MPD physics performance studies in Bi+Bi collisions at √sNN= 9.2 GeV
Abdulin R. Abgaryan V. Adhikary R. Afanaciev K.G. Afanaciev S.V. Agakishiev G. Alexandrov E.I. Alexandrov I.N. Alvarado-Hernández M. Andreev D.I. Andreeva S.V. Andreeva T.V. Andronov E.V. Anfimov N.V. Anikeev A. Anufriev A.V. Aparin A.A. Arteche-Diaz R. Astakhov V.I. Aushev T. Avdeev S.P. Averichev G.S. Averyanov A.V. Ayala A. Azorskiy V.N. Bavichev L. Babkin V.A. Bakhtin P. Balandin A.I. Balashov N.A. Baranov A. Baranov D.A. Baranova N.V. Baratov R.V. Barbashina N. Barbasová V. Baryshnikov V.M. Basharina K.D. Baskakov A.E. Bayev V.G. Bazhazhin A.G. Bazylev S.N. Beletsky P. Belokurova S.V. Belyaev A.V. Belyaeva E.V. Belyakov D.V. Berdnikov Y. Berezov F. Bhattacharjee M. Bietenholz W. Blau D. Bogdanova G.A. Bogoslovsky D.N. Boguslavski I.V. Bondar E.A. Boos E.E. Botvina A. Brandin A. Bulychjov S.A. Burdelnaya V. Burmasov N. Buryakov M.G. Busa J. Butenko A.V. Buzin S.G. Bychkov A.V. Cao Z. Ceballos-Sánchez C. Chalyshev V.V. Chepurnov V.F. Chepurnov V.V. Cheremukhina G.A. Chernyshov A.S. Cuautle E. Demanov A. Dementiev D.V. Derkach D. Dmitriev A.V. Dolbilina E.V. Dodokhov V.H. Dolbilov A.G. Domínguez I. Donetz D.E. Dronik V.I. Dubrovin A.Y. Dulov P.O. Dunin V.B. Dyachenko A. Efremov A.A. Egorov D.S. Elsha V.V. Emelianov N.E. Erkenova J. Eyyubova G.H. Ezhilov A. Fang D. Fateev O.V. Fedin O. Fedosimova A.I. Fedotov Y.I. Fedotov A.S. Fedotova J.A. Fedunin A.A. Feng S. Feofilov G.A. Filippov I.A. Fomenko G. Gaganova M.A. Galaktionov K.A. Galkin Y.D. Galoyan A.S. Gao C. García-González P.E. Gavrishuk O.P. Geraksiev N.S. Gerasimov S.E. Gertsenberger V.V. Gevorgyan N. Ghoneim Y. Golosov O. Golovatyuk V.M. Golubeva M. Golunov A.O. Goncharov I. Gorbunov N.V. Gordeev P. Gorelikov I.P. Grigorian H. Grigoriev P.N. Guber F. Guo D. Guskov A.V. Han D. Han W. He W. Hernández-Rosas L.A. Herrera M. Hnatic S. Hnaticˇ M. Huang M. Ibraimova S.A. Idrisov D.M. Idrisova T.K. Igamkulov Z.A. Igolkin S.N. Isupov A.Y. Ivanishchev D. Ivanov A.V. Ivashkin A. Jiao J. Jadochnikov I. Kakurin S.I. Kalinichenko N.I. Kamkin A. Kapishin M.N. Karmanov D.E. Karpushkin N. Kashunin I.A. Kasumov Y. Kechechyan A.O. Kekelidze G.D. Kekelidze V.D. Khanzadeev A. Kharlamov P.I. Khodzhibagiyan G.G. Kidanova E. Kireyeu V.A. Kiriushin Y.T. Kochenda L. Kodolova O.L. Kokorev A.A. Kolesnikov A.O. Kolesnikov V.I. Kolomoyets N. Kolozhvari A.A. Kondtratiev V. Korenkov V.V. Korolev M.G. Korotkikh V.L. Kostylev A.I. Kotov D. Kovalenko V.N. Kozmin I. Kramarenko V.A. Kravčáková A. Kravtsov P. Krechetov Y.F. Kruglova I.V. Krylov V.A. Krylov A.V. Kryshen E. Kryukov A.P. Kuklin S.N. Kulikov V.V. Kulikovskaya A.A. Kunts A.V. Kurbatov E. Kurepin A. Kuskov V. Kuzmin V.A. Kyrianova A. Lanskoy D.E. Lashmanov N.A. Lednicky R. Leontev V.V. Lebedev I.A. Li L. Li P. Li S. Ligdenova T.Z. Litomin A.V. Litvinenko E.I. Liu D. Lobanov V.I. Lobanov Y.Y. Lobastov S.P. Lokhtin I.P. Lukstins J.R. Larionova D. Lobanov A. Lu P. Luna-Reyes I. Luo X. Ma Y. Madigozhin D.T. Makarov A.A. Maksimenkova V.I. Malakhov A.I. Malaev M. Maldonado-Cervantes I.A. Maleev V. Malikov I.V. Maltsev N.A. Makarov N.A. Maksimov M. Martemianov M.A. Martínez-Torres P. Matsyuk M.A. Medvedeva M. Melikov D.I. Melnikov D.G. Merkin M.M. Mertz S.P. Meshkov I.N. Mialkovski V.V. Migulina I.I. Mikhaylov K.R. Milnov G.D. Milosevic J. Minaev Y.I. Mituxin S.A. Mescheriakov G.V. Molokanova N.A. Morozov S. Moshkin A.A. Movchan S.A. Moybenko A.N. Mukhin K.A. Murin Y.A. Musin S. Musulmanbekov G.G. Mytsin V.V. Muravkin E.E. Nadderd L. Nagdasev R.V. Naryshkin Y. Nechaevskiy A.V. Nikitin V.A. Novoselov V.A. Olexs I.A. Olshevski A.G. Orlov O.E. Papoyan V. Parfenov P.E. Pargicky S.S. Patin˜o-Salazar M.E. Patronova S.V. Pavlyukevich V.A. Pelevanyuk I.S. Penkin V.A. Peresunko D. Peshekhonov D.V. Petrov V.A. Petrov V.V. Piliar A.V. Piloyan A. Piyadin S.M. Platonova M.N. Podgainy D.V. Pokidova M. Popov V.N. Potapov S.S. Prokhorova D.S. Prokofiev N.A. Priakhina D.I. Pshenichnov I. Puchkov A.M. Pukhaeva N. Pyatigor A. Qin J. Ratnikov F. Raya A. Rekovic V. Reyes-Gutiérrez M. Reyes-Pen˜a S. Riabov A. Riabov V. Riabov Y. Rode S.P. Rodrıguez-Alvarez A. Rogachevsky O.V. Rogov V.Y. Rudnev V.A. Rufanov I.A. Rumyantsev M.M. Rudziankou I. Rusak Y. Rybakov A.A. Sadygov Z. Sáenz-Trujillo A.U. Samsonov V.A. Savenkov A.A. Savenkov S. Sedykh S.A. Semchukova T.V. Semenov A.Y. Semenov R.N. Semenova I.A. Serdyuk V.Z. Sergeev S.V. Serikkanov A.S. Serochkin E.V. Shafarevich Y. Shapaev D. Shaposhnikova O.M. Shcheglova L.M. Shopova M.F. Shchegolev D.V. Shchipunov A.V. Shen Y. Sheremetiev A.D. Sheremetieva A.I. Shi S. Shitenkov M.O. Shmanay E.E. Shmatov S.V. Shmyrev I.A. Shunko A.A. Shutov A.V. Shutov V.B. Sidorin A.O. Simak S.V. Slepnev I.V. Slepnev V.M. Slepov I.P. Smelyanskiy I.A. Snigirev A.M. Sobol O.V. Solomin A.N. Sorin A.S. Stiforov G.G. Stolypina L.Y. Streletskaya E.A. Streltsova O.I. Strikhanov M. Strizh T.A. Strizhak A. Sun X. Suvarieva D.A. Svetlichnyi A. Tang Z. Tejeda-Yeomans M.E. Taranenko A. Tchekhovski V.A. Tereshin D.A. Terletskiy A.V. Teryaev O.V. Tikhomirov V.V. Timoshenko A.A. Tinoco-Santillan G. Toneev V.D. Topilin N.D. Tretyakova T.Y. Trofimov V.V. Troshin V.V. Trubnikov G.V. Trutse A. Tsapulina E.A. Tserruya I. Tyapkin I.A. Udovenko S.Y. Uzhinsky V.V. Val’a M. Valiev F.F. Vasendina V.A. Vasilyev A. Vechernin V.V. Velichkov V.K. Vereshagin S.V. Vodopyanov A.S. Vokhmyanina K. Volkov V. Voronin A.L. Vorontsov A.N. Voronyuk V. Vrlakova J. Wang J. Wang X. Wang Y. Wang Y. Wang Y. Wu K. Xiao L. Xiao M. Xie G. Yang C. Yang H. Yuan Z. Yurevich V.I. Yurchenko S.V. Zabrodin E.E. Zalite G. Zamyatin N.I. Zaporozhets S.A. Zarochentsev A.K. Zha W. Zhalov M. Zhang H. Zhang Y. Zhang Z. Zhao C. Zhavoronkova I. Zherebchevsky V.I. Zhu X. Zhu X. Zinchenko A.I. Zinchenko D.A. Zruyev V.N. Zuev M.I. Zur I.A. Zvyagina A.P.
1 July 2025Sociedad Mexicana de Fisica
Revista Mexicana de Fisica
2025#71Issue 4
The Multi-Purpose Detector (MPD) is one of the three experiments of the Nuclotron Ion Collider-fAcility (NICA) complex, which is currently under construction at the Joint Institute for Nuclear Research in Dubna. With collisions of heavy ions in the collider mode, the MPD will cover the energy range √sNN= 4 − 11 GeV to scan the high baryon-density region of the QCD phase diagram. With expected statistics of 50–100 million events collected during the first run, MPD will be able to study a number of observables, including measurements of light hadrons and (hyper)nuclei production, particle flow, correlations and fluctuations, have a first look at dielectron production, and modification of vector-meson properties in dense matter. In this paper, we present selected results of the physics feasibility studies for the MPD experiment in Bi+Bi collisions at √sNN= 9.2 GeV, the system considered as one of the first available at the NICA collider. Copyright (c) 2025 R. Abdulin, V. Abgaryan, R. Adhikary, et-al. This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Heavy-ion collision experiments , quark-gluon matter
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A.I. Alikhanyan National Lab of Armenia, Yerevan, Armenia
Belgorod National Research University, Belgorod, Russian Federation
Departamento de Física, Universidad Autónoma Metropolitana-Iztapalapa, Mexico City, Mexico
División de Posgrado, Facultad de Ingeniería Eléctrica, Universidad Michoacana de San Nicolás de Hidalgo, Morelia, Mexico
Facultad de Ciencias - CUICBAS, Universidad de Colima, Colima, Mexico
Facultad de Ciencias Físico-Matemáticas, Universidad Autónoma de Sinaloa, Culiacán, Mexico
Fudan University, Shanghai, China
HSE University, Moscow, Russian Federation
Huzhou University, Huzhou, China
Institute for Nuclear Research of the Russian Academy of Sciences, Moscow, Russian Federation
Institute of Modern Physics of the Chinese Academy of Science, Langzhou, China
Institute of Physics and Technology, Satbayev University, Almaty, Kazakhstan
Institute of Power Engineering of the National Academy of Sciences of Belarus, Minsk, Belarus
Instituto de Ciencias Nucleares, Universidad Nacional Autónoma de México, Mexico City, Mexico
Instituto de Física y Matemáticas, Universidad Michoacana de San Nicolás de Hidalgo, Morelia, Mexico
Joint Institute for Nuclear Research, Dubna, Russian Federation
Key Laboratory of Quark and Lepton Physics of the Ministry of Education, Central China Normal University, Wuhan, China
Moscow Institute of Physics and Technology, Moscow, Russian Federation
National Research Center “Kurchatov Institute”, Moscow, Russian Federation
Petersburg Nuclear Physics Institute named by B.P. Konstantinov of NRC “Kurchatov Institute”, Gatchina, Russian Federation
National Research Nuclear University MEPhI (Moscow Engineering Physics Institute), Moscow, Russian Federation
North Ossetian State University, Vladikavkaz, Russian Federation
Pavol Jozef Šafárik University, Košice, Slovakia
Peter the Great St. Petersburg Polytecnic University, Saint Petersburg, Russian Federation
Plekhanov Russian University of Economics, Moscow, Russian Federation
Plovdiv University Paisii Hilendarski, Plovdiv, Bulgaria
Research Institute for Nuclear Problems of Belarusian State University (INP BSU), Minsk, Belarus
Saint Petersburg State University, Saint Petersburg, Russian Federation
School of Nuclear Science and Technology, University of the Chinese Academy of Sciences, Beijing, China
Shandong University, Qingdao, China
Skobeltsyn Institute of Nuclear Physics (SINP) of the Moscow State University, Moscow, Russian Federation
State Scientific Institution “Joint Institute for Energy and Nuclear Research - Sosny” of the National Academy of Sciences of Belarus, Minsk, Belarus
Three Gorges University, Yichang, China
Tsinghua University, Beijing, China
University of Science and Technology of China, Hefei, China
University of South China, Hengyang, China
“VINČ A” Institute of Nuclear Science, National Institute of the Republic of Serbia, University of Belgrade, Serbia
Weizmann Institute of Science, Rehovot, Israel
A.I. Alikhanyan National Lab of Armenia
Belgorod National Research University
Departamento de Física
División de Posgrado
Facultad de Ciencias - CUICBAS
Facultad de Ciencias Físico-Matemáticas
Fudan University
HSE University
Huzhou University
Institute for Nuclear Research of the Russian Academy of Sciences
Institute of Modern Physics of the Chinese Academy of Science
Institute of Physics and Technology
Institute of Power Engineering of the National Academy of Sciences of Belarus
Instituto de Ciencias Nucleares
Instituto de Física y Matemáticas
Joint Institute for Nuclear Research
Key Laboratory of Quark and Lepton Physics of the Ministry of Education
Moscow Institute of Physics and Technology
National Research Center “Kurchatov Institute”
Petersburg Nuclear Physics Institute named by B.P. Konstantinov of NRC “Kurchatov Institute”
National Research Nuclear University MEPhI (Moscow Engineering Physics Institute)
North Ossetian State University
Pavol Jozef Šafárik University
Peter the Great St. Petersburg Polytecnic University
Plekhanov Russian University of Economics
Plovdiv University Paisii Hilendarski
Research Institute for Nuclear Problems of Belarusian State University (INP BSU)
Saint Petersburg State University
School of Nuclear Science and Technology
Shandong University
Skobeltsyn Institute of Nuclear Physics (SINP) of the Moscow State University
State Scientific Institution “Joint Institute for Energy and Nuclear Research - Sosny” of the National Academy of Sciences of Belarus
Three Gorges University
Tsinghua University
University of Science and Technology of China
University of South China
“VINČ A” Institute of Nuclear Science
Weizmann Institute of Science
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