2024

• Chebotar՚, I.D. Systems of Strongly Correlated Electrons Interacting with Each Other and with Phonons: Diagrammatic Approach. Surf Eng Appl Elect. 2025, 60(1), 94—108. Doi: 10.3103/S1068375524010058.
   
• Ceban, V.; Macovei, M. Enhanced phonon lifetimes with optically controlled single molecules. J Opt Soc Am B. 2024, 41(1), 216—221. Doi: 10.1364/JOSAB.506974 (IF: 1,9).

2023

• Ceban, V.; Macovei, M.A.; Isar, A. Phonon Mediated Collective Dynamics of Coherently Pumped Two-Level Emitters. Rom J Phys. 2023, 68(9-10), 114-1—114-10. Doi: 10.59277/RomJPhys.2023.68.114 (IF: 1,5).

• Чеботарь, И.Д. Системы сильно коррелированных электронов, взаимодействующих между собой и с фононами. Диаграммный подход. Электронная обработка материалов. 2023, 59(5), 72—89. Doi: 10.52577/eom.2023.59.5.72.

• Baznat, M.; Teryaev, O.V.; Zinchenko, A.V. Polarization of Λ Hyperons in Gold Nucleus Collisions at NICA Energies. Phys. Part. Nucl. Lett. 2023, 20(3), 407—411. Doi: 10.1134/S154747712303010X (IF: 0,5).
  Базнат, М.; Теряев, О.В.; Зинченко, A.В. Поляризация Λ-гиперонов в столкновениях ядер золота при энергиях ускорителя NICA. Письма в ЭЧАЯ. 2023, 20(3), 428—433.

• Pavlenko, V.; Beloussov, I. Amplified spontaneous emission from CdSe/CdS/CdZnS quantum dot films. J Lumin. 2023, 257, 119643. Doi: 10.1016/j.jlumin.2022.119643 (IF: 4,171).

2022

• Baznat, M.; Baldin, A.; Baldina, E.; Paraipan, M.; Pronskikh, V.; Zhivkov, P. Cascade models in simulation of extended heavy targets irradiated by accelerated proton and deuteron beams. Phys Part Nuclei. 2022, 53(5), 1000—1020. Doi: 10.1134/S1063779622050021 (IF: 0,786).
  Baznat, M.; Baldin, A.; Baldina, E.; Paraipan, M.; Pronskikh, V.; Zhivkov, P. Cascade models in simulation of extended heavy targets irradiated by accelerated proton and deuteron beams. Физика элементарных частиц и атомного ядра. 2022, 53(5), 1219.

• Abgaryan, V.;... Baznat, M.;... Khovostukhin, A.;...(MDP collaboration). Status and initial physics performance studies of the MPD experiment at NICA. Eur Phys J A. 2022, 58(8), 140. Doi: 10.1140/epja/s10050-022-00750-6 (IF: 3,131).

• Macovei, M.A. Performance of the collective three-level quantum thermal engine. Phys Rev A. 2022, 105(4), 043708. Doi: 10.1103/PhysRevA.105.043708 (IF: 3,140).

• Macovei, M.A.; Palffy, A. Multiphonon quantum dynamics in cavity optomechanical systems. Phys Rev A. 2022, 105(3), 033503. Doi: 10.1103/PhysRevA.105.033503 (IF: 3,140).

• Titarenko, Yu.E.; Batyaev, V.F.; Pavlov, K.V.; Titarenko, A.Yu.; Malinovskiy, S.V.; Rogov, V.I.; Zhivun, V.M.; Kulevoy, T.V.; Chauzova, M.V.; Khalikov, R.S.; Ignatyuk, A.V.; Blandinskiy, V.Yu.; Kovalishin, A.A.; Baznat, M.I.; Stankovskiy, A.Yu.; Dubrouski, A.I.; Kiyavitskaya, H.I.; Xue,T.; Tian, Yang.; Zeng, M.; Zeng, Zh.; Normahmedov, O.; Sato, T. ^{206,207,208,nat}Pb(p,x)¹⁹⁴Hg and ²⁰⁹Bi(p,x)¹⁹⁴Hg excitation functions in the energy range 0.04–2.6 GeV. Nucl Instrum Meth A. 2022, 1026, 166151. Doi: 10.1016/j.nima.2021.166151 (IF: 1,455).

• Carlig; S.; Mirzac, A.; Bardetski, P.; Macovei, M.A. Quantum Photon Conversion via Coherently Driven Permanent Dipole Systems. În: ICNBME 2021, IFMBE Proceedings 87, 2022. 5th International Conference on Nanotechnologies and Biomedical Engineering, November 3–5, 2021, Chisinau, Moldova, p. 11—16. Doi: 10.1007/978-3-030-92328-0_2.

• Ceban, V.; Macovei, M.A. Population Dynamics in a Modulated Optomechanical Setup. În: ICNBME 2021, IFMBE Proceedings 87, 2022. 5th International Conference on Nanotechnologies and Biomedical Engineering, November 3–5, 2021, Chisinau, Moldova, p. 298—305. Doi: 10.1007/978-3-030-92328-0_40.

2021

• Zinchenko, A.; Teryaev, O.V.; Baznat, M.; Sorin, A.S. Polarization of Lambda-hyperons, vorticity and helicity structure in heavy-ion collisions. În: PoS - Proceedings of Science. EPS-HEP2021. https://pos.sissa.it/cgi-bin/reader/list.cgi?type=published. The European Physical Society Conference on High Energy Physics, Online conference, 26-30 July 2021, Hamburg, Germany , p. 308—314.

• Khvorostukhin, A.S. Calculation of the one-loop box integral at finite temperature and density. Acta Phys Pol B. 2021, 52(11), 1303—1337. Doi: 10.5506/APhysPolB.52.1303 (IF: 0,748).

• Mîrzac, A.; Carlig, S.; Macovei, M.A. Microwave multiphoton conversion via coherently driven permanent dipole systems. Phys Rev A. 2021, 103(4), 043719. Doi: 10.1103/PhysRevA.103.043719 (IF: 2,777).

• Mihaescu, T.; Cecoi, E.; Macovei, M.A.; Isar, A. Geometric discord for a driven two-qubit system. Rom Rep Phys. 2021, 73(1), 101-1—101-16 (IF: 2,147).

• Khvorosrtukhin, A.S.; Kolomeitsev, E.E.; Toneev, D.D. Hybrid model with viscous relativistic hydrodynamics: a role of constraints on the shear-stress tensor. Eur Phys J A. 2021, 57(10), 294. Doi: 10.1140/epja/s10050-021-00599-1 (IF: 3,043).

• Abramov, B.M.; Baznat, M.; Borodin, Yu.A.; Bulychjov, S.A.; Dukhovskoy, I.A.; Krutenkova, A.P.; Kulikov, V.V.; Martemianov, M.A.; Matsyuk, M.A.; Turdakina E. N. Cumulative π-Mesons in ¹²C+⁹Be-Interactions at 3.2 GeV/Nucleon. Phys Part Nuclei. 2021, 84(4), 467—474. Doi: 10.1134/S1063778821040037 (IF: 0,485).

• Nazarova, E.; Akhat, R.; Baznat, M.; Teryaev, O.; Zinchenko, A. Monte Carlo Study of Λ Polarization at MPD. Phys Part Nuclei Lett. 2021, 18(4), 429—438. Doi: 10.1134/S1547477121040142.

2020

• Macovei, M.; Evers, J.; Keitel, Ch.H. Spontaneous decay processes in a classical strong low-frequency laser field. Phys Rev A. 2020, 102(1), 013718-1—013718-7. Doi: 10.1103/PhysRevA.102.013718 (IF: 2,907).

• Cecoi, E.; Ciornea, V.; Isar, A.; Macovei, M. Entanglement versus cooling in the system of a driven pair of two-level qubits longitudinally coupled with a boson mode field. J Phys B-At Mol Opt. 2020, 53(6), 065501-1—065501-8. Doi 10.1088/1361-6455/ab5d8e (IF: 2,115).

• Mîrzac, A.; Mihaescu, T.; Macovei, M.; Isar, A. Interferometric power of gaussian systems in a squeezed thermal bath. Rom J Phys. 2020, 65, 102 (IF: 1,460).

• Ceban, V.; Macovei, M.A. Quantum Interferences with Equidistant Three-Level Quantum Wells. În: IFMBE Proceedings, V. 77, Springer, 2020, p. 155—159. Doi: 10.1007/978-3-030-31866-6_32.

• Mirzac, A.; Macovei, M.A. Steady-State Behaviors of a Quantum Oscillator Coupled with a Three-Level Emitter. În: IFMBE Proceedings, V. 77, Springer, 2020, p. 677—680. Doi: 10.1007/978-3-030-31866-6_119.

• Palii, Y. Parametrization of the conjugacy class of the special linear group. J Math Sci. 2020, 251(3), 405—418. Doi: 10.1007/s10958-020-05100-9.

• Titarenko, Yu.E.; Batyaev, V.F.; Pavlov, K.V.; Titarenko, A.Yu.; Malinovskiy, S.V.; Rogov, V.I.; Zhivun, V.M.; Kulevoy, T.V.; Chauzova, M.V.; Lushin, S.V.; Busygin, A.S.; Ignatyuk, A.V.; Alekseev, P.N.; Blandinskiy, V.Yu.; Kovalishin, A.A.; Tyutyunnikov, S.I.; Baldin, A.A.; Sosnin, A.N.; Baznat, M.I.; Stankovskiy, A.Yu.; Dubrouski, A.I.; Kiyavitskaya, H.I.; Xue, T.; Tian, Y.; Zeng, M.; Zeng, Z.; Sato, T. ^{208,207,206,nat}Pb(p,x)²⁰⁷Bi and ²⁰⁹Bi (p,x)²⁰⁷Bi excitation functions in the energy range of 0.04 - 2.6 GeV. Nucl Instrum Meth A. 2020, 984, 164635-1—164635-8. Doi: 10.1016/j.nima.2020.164635 (IF: 1,433).

• Baznat, M.; Botvina, A.; Musulmanbekov, G.; Toneev, V.; Zhezher, V. Monte-Carlo Generator of Heavy Ion Collisions DCM-SMM. Phys Part Nuclei Lett. 2020, 17(3), 303—324. Doi:10.1134/S1547477120030024.

• Khushvaktov, J.H.; Tichý, P.; Adam, J.; Baldin, A.A.; Baznat, M.; Brunčiaková, M.; Furman, W.I.; Gustova, S.A.; Král, D.; Solnyshkin, A.A.; Stegailov, V.I.; Svoboda, J.; Tsoupko-Sitnikov, V.M.; Tyutyunnikov, S.I.; Vespalec, R.; Vrzalová, J.; Wagner, V.; Yudin, I.P.; Yuldashev, B.S.; Závorka, L.; Zeman, M. Study of the residual nuclei generation in a massive lead target irradiated with 660 MeV protons. Nucl Instrum Meth A. 2020, 959, 163542—163542. Doi: 10.1016/j.nima.2020.163542 (IF: 1,433).

2019

• Mîrzac, A. Dinamica răcirii cuantice a unui oscilator cuplat cu un atom artificial. Akademos. 2019, 4(55), 16—19. Doi: 10.5281/zenodo.3631279.

• Mîrzac, A.; Macovei, M.A. Dynamics of a quantum oscillator coupled with a three-level Λ-type emitter . J Opt Soc Am B. 2019, 36(9), 2473—2480. Doi: 10.1364/JOSAB.36.002473 (IF: 2,284).

2018

• Ciornea, V.; Cecoi, E.; Macovei, M.A. Diminuarea intensității câmpului fluorescent a doi qubiți pompați laser. Akademos. 2018, 4(51), 28—31. ISSN 1857-0461.

• Mirzac, A.V.; Ciornea, V.; Macovei, M.A. Non-classical light scattered by laser-pumped molecules possessing permanent dipoles. Mold J Phys Sci. 2018, 17(1-2), 95—104. ISSN 1810-648X.

• Cecoi, E.; Ciornea, V.; Isar, A.; Macovei, M.A. Entanglement of a laser driven pair of two-level qubits via its phonon environment. J Opt Soc Am B. 2018, 35(5), 1127—1132. Doi: 10.1364/JOSAB.35.001127 (IF: 1,843) [Editors' Pick].

• Ceban, V.; Macovei, M.A. Enhanced cooling for stronger qubit-phonon couplings. Rom Rep Phys. 2018, 70(1), 407-1—407-8. ISSN 1221-1451 (IF: 1,467).

2017

• Cui, N.; Macovei, M.A. Amplifying ultraweak transitions in collective systems via quantum interference. Phys Rev A. 2017, 96(6), 063814-1—063814-5. ISSN 1050-2947. Doi 10.1103/PhysRevA.96.063814 (IF: 2,925).

• Ceban, V. Phase-dependent quantum interferences with three-level artificial atoms. Rom J Phys. 2017, 62(5-6), 207, ISSN 1221-146X (IF: 1,398).

• Jin, L.; Evers, J.; Macovei, M. Collective dynamics in a laser-pumped mixture of two atomic ensembles. J Opt Soc Am B. 2017, 34(6), 1280—1285. Doi: 10.1364/JOSAB.34.001280 (IF: 1,731).

• Carlig, S.; Macovei, M.A. Enhanced vibrational quantum dynamics beyond the rotating wave approximation. Jetp Lett. 2017, 105(8), 526—530. Doi: 10.1134/S0021364017080033 (IF: 1,172).

• Ceban, V.; Longo, P.; Macovei, M.A. Fast phonon dynamics of a nanomechanical oscilator due to cooperative effects. Phys Rev A. 2017, 95(2), 023806-1—023806-5. Doi: 10.1103/PhysRevA.95.023806 (IF: 2,765).

Brevete de invenție/Patents

• Nateprov, A.; Nateprov, A.; Gherman, C.; Arușanov, E. Procedeu de obținere a monocristalelor de arsenură de niobiu sau tantal. Brevet de Invenție nr. MD 4552 C12018.09.30.