kristi, N. and Ladygina, E. and Luschevskaya, E. and Matveev, V. A. and Panjushkin, V. and Stavinskiy, A. V. and Balashoff, A. and Boukharov, A. and Bukharova, M. and Malyshev, O. and Vishnevsky, E. and Bonaventura, D. and Brand, P. and Hetz, B. and Huesken, N. and Kellers, J. and Khoukaz, A. and Klostermann, D. and Mannweiler, C. and Vestrick, S. and Bumrungkoh, D. and Herold, C. and Khosonthongkee, K. and Kobdaj, C. and Limphirat, A. and Manasatitpong, K. and Nasawad, T. and Pongampai, S. and Simantathammakul, T. and Srisawad, P. and Wongprachanukul, N. and Yan, Y. and Yu, C. and Zhang, X. and Zhu, W. and Antokhin, E. and Barnyakov, A. Yu. and Beloborodov, K. and Blinov, V. E. and Kuyanov, I. A. and Pivovarov, S. and Pyata, E. and Tikhonov, Y. and Blinov, A. E. and Kononov, S. and Kravchenko, E. A. and Lattery, M. and Boca, G. and Duda, D. and Finger, M. and Finger, Jr. and Kveton, A. and Prochazka, I. and Slunecka, M. and Volf, M. and Jary, V. and Korchak, O. and Marcisovsky, M. and Neue, G. and Novy, J. and Tomasek, L. and Tomasek, M. and Virius, M. and Vrba, V. and Abramov, V. and Bukreeva, S. and Chernichenko, S. and Derevschikov, A. and Ferapontov, V. and Goncharenko, Y. and Levin, A. and Maslova, E. and Melnik, Y. and Meschanin, A. and Minaev, N. and Mochalov, V. and Moiseev, V. and Morozov, D. and Nogach, L. and Poslavskiy, S. and Ryazantsev, A. and Ryzhikov, S. and Semenov, P. and Shein, I. and Uzunian, A. and Vasiliev, A. and Yakutin, A. and Belostotski, S. and Fedotov, G. and Izotov, A. and Manaenkov, S. and Miklukho, O. and Cederwall, B. and Preston, M. and Tegner, P. E. and Wolbing, D. and Gandhi, K. and Rai, A. K. and Godre, S. and Crede, V. and Dobbs, S. and Eugenio, P. and Bussa, M. P. and Spataro, S. and Calvo, D. and De Remigis, P. and Filippi, A. and Mazza, G. and Wheadon, R. and Iazzi, F. and Lavagno, A. and Akram, A. and Calen, H. and Andersson, W. Ikegami and Johansson, T. and Kupsc, A. and Marciniewski, P. and Papenbrock, M. and Regina, J. and Rieger, J. and Schonning, K. and Wolke, M. and Chlopik, A. and Kesik, G. and Melnychuk, D. and Tarasiuk, J. and Wojciechowski, M. and Wronka, S. and Zwieglinski, B. and Amsler, C. and Buehler, P. and Marton, J. and Zimmermann, S. and Fischer, C. S. and Haidenbauer, J. and Hanhart, C. and Lutz, M. F. M. and Ryan, Sinead M.. (2021) PANDA Phase One. European Physical Journal A: Hadrons and Nuclei , 57 (6). p. 184.

[img]
Preview
PDF - Published Version
Available under License CC BY (Attribution).

4Mb

Official URL: https://edoc.unibas.ch/87244/

Downloads: Statistics Overview

Abstract

The Facility for Antiproton and Ion Research (FAIR) in Darmstadt, Germany, provides unique possibilities for a new generation of hadron-, nuclear- and atomic physics experiments. The future antiProton ANnihilations at DArmstadt (PANDA or PANDA) experiment at FAIR will offer a broad physics programme, covering different aspects of the strong interaction. Understanding the latter in the non-perturbative regime remains one of the greatest challenges in contemporary physics. The antiproton-nucleon interaction studied with PANDA provides crucial tests in this area. Furthermore, the high-intensity, low-energy domain of PANDA allows for searches for physics beyond the Standard Model, e.g. through high precision symmetry tests. This paper takes into account a staged approach for the detector setup and for the delivered luminosity from the accelerator. The available detector setup at the time of the delivery of the first antiproton beams in the HESR storage ring is referred to as the Phase One setup. The physics programme that is achievable during Phase One is outlined in this paper.
Faculties and Departments:05 Faculty of Science > Departement Physik > Physik > Hadronenphysik (Krusche)
UniBasel Contributors:Krusche, Bernd
Item Type:Article, refereed
Article Subtype:Research Article
Publisher:EDP Sciences with Springer and Società Italiana di Fisica
ISSN:1434-6001
e-ISSN:1434-601X
Note:Publication type according to Uni Basel Research Database: Journal article
Language:English
Identification Number:
edoc DOI:
Last Modified:11 Apr 2022 09:50
Deposited On:11 Apr 2022 09:50

Repository Staff Only: item control page