Publications
Publications
Assistant Professor
TC411
+86 755-235-19734
Mathematics, Physics
There are a few PhD and postdoc positions in the group. I am seeking graduate students/scholars with a strong theoretical background in Mathematics, Physics, Chemistry or Materials. A good programming/computational skill is also desired.
Amorphous materials, nonequilibrium statistic mechanics, light-matter interaction theory, exciton dynamics, quantum measurement theory, Bohmian mechanics
[20] B. Cui, The classical dynamics for the center of mass of a large quantum system, Physics Letters A, accepted, 482, 129041 (2023).
[19] B. Cui, M. Sukharev, A. Nitzan, Comparing semiclassical mean-field and 1-exciton approximations in evaluating optical response under strong light-matter coupling conditions, The Journal of Chemical Physics, accepted, 158, 164113 (2023).
[18] B. Cui, M. Sukharev, A. Nitzan, Short-time particle motion in one and two-dimensional lattice with site disorder, The Journal of Chemical Physics, 158, 164112 (2023).
[17] B. Cui, A. Nitzan, “Collective response in light-matter interactions: The interplay between electronic strong coupling and local dynamics”, The Journal of Chemical Physics 157, 114108, (2022) Editor’s pick, the 2022 JCP Editors’ Choice.
[16] T. Li, B. Cui, J. E. Subtonik, A. Nitzan, Molecular polaritonics: Chemical Dynamics under strong Light-Matter Coupling, Annual Review of Physical Chemistry 73, 1 (2022).
[15] B. Cui, G. T. Craven, A. Nitzan, Heat transport induced by electron transfer: A general temperature quantum calculation, The Journal of Chemical Physics 155, 194104 (2021).
[14] B. Cui, A. Zaccone, Vibrational density of states of amorphous solids with long-ranged power-law
correlated disorder in elasticity, The European Physical Journal E 43, 72 (2020).
[13] B. Cui, A. Zaccone, Analytical prediction of logarithmic Rayleigh scattering in amorphous solids from tensorial heterogeneous elasticity with power-law disorder, Soft Matter 16, 7797 (2020).
[12] B. Cui, E. Terentjev, Comparison of the Helmholtz, Gibbs and Collective-modes to obtain nonaffine elastic constants, Journal of the Mechanics and Physics of Solids 140, 103954 (2020).
[11] B. Cui, J. F. Gebbia, M. Romamini, S. Rudic, R. Fernandez-Perea, F. J. Bermejo, J.-L. Tamarit, A. Zaccone, Secondary relaxation in the terahertz range in 2-adamantanone from theory and experiments, Physical Review B 101, 104202 (2020).
[10] B. Cui, A. Zaccone, D. Rodney, Nonaffine lattice dynamics with the Ewald method reveals strongly nonaffine elasticity of α-quartz, The Journal of Chemical Physics, 151, 224509 (2019).
[9] M. Baggioli, B. Cui, A. Zaccone, Theory of phonon glass behaviour in host-guest crystalline solids with avoided crossing, Physical Review B 100, 220201 (2019).
[8] B. Cui, G. Ruocco, A. Zaccone, Theory of elastic constants of athermal amorphous solids with internal stresses, Granular Matter 21, 69 (2019).
[7] B. Cui, O. Sugino, Lattice mismatch pattern and the Dirac point of a monolayer borophene, Vacuum and Surface Science 61, 11 (2018).
[6] B. Cui, Z. Evenson, B. Fan, M Li, W.-H. Wang, A. Zaccone, Possible origin of β-relaxation in metallic glasses from atomic-mass differences of the constituents, Physical Review B 98, 144201 (2018).
[5] B. Cui, J. F. Gebbia, J.-L. Tamarit, A. Zaccone, Disentangling α and β relaxation in orientationally disordered crystals with theory and experiments, Physical Review E 97, 053001 (2018). [4] B. Cui, A. Zaccone, Generalized Langevin Equation and non-Markovian fluctuation-dissipation theorem for particle-bath systems in external oscillating fields, Physical Review E 97, 060102 (2018).
[3] B. Cui, J. Yang, J. Qiao, L. Dai, M. Jiang, Y.-J. Wang, A. Zaccone, Atomic theory of viscoelastic response of metallic glasses, Physical Review B 96, 094203 (2017).
[2] B. Cui, R. Milkus, A. Zaccone, Direct link between soft vibrational modes and dielectric α-relaxation in glasses, Physical Review E 95, 022603 (2017).
[1] B. Cui, R. Milkus, A. Zaccone, The relation between stretched-exponential relaxation and the vibrational density of stated in glassy disordered systems, Physics Letters A 381, 446 (2017).