The Reichman group's research deals broadly with the chemistry, physics, and biology of disordered materials. The systems studied range from traditional glass-forming systems, soft materials (gels, colloidal suspensions, emulsions), and biological systems. Covering an extremely range of broad length scales, time scales, and functionality, our work is connected by the common themes of disorder, structural and dynamical heterogeneity, and the potential for dynamical arrest in metastable configurations.
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M. S. Foster, T. C. Berkelbach, D. R. Reichman and E. A. Yuzbashyan, Quantum quench spectroscopy of a Luttinger liquid: Ultrarelativistic density wave dynamics due to fractionalization in an XXZ chain. Phys. Rev. B 84, 085146 (2011).
E. Gull, D. R. Reichman and A. J. Millis, Numerically exact long-time behavior of nonequilibrium quantum impurity models. Phys. Rev. B 84, 085134 (2011).
L. Zhao, R. He, K. T. Rim, T. Schiros, K. S. Kim, H. Zhou, C. Gutiérrez, S. P. Chockalingam, C. J. Arguello, L. Pálová, D. Nordlund, M. S. Hybertsen, D. R. Reichman, T. F. Heinz, P. Kim, A. Pinczuk, G. W. Flynn and A. N. Pasupathy, Visualizing Individual Nitrogen Dopants in Monolayer Graphene. Science 333, 999-1003 (2011).
D. Segal, A. J. Millis and D. R. Reichman, Nonequilibrium transport in quantum impurity models: exact path integral simulations. Phys. Chem. Chem. Phys. 13, 14378 (2011).
G. Bounos, S. Ghosh, A. K. Lee, K. N. Plunkett, K. H. DuBay, J. C. Bolinger, R. Zhang, R. A. Friesner, C. Nuckolls, D. R. Reichman and P. F. Barbara, Controlling Chain Conformation in Conjugated Polymers Using Defect Inclusion Strategies. Journal of the American Chemical Society 133, 10155-10160 (2011).
F. Elste, D. R. Reichman and A. J. Millis, Transport through a quantum dot with two parallel Luttinger liquid leads. Physical Review B 83, 245405 (2011).
N. Lin, C. A. Marianetti, A. J. Millis and D. R. Reichman, Dynamical Mean-Field Theory for Quantum Chemistry. Physical Review Letters 106, 096402 (2011).
F. Elste, D. R. Reichman and A. J. Millis, Transport through a quantum dot with excitonic dot-lead coupling. Physical Review B 83, 085415 (2011).
T. E. Markland, J. A. Morrone, B. J. Berne, K. Miyazaki, E. Rabani and D. R. Reichman, Quantum fluctuations can promote or inhibit glass formation. Nature Physics 7, 134-137 (2011).
O. Kletenik-Edelman, D. R. Reichman and E. Rabani, On the mode-coupling treatment of collective density fluctuations for quantum liquids: Para-hydrogen and normal liquid helium. Journal of Chemical Physics 134, 045528 (2011).
“On Stochastic Models of Dynamic Disorder,” Reichman, D.R., J. Phys. Chem B, 110: 19061 (2006)
“Contribution of slow clusters to the bulk elasticity near the colloidal glass transition,” Conrad, J.C., P.P. Dhillon, E.R. Weeks, D.R. Reichman, and D.A. Weitz, Phys. Rev. Lett., 97: 265701 (2006)
“Multi-point dynamic susceptibilities and dynamic heterogeneity in glass-formers II: Model calculations and numerical simulations,” Berthier, G. Biroli, J.-P. Bouchaud, W. Kob, K. Miyazaki, and D. R. Reichman, Cond-Mat/0609658 (2006)
“Multi-point dynamic susceptibilities and dynamic heterogeneity in glass-formers I: General results and ensemble dependence,” Berthier, G. Biroli, J.-P. Bouchaud, W. Kob, K. Miyazaki, and D. R. Reichman, Cond-Mat/0609656 (2006)
“Strain-Rate Frequency Superposition (SRFS) - A rheological probe of structural relaxation in soft materials,” Wyss, H.M., K. Miyazaki, J. Mattsson, Z. Hu, D.R. Reichman, and D.A. Weitz, Cond-Mat/0608151 (2006)
“Inhomogeneous Mode-Coupling Theory and Growing Dynamic Length in Supercooled Liquids,” Biroli, G., J.-P. Bouchaud, K. Miyazaki, and D.R. Reichman, Phys. Rev. Lett., 97: 195701 (2006)
“Arrested microphase separation as a route to colloidal gelation,” Charbonneau, P. and D.R. Reichman, Cond-Mat/0604430, supplemental information, (2006)
“Systematic characterization of thermodynamic and dynamical phase behavior in systems with short-ranged attraction,” Charbonneau, P. and D.R. Reichman, Cond-Mat/0604428 (2006)
“On the role of hydrodynamic interactions in colloidal gelation,” Yamamoto, R., K. Kim, Y. Nakayama, K. Miyazaki, and D.R. Reichman, Cond-Mat/0604404 (2006)
“Cooperativity Beyond Caging: Generalized Mode Coupling Theory,” Mayer, P., K. Miyazaki, and D.R. Reichman, Phys. Rev. Lett., 97: 095702 (2006)
“Nonlinear viscoelasticy of metastable complex fluids,” Miyazaki, K., H.M. Wyss, D.A. Weitz, and D.R. Reichman, Europhysics Letters, 75: 915 (2006)
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