Maxim Dolgushev
Laboratoire de Physique Théorique de la Matière Condensée
Sorbonne Université
Tour 12/13, 5ème étage, bureau 513
4 Place Jussieu
75252 Paris Cedex 05
France
E-Mail: name.familyname AT sorbonne-universite.fr
[44] L. Régnier, M. Dolgushev, S. Redner, O. Bénichou. Complete visitation statistics of one-dimensional random walks. Phys. Rev. E 105, 064104 (2022).
[43] N. N. Sheveleva, M. Dolgushev, E. Lähderanta, D. A. Markelov. Mechanical relaxation of functionalized carbosilane dendrimer melts. Phys. Chem. Chem. Phys. 24, 13049-13056 (2022).
[42] T. Guérin, M. Dolgushev, O. Bénichou, R. Voituriez. Universal kinetics of imperfect reactions in confinement. Communications Chemistry 4, 157 (2021).
[41] N. N. Sheveleva, M. Dolgushev, E. Lähderanta, D. A. Markelov. NMR relaxation of functionalized dendrimers. Macromolecules 52, 9766-9772 (2019).
[40] N. Levernier, M. Dolgushev, O. Bénichou, R. Voituriez, T. Guérin. Survival probability of stochastic processes beyond persistence exponents. Nat. Commun. 10, 2990 (2019).
[39] M. Dolgushev, D. A. Markelov, E. Lähderanta. Linear viscoelasticity of carbosilane dendrimer melts. Macromolecules 52, 2542−2547 (2019).
[38] D. A. Markelov, F. Fürstenberg, M. Dolgushev. NMR relaxation in semiflexible Vicsek fractals. Polymer 144, 65-71 (2018).
[37] J. Grimm, M. Dolgushev. Dynamics of networks in a viscoelastic and active environment. Soft Matter 14, 1171-1180 (2018).
[36] M. Galiceanu, L. Tota de Carvalho, O. Mülken, M. Dolgushev. Dynamics of dual scale-free polymer networks. Polymers 9, 577 (2017).
[35] M. Dolgushev, A. L. Hauber, P. Pelagejcev, J. P. Wittmer. Marginally compact fractal trees with semiflexibility. Phys. Rev. E 96, 012501 (2017)
[34] M. Dolgushev, S. Schnell, D. A. Markelov. Local NMR relaxation of dendrimers in the presence of hydrodynamic interactions. Appl. Magn. Res. 48, 657-671 (2017).
[33] O. Mülken, S. Heinzelmann, M. Dolgushev. Information dimension of stochastic processes on networks: relating entropy production to spectral properties. J. Stat. Phys. 167, 1233 (2017).
[32] M. Dolgushev, J. P. Wittmer, A. Johner, O. Benzerara, H. Meyer, J. Baschnagel. Marginally compact hyperbranched polymer trees. Soft Matter 13, 2499-2512 (2017).
[31] D. A. Markelov, M. Dolgushev, E. Lähderanta. NMR Relaxation in Dendrimers. Annu. Rep. NMR Spectrosc. 91, 1-66 (2017).
[30] M. Dolgushev, H.X. Liu, Z.Z. Zhang. Extended Vicsek fractals: Laplacian spectra and their applications. Phys. Rev. E 94, 052501 (2016).
[29] M. Dolgushev, D. A. Markelov, F. Fürstenberg, T. Guérin. Local orientational mobility in regular hyperbranched polymers. Phys. Rev. E 94, 012502 (2016).
[28] J. Grimm, M. Dolgushev. Dynamics of internally functionalized dendrimers. Phys. Chem. Chem. Phys. 18, 19050-19061 (2016).
[27] J. Mielke, M. Dolgushev. Relaxation dynamics of semiflexible fractal macromolecules. Polymers 8, 263 (2016).
[26] M. Galiceanu, E. S. Oliveira, M. Dolgushev. Relaxation dynamics of small-world degree-distributed treelike polymer networks. Physica A 462, 376-385 (2016).
[25] H.X. Liu, Y. Lin, M. Dolgushev, Z.Z. Zhang. Dynamics of comb-of-comb networks. Phys. Rev. E 93, 032502 (2016).
[24] O. Mülken, M. Dolgushev, M. Galiceanu. Complex quantum networks: From universal breakdown to optimal transport. Phys. Rev. E 93, 022304 (2016).
[23] J. Yusupov, M. Dolgushev, A. Blumen, O. Mülken. Directed transport in quantum star graphs. Quant. Inf. Proc. 15, 1765-1777 (2016).
[22] M. Dolgushev, T. Guérin, A. Blumen, O. Bénichou, R. Voituriez. Contact kinetics in fractal macromolecules. Phys. Rev. Lett. 115, 208301 (2015).
[21] N. Kulvelis, M. Dolgushev, O. Mülken. Universality at breakdown of quantum transport on complex networks. Phys. Rev. Lett. 115, 120602 (2015).
[20] N. Levernier, M. Dolgushev, O. Bénichou, A. Blumen, T. Guérin, R. Voituriez. Non-Markovian closure kinetics of flexible polymers with hydrodynamic interactions. JCP 143, 204108 (2015).
[19] F. Fürstenberg, M. Dolgushev, A. Blumen. Exploring the applications of fractional calculus: Hierarchically built semiflexible polymers. Chaos, Solitons, and Fractals 81, 527 (2015).
[18] H.X. Liu, M. Dolgushev, Y. Qi, Z.Z. Zhang. Laplacian spectra of a class of small-world networks and their applications. Sci. Rep. 5, 9024 (2015).
[17] F. Fürstenberg, A.A. Gurtovenko, M. Dolgushev, A. Blumen. Molecular dynamics simulations of hyperbranched PAMAM Vicsek fractals. Macromol. Theory Simul. 24, 100 (2015).
[16] Y. Qi, M. Dolgushev, Z.Z. Zhang. Dynamics of semiflexible recursive small-world polymer networks. Sci. Rep. 4, 7576 (2014).
[15] T. Guérin, M. Dolgushev, O. Bénichou, R. Voituriez, A. Blumen. Cyclization kinetics of Gaussian semiflexible polymer chains. Phys. Rev. E 90, 052601 (2014).
[14] M. Galiceanu, A.S. Reis, M. Dolgushev. Dynamics of semiflexible scale-free polymer networks. J. Chem. Phys. 141, 144902 (2014).
[13] M. Dolgushev, T. Guérin, A. Blumen, O. Bénichou, R. Voituriez. Gaussian semiflexible rings under angular and dihedral restrictions. J. Chem. Phys. 141, 014901 (2014).
[12] D.A. Markelov, M. Dolgushev, Y.Y. Gotlib, A. Blumen. NMR relaxation of the orientation of single segments in semiflexible dendrimers. J. Chem. Phys. 140, 244904 (2014).
[11] F. Fürstenberg, M. Dolgushev, A. Blumen. Dynamics of semiflexible regular hyperbranched polymers. J. Chem. Phys. 138, 034904 (2013).
[10] M. Dolgushev, A. Blumen. Dynamics of discrete semiflexible chains under dihedral constraints: Analytic results. J. Chem. Phys. 138, 204902 (2013).
[9] M. Dolgushev, M. Krutyeva. Coherent dynamic structure factor of a polymer chain confined into a harmonic radial potential. Macromol. Theory Simul. 21, 565 (2012).
[8] F. Fürstenberg, M. Dolgushev, A. Blumen. Analytical model for the dynamics of semiflexible dendritic polymers. J. Chem. Phys. 136, 154904 (2012).
[7] G. Berezovska, M. Dolgushev, A. Blumen. Semiflexibility highlights the polymers' topology: Monte Carlo studies. Macromol. Symp. 316, 1 (2012).
[6] M. Dolgushev, G. Berezovska, A. Blumen, Branched semiflexible polymers: Theoretical and Simulation Aspects. Macromol. Theory Simul. 20, 621 (2011).
[5] M. Dolgushev, G. Berezovska, A. Blumen. Maximum entropy principle applied to semiflexible ring polymers. J. Chem. Phys. 135, 094901 (2011).
[4] M. Dolgushev, G. Berezovska, A. Blumen. Cospectral polymers: Differentiation via semiflexibility. J. Chem. Phys. 133, 154905 (2010).
[3] M. Dolgushev, A. Blumen. Dynamics of chains and dendrimers with heterogeneous semiflexibility. J. Chem. Phys. 132, 124905 (2010).
[2] M. Dolgushev, A. Blumen. Dynamics of semiflexible treelike networks. J. Chem. Phys. 131, 044905 (2009).
[1] M. Dolgushev, A. Blumen. Dynamics of semiflexible chains, stars, and dendrimers. Macromolecules 42, 5378 (2009).
Current teaching at Sorbonne University
· 2022/2023: Physique Statistique (M1), Mécanique Statistique (M1 PAD), Thermodinamique (L2), Mécanique I (L1)
· 2021/2022: Thermodinamique (L2), Mécanique I, Mécanique II, Mathématiques (L1)
· 2020/2021: Mécanique I (L1)
· 2019/2020: Mécanique I, Mécanique II (L1)
List of courses taught in University of Freiburg
· Summer 17: Classical Complex Dynamics [L,E,e];
· Winter 16/17: Preparatory Course in Mathematics [L]
· Summer 16: Theoretical Solid State Physics [E,e,l]
· Winter 15/16: Preparatory Course in Mathematics [L] & Classical Complex Systems [L,E,e] & Selected Topics of Statistical Physics [s]
· Summer 15: Theory of Disordered Matter [E,e,l] & Modern Aspects in Soft Matter Physics [s]
· Winter 14/15: Statistical Physics [E,l]
· Summer 14: Theoretical Solid State Physics [E,e,l]
· Winter 13/14: Theoretical Electrodynamics and Special Relativity [E,l]
· Summer 13: Theoretical Mechanics and Special Relativity [E,l] & Dynamics in Complex Systems and Atomistic Simulations [s]
· Winter 12/13: Statistical Physics [E,l]
· Summer 12: Theoretical Condensed Matter [E,e,l]
· Winter 11/12: Theory of Disordered Systems [E,e,l]
· Summer 11: Quantum Mechanics I [e]
· Winter 10/11: Electrodynamics [e]
· Summer 10: Theoretical Solid State Physics [E,e]
· Winter 09/10: Theoretical Polymer Physics [E,e,l]
· Summer 09: Quantum Mechanics II [e]
· Winter 08/09: Statistical Physics [e]
· Summer 08: Quantum Mechanics II [e]
· Winter 07/08: Statistical Physics [e]
(as tutor in exercise sessions [e], supervisor/coordinator of exercises groups and exams [E], lecturer [L] or substitute lecturer [l], supervisor in seminars [s])
Education
2001-2007 Study of Physics in Kazan State University (Russia)
2005 Bachelor-Diploma in Physics, with honors (supervisor Prof. N.F. Fatkullin)
2007 Master-Diploma in Physics, with honors (supervisor Prof. N.F. Fatkullin)
2011 PhD degree (Dr. rer. nat. for Theoretical Physics), summa cum laude, at Institute of Physics, University Freiburg (supervisor Prof. A. Blumen)
Professional experience
2007-2011 Research Fellow, Institute of Physics, University Freiburg, Germany
08/2011-12/2011 Postdoctoral Fellow (E13), Institute of Physics, University Freiburg, Germany
01/2012-10/2017 Senior Postdoctoral Fellow (A13), Institute of Physics, University Freiburg, Germany
02/2016-10/2017 Collaborator in Institut Charles Sadron, CNRS, Strasbourg, France
11/2017-08/2019 Postdoctoral Fellow, LPTMC, UPMC & CNRS, Paris, France
09/2019-today Maître de Conférences, LPTMC, Sorbonne Université, Paris, France