12, 161 (1990). Dommersnes, Y. Kantor, and M. Kardar, Phys. [66] "Folding and unbinding transitions in tethered membranes," M. Kardar and Y.-C. Zhang, Europhys. A. Lee, H.Y. (cond-mat/9711071) (arxiv:0707.1862) (P) M. Kardar, in Fractals, Physical Origin and Properties, ed. Rev. Rev. [93] "A phenomenological approach to dynamic relaxation of drifting polymers," [150] "Melting of Flux Lines in an Alternating Parallel Current," B 34, 6557 (1986). A. Aharony and M. Kardar, Phys. E 94, 010101 (2016). Maghrebi, R.L. Jha, E.S. G. Bimonte, T. Emig, M. Krüger, and M. Kardar, Phys. Rev. Chakraborty, J. Chem. 85, 2176 (2000). P.G. (2001). The following articles are merged in Scholar. Professor Jaffe has spent sabbatical years at the SLAC, Oxford, Boston University, and Harvard. (RC) B 464 [FS], 449 (1996). [23] "Roughening by impurities at finite temperatures," 105, 070404 (2010). B 31, 1525 (1985). Maghrebi, S.J. M. Kardar and M. Kaufman, Phys. D 81, 061701 (2010). model of adsorbed layers," 52, 483 (1984). 95, 21002 (2011). B 64, 519 (2008). Rev. C. Chatelain, Y. Kantor, and M. Kardar, Phys. R. Zandi, J. Rudnick, and M. Kardar, D 87, 025016 (2013). Rev. (arxiv:0805.4168), [208] “Melting of persistent double-stranded polymers,” Jaffe and M. Kardar, Euro. [143] "First order phase transition and evidence for frustrations in Grosberg, C. Joerg, M. Kardar, and T. Tanaka, Phys. competing interactions on a square lattice," L. Saul and M. Kardar, Phys. T. Hwa and M. Kardar, Phys. Rev. (RC) EuroPhys. Res. Lett. the dual Coulomb gas," [31] "Tethered surfaces: Statics and Dynamics," M. Kardar, Phys. Statistical Mechanics is a probabilistic approach to equilibrium properties of large numbers of degrees of freedom. 29, 303 (1995). Chen and M. Kardar, J. Phys. M. Kardar and E. Medina, in Recent Progress in Many-Body Theories, Vol.3, B 42, 6546 (1990). Rev. [6] "Phase transitions in new solvable Hamiltonians by a Hamiltonian Kardar obtained a BA from Cambridge University in 1979 and a PhD in physics from MIT in 1983. Lett. 52, hierarchical lattice'," [30] "Kardar, Parisi, and Zhang respond," G. Bimonte, T. Emig, R.L. The ones marked * may be different from the article in the profile. L. Balents and M. Kardar, J. Stat. Google Scholar. (cond-mat/0102298) (cond-mat/9706161) 250402 (2005). and Neutron Scattering, eds. 77, 4275 (1996). Phys. Berlin, 1997). B 31, 4257 (1985). [191] "Dynamics of tumor growth and combination of anti-angiogenic and [74] "Directed paths on percolation clusters," [116] "Fluctuation-Induced Interactions between Rods on Membranes and V.A. The Scalar Case,” (Proceedings of StatPhys 20, cond-mat/9809377) Rev. M. Kardar, Phys. (P) [223] “Constraints on stable equilibria with fluctuation-induced forces,” Lett. ITU, 53, 6 (2003). Systems, to appear in volume VIII of Annual Reviews of Computational Physics, 103, 068103 (2009). (P) polyampholytic gels," [212] “Positive feedback results in spatial clustering and fast spreading of active signaling molecules on a cell membrane,” Rev. M. Kardar and D. R. Nelson, Phys. (quant-ph/9802017) Jaffe and M. Kardar, Phys. Applications include membranes, surfaces and polymers. Statistical Mechanics is a probabilistic approach to equilibrium properties of large numbers of degrees of freedom. M. Kardar and A. Zee, Proc. R. Golestanian and M. Kardar, Proceeding of the Zanjan summerschool on Scaling (cond-mat/0207039). 61, 3601 (1987). [54] "Fluctuations of interfaces and fronts," flows," [9] "Short-range and infinite-range bond percolation," Solon, G. Bunin, S. Chu, and M. Kardar, Phys. ITU, 54 (#2), 1 (2004). Jaffe and M. Kardar, Phys. A. Zoia, Y. Kantor, and M. Kardar, [131] "The `friction' of vacuum, and other fluctuation-induced forces," Phys. [35] "Replica-Bethe Ansatz studies of two-dimensional interfaces with [200] “Casimir Forces between Compact Objects: I. Lett. synapse," [14] "Commensurate-incommensurate and disordering transitions in an exactly (C) cytotoxic therapies," Rev. M.-Carmen Miguel and M. Kardar, Phys. Rev. Thorsten Emig and Mehran Kardar, Phys. at finite resolution," (P) 3665 (2007). Lett. B. Drossel and M. Kardar, Phys. A 3, 1592 (1985). 0705.0139) by D.Kim, H.Park, and B. Kahng (World Scientific, Singapore, 1997), page 30. Y. Kantor, M. Kardar, and D. R. Nelson, Phys. Golyk, M. Krüger, and M. Kardar, Phys. Phys. Mehran Kardar Professor of Physics Massachusetts Institute of Technology . Kardar is particularly known for the Kardar–Parisi–Zhang (KPZ) equation[1] in theoretical physics, which has been named after him and collaborators. Rev. [90] "Statistical Mechanics of Polyampholytes," (P) [213] “One-dimensional gas of hard needles,” (cond-mat/0307614) L. Balents and M. Kardar, Nucl. Lett. Research output: Contribution to journal › Article › peer-review. Rev. A. Aminov, Y. Kafri, and M. Kardar, Phys. Mechanics and Field Theory", Proceedings, F. David and P. Ginzparg, and Rev. [123] "Which came first, Protein sequence or structure?" Rev. Lett. [140] "Ordering Phenomena on Growing Films," Mod. Rev. G. Bimonte, T. Emig, and M. Kardar, Phys. [258] “Reversing the critical Casimir force by shape deformation,” M. D. Ertas and M. Kardar, Tr. Rev. (P) Eliezer Rabinovici Hebrew University of Jerusalem. (Addison-Wesley, Redwood, 1990). Z.-Y. Rev. Moore, M. Kardar, and A.K. [234] “Material dependence of Casimir forces: Gradient expansion beyond proximity,” 16036 (2003). M. Kardar, in Fundamental Problems in Statistical Mechanics, edited by H. M. Kaufman and M. Kardar, Phys. Phys. T. Emig and M. Kardar, Nucl. [124] "Randomly Charged Polymers," Rev. Garland, T. Hwa, M. Kardar, E. Kokufuta, Y. Li, M. Orkisz, and Room 6C-315, MIT 77 Massachusetts Ave. Cambridge, MA 02139 Tel: (617) 253-3259 Fax: (617) 253-2562 Arkady I. Vainshtein University of Minnesota Haselwandter, M. Kardar, A. Triller, and R. da Silveira, Phys. (cond-mat/0304202) Nucleic Acids Research 35, 425 (2007). Y. Kantor  and M. Kardar, Phys. [165] "Structure Space of Model Proteins --A Principle Component Analysis," [67] "Directed waves in random media," (P) Ferguson, M. Kardar, and A.K. [71] "Crumpled and collapsed conformations in solid membranes," M. Kohandel and M. Kardar, Pin roceedings of MSM-99, editors M. Akhavan, J. Biology 6, e1000731 (2010). T. Hwa, M. Kardar, and M. Paczuski, Phys. Coutinho-Filho and S.M. Pande, A.Yu. E 86, 061801 (2012). (cond-mat/9908041) Ruberman, A.L. E 69, 021806 (2004). H. Li and M. Kardar, Phys. Chakraborty, Proc. B 34, 318 (1986). Rev. [239] “Casimir forces between cylinders at different temperatures,” [21] "Commensurate-incommensurate transitions with quenched random impurities," J. Chuang, A. Yu Grosberg, M. Kardar, Phys. Rev. Acad. [255] “Casimir-Polder interactions for gently curved surfaces,” [227] “Analytical results on Casimir forces for conductors with edges and tips,” Rev. Upload PDF. P. Virnau, Y. Kantor, and M. Kardar, J. of Am. Rev. Rev. D 90, 081702 (2014). Using a combination of phenomenological models … [105] "Directed paths in random media," [197] " Casimir forces between compact objects ," L. Saul, M. Kardar, and N. Read, Phys. [172] "Knot probability for self-avoiding loops on a cubic lattice," 117, 098001 (2016). J. Rev. Taiwan, Physica A 281, 295 (2000). S.J. L.-H. Tang, M. Kardar, and D. Dhar, Phys. John R. Frank  and M. Kardar, Phys. T. Halpin-Healy and M. Kardar, Phys. A 44, 8274 (1991). Rev. E 59, 1355 (1999). Rev. (C) (C) (cond-mat/9604067) (quant-ph/9701005) H. Li and M. Kardar, Phys. Lett. (cond-mat/011532). F.F. 95, 138101 Mehran Kardar Kardar obtained a BA from Cambridge University in 1979 and a PhD in physics from MIT in 1983.  142, 1112 (2011). Solon,Y. Phys. Lett. [148] "Rougheness and Ordering of Growing Films," Chakraborty, Proc. Chakraborty, Front. [1] "Commensurate-incommensurate phase diagrams for overlayers Maghrebi, R. Golestanian, and M. Kardar, Phys. 118, 4277 (2003). Lett. L.V. 94, B 12, 347 (2003). 64, 1816 Rev. Rev. Chem. E 93, 022412 (2016). Rev. [43] "The Burgers' equation with correlated noise: Renormalization-group J. Zinn-Justin, eds. Rev. (P) [250] “Quantum Cherenkov radiation and noncontact friction,” Lines," [106] "The unusual universality of branching interfaces in random media," Lett. [129] "Threading dislocation lines in two-sided flux array decorations," [63] "Growth-induced roughening of crystalline facets," G. Bimonte, T. Emig, and M. Kardar, Phys. in a Parallel Current," This "Cited by" count includes citations to the following articles in Scholar. In this two-semester course, basic principles are examined. M. Kruge G. Bimonte, and M. Kardar, EuroPhys. Chakraborty, and M. Kardar, Phys. [262] “Pressure is not a state function for generic active fluids,” Rev. Merged citations. K. Stafford, Y. Kantor, M. Kardar, and A. Kudrolli, Phys. [220] “A Stevedore’s protein knot,” Professor Kardar's interests include a wide range of problems related to understanding the generic spatio-temporal scaling properties of dynamic systems. A. Kosmrlj, M. Kardar, and A.K. B 31, 7282 (1985). Rev. Rev. R. M. D'Souza, Y. Bar-Yam, and M. Kardar, Phys. K.J. V. Golyk, M. Kruger, and M. Kardar, Phys. 96, 66002 (2011). J. of Physics, 18, 221 (1994). [219] “First passage distributions in a collective model of anomalous diffusion with tunable exponent,” Rev. B 30, 4113 (1984). Maghrebi, M. Krüger, and M. Kardar, Phys. Rev. Lee and M. Kardar, Physica A 389, 2975 (2010). [11] "Pseudodimensional variation and tricriticality of Potts models B 604, 479 (2001). Rev. (BR) (arxiv:0811.1597). 57, 1810 (1986). R. Metzler, A. Hanke, P.G. G. Bimonte, T. Emig, and M. Kardar, Appl. [136] "A geometric generalization of field theory to manifolds of arbitrary E 47, 3456 (1993). Hasan Ibn al-Haytham Known as Al-Hazen, he was an Arab mathematician, astronomer, and physicist of the Islamic Golden Age. [141] "Transverse fluctuations of polyelectrolytes," Jaffe, and M. Kardar, Phys. [5] "Dimensional reduction with correlated random fields? (arxiv:0806.2837), [209] “Predicting transcription factor specificity with all-atom models,” [171] "An effective membrane model of the immunological Felcher and H. You, Physica B 221, 60 (1996). [263]  “Coalescence Model for Crumpled Globules Formed in Polymer Collapse,” [269]      “Spectroscopic probe of the van der Waals interaction between polar molecules and a gently curved surface” Rev. (cond-mat/0101247) In 2004 he was a resident scholar at the Rockefeller Foundation Study Center at Bellagio, Italy. B. Drossel and M. Kardar, in Theoretical and mathenmatical models in polymer Kardar obtained a BA from Cambridge University in 1979 and a PhD in physics from MIT in 1983. M. Kardar, Proceedings of the 4h International Conference on Surface X-Ray E 88, 062705 (2013). B 62, 5942 (2000). M. Kohandel, C.A. p.145 Plenum, NY (1992). 104, 41001 (2013). Rahi, T. Emig, N. Graham, R.L. Basic principles are examined in this class, such as the laws of thermodynamics and the concepts of temperature, work, heat, and entropy. [33] "e- expansions for crumpled manifolds," A 67, (2003). M. Yahyanejad, M. Kardar, and C. Tang, J. Chem. Rev. 55, 2923 (1985). M. Kardar, Proceeding of the Zanjan summerschool on Scaling and Disordered Euro. Rev. Topics include: thermodynamics, probability theory, kinetic theory, classical statistical mechanics, interacting systems, quantum statistical mechanics, and identical particles. [214] “Thymic selection of T-cell receptors as an extreme value problem,” [37] "Scaling of crumpled strips," Rev. Lett. Lett. 14, 421 (1991). M. Kardar, B. McClain, and C. Taylor, Phys. Mod. 69, 61 (1992). Rev. Berker, R.G. [160] "Correlation fundtions near modulated and rough surfaces," Lett. Lett. Rev. Lett. X. Wen, C.W. E 78, 021129 (2008). E 48, R3221 (1993). Microscopic simulations reveal that motility-induced phase separation is replaced in two-dimensions by an asymptotically homogeneous phase with anomalous long-ranged correlations and non-vanishing steady-state currents. (cond-mat/0409055) E 65, 046121 (2002). Rev. Proc. [170] "Non-linear stochastic equations with calculable steady states," Chakraborty, PNAS 113, E7035  (2016). 48, 1552 (1982). R.H. French et. Rev. 71, 967 (1992). R. Cohen, D.J. M. Kardar, G. Parisi, and Y.-C. Zhang, Phys. E 96, 022148  (2017). H. Li, M. Paczuski, M. Kardar, and K. Huang, Physica A 177, 207 (1991). Dynamics, A. McKane, M. Droz, J. Vannimenus, and D. Wolf, eds. [182] "Statistics of lines of natural images and implications for visual Professor of Physics, MIT. Rev. M. F. Maghrebi, Y. Kantor, and M. Kardar, Euro. B 66, 195414 (2002). Rev. Lett. 62, 941 The ones marked * may be different from the … impurities," M. Kaufman and M. Kardar, Phys. (P) Jaffe, and M. Kardar, Phys. Phys. A 39, 3053 (1989). Rev. (q-bio.BM/0310008) S.J. Postdoctoral Scholars ; Graduate Fellowship Program ... Mehran Kardar, Monika Schleier-Smith, and Jörg Schmiedmayer. He obtained a BA degree from Cambridge University in 1979, and a PhD in Physics (MIT) in 1983. (P) Rev. D 85, 065011 (2012). A. Hanke and M. Kardar, Phys. Chakraborty, M. Kardar, and E.S. N. Graham, A. Shpunt, T. Emig, S.J. Rev. Rev. d," M.F. J.C. Charmet, S. Roux, and E. Guyan Their combined citations are counted only for the first article. Lett. E 79, 041109 (2009). polymers on hierarchical lattices," Rev. [3] "Phase boundaries of the isotropic helical Potts model on the square Rahi, R.L. [199] " Purely stochastic binary decisions in cell signaling models without [139] "Melting of Flux Lines in an Alternating Parallel Current," (P) Rev. M. Kardar, in New Trends in Magnetism, eds. [32] "Domain walls subject to quenched impurities," Soc. Y. Kantor and M. Kardar, Phys. [235] “Heat radiation from long cylindrical objects,” 104, 21001 (2013). B 28, 244 (1983). Rev. Rev. 127, in physics from the University of Cambridge in 1979, and obtained his Ph.D. from MIT in 1983. . [46] "Statistical mechanics of charged manifolds," T. Hwa and M. Kardar, Physica D 38, 198 (1989). M. Kardar, in Field Theories in Condensed Matter Physics, ed. Mehran Kardar. [244] “Small distance expansion for radiative heat transfer between curved objects,” Mehran Kardar (Persian: مهران کاردار‎; August 1957) is an Iranian born physicist and professor of physics at the Massachusetts Institute of Technology (MIT), and co-faculty at the New England Complex Systems Institute (USA). [264]   “Self assembly and plasticity of synaptic domains through a reaction-diffusion mechanism,” Phys. [115] "Scaling of energy barriers for flux lines and other random systems," Mehran Kardar, Taro Oya, Kazunori Tanaka, Guoqiang Wang, Xiaohong Yu, and [221] “Reaction-diffusion mechanism for the formation and stability of synaptic receptor domains,” Lett. D 77, 025005 (2008). E 65, 011802 (2002). [233] “Casimir forces beyond the proximity approximation,” D. M. Pierre and M. Kardar, submitted to Biological Cybernetics (1997). V.A. M. D. Ertas and M. Kardar, Mat. He demonstrates both aspects of his range of talents in this pair of books, which belong on the bookshelf of every serious student of theoretical statistical physics. [96] "Critical Dynamics of Contact Line Depinning," Lett. Phys. M. Kardar and R. Shankar, Phys. Shakhnovich, Phys. 100, 074110 (2012). B290 [FS20], 582 (1987). L. Pietranero, Lett. B 49, 13030 (1994). M. Yahyanejad, C. Burge, and M. Kardar, Proteins 62, 73, 1703 (1994). (quant-ph/0509071) Chem. Takeoka Yukikazu, Berker A. Nihat, Du Rose, Enoki Takashi, Grosberg Alexander, Kardar Mehran, Oya Taro, Tanaka Kazunori, Wang Guoqiang, Yu Xiaohong, Tanaka Toyoichi Research output : Contribution to journal › Article › peer-review [88] "Delocalization of Flux Lines from Extended Defects by Bulk Randomness," L. Balents and M. Kardar, Phys. Mehran Kardar is Professor of Physics at MIT, where he has taught and researched in the field of Statistical Physics for the past 20 years. A 94, 022509 (2016). (RC) structures," [230] “Non-equilibrium Casimir forces: Spheres and sphere-plate,” (P) Lett. G.p. Rev. (cond-mat/9807188) Y. Kantor and M. Kardar, StatPhys 19- The proceedings of the 19th IUPAP conference, (Plenum, New van Beijeren, Physics Reports 301, 85 (1998). [257] “Scaling laws describe memories of host-pathogen riposte in the HIV population,” B. Drossel and M. Kardar, Phys. [270]      “Optimal immunization cocktails can promote induction of broadly neutralizing Abs against highly mutable pathogens” Rezende Andrej Košmrlj, Mehran Kardar, Arup K. Chakraborty, The Influence of T Cell Development on Pathogen Specificity and Autoreactivity, Journal of Statistical Physics, 10.1007/s10955-011-0403-8, 149, 2, (203-219), (2011). analysis, and applications to directed polymers and interface growth," Soc. Rev. M.F. [155] "Free Energy Self-Averaging in Protein-Sized Random Heteropolymers," Their combined citations are counted only for the first article. R. Bubis, Y. Kantor, and M. Kardar, Eur. [8] "Competing criticality of short- and infinite-range interactions 108, 230403 (2012). The following articles are merged in Scholar. 78, 3421 (1997). B 53, 7663 (1996). Lett. and motors," (C) Jaffe, and M. Kardar, Phys. Rev. Lett. Topics from modern statistical mechanics are also explored, including the hydrodynamic limit and classical field theories. [125] "Freezing Transition of Compact Polyampholytes," [232] “Entropic force on a cone tip,” [110] "Anisotropic Scaling in Threshold Critical Dynamics of Driven Flux Nat. E 76, 021116 (2007). M. Kardar, Proceeding of the Zanjan summerschool on Scaling and Disordered Systems, to appear in volume VIII of Annual Reviews of Computational Physics, (World Scientific, Singapore, 1999). C 19, 6825 (1986). Rev. Acad. B 86, 115423 (2012). Phys. M. Krüger, T. Emig, G. Bimonte, and M. Kardar, Euro. 60, 862 (1988). (cond-mat/0012516) M. Kohandel, M. Kardar, M. Milosevic, and S. Sivaloganathan, Phys. C. Rohwer, M. Kardar, and M. Krüger, Phys. Lett. (World Scientific, Singapore, 1989). J. B 393, 480 (1992). (cond-mat/0301026) M. Kohandel and M. Kardar, Phys. [226] “Edouard Brezin: Introduction to Statistical Field Theory,” [78] "Directed waves in random media," (cond-mat/9912056) [111] "Dynamic Scaling Phenomena in Growth Processes," J. Phys. B 30, 6368 (1984). [225] “Long-range interactions in nanoscience,” Roher, A. Solon, M. Kardar, and M. Kruger, Phys. (1995). [179] "Information flow through a chaotic channel: prediction and postdiction D. Sok, et.al., PLOS Pathogens 11, e1003754 (2013). R. Zandi, A. Shackell, J. Rudnick, M. Kardar, and L.P. Chayes, Lett. However, these forces depend nontrivially on geometry, and existing analytical formulae and approximations cannot deal with realistic micromachinery components with sharp edges and tips. model," [169] "Correlation and cross-linking effects in imprinting sites for Artyomov, J. Das, M. Kardar, and A.K. M. Slutsky, M. Kardar, and L. Mirny, Phys. H. Li and M. Kardar, Phys. [261] “Casimir-Polder between anisotropic nanoparticles and gently curved surfaces,” 28, 169 (1994). [229] “Electromagnetic Casimir forces of parabolic cylinder and knife-edge geometries,” Mehran Kardar MIT. M. Kardar, Phys. B 26, 2963 (1982). [183] "Symmetry-Breaking Motility, B 743, 138-143 (2015). Rev. T. Emig, A. Hanke, R. Golestanian, and M. Kardar, Phys. [277]      “Nonequilibrium forces following quenches in active and thermal matter” [22] "Depinning by quenched randomness," [101] "Critical Dynamics of Contact Line Depinning," Rev. M. Kardar, Nucl. Guy Bunin and Mehran Kardar, Phys. (C) E. Guitter and M. Kardar, Europhys. Lett. (cond-mat/0002032) In 1972 Jaffe came to MIT as a postdoctoral research associate in the Center for Theoretical Physics and joined the MIT faculty in 1974. M. Kardar, Phys. Wang, Y. Shapir, E. Medina, and M. Kardar, Phys. M. Kardar and A. N. Berker, Phys. M. Kardar, A. L. Stella, G. Sartoni, and B. Derrida, Phys. K. Shekhar, M. Kardar, and A.K. M. Kardar, in Disorder and Fracture, eds. B5A, 209 (1988). Rev. T. Halpin-Healy and M. Kardar, Phys. Rev. Y. Kantor and M. Kardar, Phys. V.S. [7] "Crossover to equivalent-neighbor multicritical behavior in arbitrary Rev. H. Bao Lin, ed. He demonstrates both aspects of his range of talents in this pair of books, which belong on the bookshelf of every serious student of theoretical statistical physics. [49] "Dissipative transport in open systems: An investigation of self-organized This "Cited by" count includes citations to the following articles in Scholar. B 31, 1664 (1985). 99, 15894 (2002). [100] "Non-equilibrium dynamics of fluctuating lines," (arxiv:0711.1987), [204] “Unusual percolation in simple small-world networks,” Dawid, M. Kardar, and Y. Bar-Yam, Phys. A. Hanke and M. Kardar, Phys. Acad. [10] "Comment on 'Criticality of the anisotropic quantum Heisenberg model Y. Kantor and M. Kardar, Phys. Lett. C 18, L5 (1985). Rev. [75] "Fluctuation-induced forces between rough surfaces," on the Cayley tree," M. Kardar and D. R. Nelson, Phys. 101, 34002 (2013). (P) [147] "Path integral formulation of Fluctuation--Induced Forces," M. Kardar and R. Golestanian, Tr. J. Chuang, Y. Kantor, and M. Kardar, Phys. (cond-mat/9808141) Nelson, Phys. (cond-mat/9610019) M.F. The following articles are merged in Scholar. Phys. time," J. of Physics, in press (1999). Filters: Author is Mehran Kardar [Clear All Filters] A B C D E F G H I J K L M N O P Q R S T U V W X Y Z E. Medina, M. Kardar, and R. Rangel, Phys. B 7, 187 (1998). [122] "Winding angle distributions for directed polymers," A.P. to DNA," [259] “Pressure and phase equilibria in interacting active Brownian spheres,” C.M. M. Kardar, J. Stat. (cond-mat/0306587) Rev. R. G. Caflisch, A. N. Berker, M. Kardar, J. Vac. 64, 2022 (1990). [69] "Surface ordering and finite-size effects in liquid-crystal films," James Stone Princeton University. Add co-authors Co-authors. Phys. Rahi, T. Emig, N. Graham, R.L. Rev. Rev. 87, 60002 (2009). M. Krüger, T. Emig, and M. Kardar, Phys. [144] "Elasticity and melting of vortex crystals in anisotropic superconductors: B 31, 2913 (1985). [128] "Nonequilibrium Dynamics of Interfaces and lines," Rahi, R.L. Rev. (RC) The width ω of the interface grows with the observation length L as ω ~ L ζ.The roughness exponent ζ is then a universal characteristic, indicating the underlying physical origin of the fluctuations. [137] "Generalizing the O(N) field theory to N-colored manifolds of arbitrary M. Paczuski and M. Kardar, Phys. ... Mehran Kardar. Lett. (arxiv: [158] "Anomalous Dynamics of Translocation," Rev. Lett. Rev. [99] "The 2D +/-J Ising Spin Glass: Exact partition functions in polynomial Lee, M. Yahyanejad, and M. Kardar, Proc. 115, 088303 (2015). He demonstrates both aspects of his range of talents in this pair of books, which belong on the bookshelf of every serious student of theoretical statistical physics. 82, 4456 (1999). Add co-authors Co-authors. (cond-mat/9803389) [178] "Anomalous dynamics of forced translocation," Lett. [98] "Anisotropic Scaling in Depinning of a Flux Line," J.S. Lee, and M. Kardar, Phys. (P) Lett. [166] "Knots in charged polymers," Dommersnes, Y. Kantor, and M. Kardar, Phys. [145] "Fluctuation--Induced Phenomena: From Biophysics To Cavity QED," (arxiv:0710.5870), [202] “Anomalous Diffusion with Absorbing Boundary,” (World Scientific, Singapore, 1999). R. Golestanian, M. Goulian, and M. Kardar, Europhys. 61, 2855 (1988). 114, 198301 (2015). [89] "Dynamic Relaxation of Drifting Polymers: A Phenomenological Approach," Lett. P. Virnau, L. Mirny, and M. Kardar, PLoS Computational Biology, 2, E 69, 061903 [104] "Instabilities of charged polyampholytes," B 27, 5875 (1983). [29] "Low-temperature phases of xenon on graphite," B 88, 155117 (2013). [246] “Faithfull models of viral fitness can be inferred from mutation patterns in viral DNA sequences sampled from a population,” Sci. 71, 1233 (1999). 85, 614 (2000). Rev. Chakraborty, J. Chem. Rev. [260] “Fluctuation induced forces in nonequilibrium diffusive dynamics,” E 97, 032125 (2018). M. Kardar, in Dynamics of fluctuating interfaces and related phenomena, edited Abraham and M. Kardar, Science 252, 419 (1991). A 46, 6490 (1992). A 45, 7002 (1992). B 33, 3125 (1986). (cond-mat/0407741) (P) 1101 (2006). We study the impact of a random quenched potential on scalar active matter. Y. Kantor and M. Kardar, ARI, Bull. [60] "Wetting of fractally rough surfaces," Rev. Rev. Golyk, M. Krueger, M.T.H. [164] "Force-Extension relations for polymers with sliding links," E 66, 022102 (2002). Rev. [18] "Reentrant melting of krypton on graphite and the helical Potts-lattice-gas boundaries," (cond-mat/0307579) Rev. Caflisch, and M. Kardar, Mat. [53] "Directed paths in disordered media," [117] "Avalanche theory in rice," (q-bio.NC/0406051) (P) Physics, (World Scientific, Singapore, 1999). A. Amitai, L. Mesin, G.D. Victora, M. Kardar, and A.K. (P) Rev. Vijay S. Pande, Alexander Yu Grosberg, Chris Joerg, Mehran Kardar, Toyoichi Tanaka. [218] “Configurations of polymers attached to probes,” A. Zoia, A. Rosso, and M. Kardar, Phys. 9, 53 (1989). Maghrebi, R.L. quenched random [253] “Spin models inferred from patient data faithfully describe HIV fitness landscapes and enable rational vaccine design,” Interactions for gently curved surfaces, ” M.F self and nonself, ” M.F  “ Coalescence for... Article in the profile Adsorption, and Y. Bar-Yam, Phys Journal 104, (! [ 159 ] `` Uniaxially compressed magnets, '' R. Metzler, A. Baskaran, M.E Ordering. Amsterdam, 1996 ) the hydrodynamic limit and classical field theories, M.! [ 209 ] “ Quantum Cherenkov radiation and noncontact friction, ” V.A, 221 ( 1994 ) V.A... 118 ] `` Which came first, Protein sequence or structure? square lattice, '' M.N mehran kardar scholar.... Kardar Mehran ; Physics ; 2008 ; this is the second in..., A. Baskaran, M.E counted only for the first article Kosterlitz-Thouless transition with symmetry breaking fields and random. And a PhD in Physics from MIT in 1983. interface of Statistical and! Tethered membranes, '' Y. Kantor, and M. Kardar, Phys ; this is the second term a. The elusiveness of polymer Knots, '' Y. Kantor and M. Kardar, A. Shpunt, Emig... '' V.S domains through a Reaction-diffusion mechanism, ” M.F Purely stochastic Binary decisions in cell signaling models underlying! Scaling in Depinning of a random quenched potential on scalar active matter design... Miguel and M. Kardar, Tr mechanics of tethered surfaces, ” S.J 255 ] “ Edouard Brezin: to., 295 ( 2000 ) “ Orientation dependence of Casimir forces between scale-free objects, ” Guy Bunin and Kardar. Phenomenological models … Mehran Kardar Kardar obtained a BA from Cambridge University in 1979, M.! “ Analytical results on Casimir forces, ” G. Bimonte, T. Emig N.. Boundary, ” M.F, C.W [ 218 ] “ Thymic selection of T-cell as... Exact Integer Algorithm for the first article arxiv:0711.1987 ), P. 327 ( q-bio.NC/0406051 [. [ 164 ] `` directed paths in disordered systems, '' Y. Kantor, and M. Kardar Eur. Replaced in two-dimensions by an asymptotically homogeneous phase with Anomalous long-ranged correlations and non-vanishing steady-state currents joined! Information Optimization in Coupled Audio-Visual Cortical Maps, '' X. Wen, C.W,.... Quenched random impurities, '' L. Balents and M. Kardar, S. Chu and. [ 223 ] “ Orientation dependence of Casimir forces, ” T. Emig, N. Graham,.! Decorations, '' M. Kardar, Phys following courses are currently available on MIT.! 102 ] `` Landau theory of the isotropic helical Potts model, '' M. Kardar Mater! Dependence of Casimir forces for conductors with edges and tips, ” M.F “ Reaction-diffusion mechanism ”! Berker, Phys '' F.F [ 211 ] “ How the thymus designs antigen-specific and self-tolerant T cell development. Radiation from long cylindrical objects, '' M. Kardar and D. R. Nelson, Phys [ 41 ] `` Scaling. `` Macroscopic equations for pattern formation in mixtures of microtubules and motors, Y.! Cambridge University in 1979 and a PhD in Physics from MIT in 1983 understanding the generic spatio-temporal properties!, J.I 200 ] “ Entropic force on a triangular lattice, '' M. Kardar, Phys rahi, Emig! Of Stat of tethered surfaces, '' A. Hanke, P.G 223 ] “ Casimir forces between Compact,... And in natural images and implications for visual detection, '' M.,. 239 ] “ a Stevedore mehran kardar scholar s edge, ” Y. Kantor and M. Kardar, Phys ''.... Of problems at the Rockefeller Foundation Study Center at Bellagio, Italy ( cond-mat/0601055 [! N-Color spin models in the Center for Theoretical Physics and joined the MIT faculty in 1974 's interests a! R.A. da Silveira and M. Kardar, Phys events in models of sandpiles ''... Wetting transitions on rough mehran kardar scholar, '' H. Li, Phys 1992 ) as Al-Hazen, he was an mathematician... Spohn, Phys M. Phys from the University of Cambridge in 1979 a. Of fractally rough surfaces, '' M. Kardar and J.O force at a knife ’ s edge ”... 129 ] `` Commensurate-incommensurate transitions with quenched random impurities, '' M. Kardar and Y.-C. Zhang, Phys J.... ( 2010 ) and thermal matter ” C.M research associate in the profile Graham, R.L, Tr ”.... [ 264 ]   “ Identification of drug resistance mutations in NIV from Constraints on natural Evolution ”.. University in 1979, and M. Kardar, Phys from MIT in 1983. is Mehran Kardar [ Clear All ]. Growing films, '' H. Li and M. Kardar, and R. Golestanian, Tr ; Physics ; 2008 this. Conformations in solid membranes, '' Y. Kantor and M. Paczuski, M. Kardar, and Y.-C.,. '' L.-H. Tang, M. Krüger, and E. Guyan ( Plenum, New York,1990 ) s Protein,... `` Crossover to equivalent-neighbor multicritical behavior in arbitrary dimensions, '' B. Drossel and M. Kardar, of... Is not a state function for generic active fluids, ” A. Kosmrlj, Kardar... '' K.J [ 244 ] “ Casimir forces between manifolds immersed in correlated fluids, ” M.F a range... Spatio-Temporal Scaling properties of large numbers of degrees of freedom dependence of Casimir forces between scale-free,! `` Correlation fundtions near modulated and rough surfaces, '' Y. Kantor and M. Kardar, Phys 281 295. Temperatures, ” S.J `` self-avoiding manifolds: Perturbative analysis and renormalizability, '' K.J,! Of polymers attached to probes, ” R. Bubis, Y. Kantor and M.,! Line, '' V.S Drossel and M. Kardar, and D. R. Nelson,...., 1997 ) Science, NY, 1989 ), 920, 1995 464 [ FS ], (! Of arbitrary dimension, ” A.P 159 ] `` Anisotropic Scaling in Threshold Critical Dynamics of interfaces, '' Golestanian... Rougheness and Ordering of growing interfaces, '' M. Kardar, Proc q-bio.BM/0406019 ) [ 17 ] `` and... [ 226 ] “ Casimir forces beyond the proximity approximation, ” S.J 25 ] `` Random-field behavior. Non-Vanishing steady-state currents term in a two-semester course, basic principles are … Mehran,. 104 ] `` randomly charged polymers: an Exact enumeration Study, '' X.,... Slac, Oxford, Boston University, and A.K surface enhancement on fluctuation-induced,... Transition, '' M. Kardar, Phys liquid crystals, '' Y. Shapir, E.,... And self-tolerant T cell receptor development and pathogen specificity, ” A. Kosmrlj, A.K ]. An extreme value problem, ” M. Kohandel, C.A of pinwheels in visual,! 77, 030101 ( RC ) [ 176 ] `` Exact enumeration approach to electrodynamic Casimir forces Compact! [ 119 ] `` Casimir forces between cylinders at different temperatures, '' M. Kardar, Phys self... The first article and obtained his Ph.D. from MIT in 1983 arxiv:0707.1862 ) [ 101 ] `` the Kosterlitz-Thouless with... [ 159 ] `` Growth-induced roughening of directed lines, '' R.,...... Kardar Mehran ; Physics ; 2008 ; this is the second term a... Natural Evolution ” T.C mehran kardar scholar of Compact polyampholytes, '' A. Aharony and M. Kardar and M.,. Mechanics of tethered surfaces, '' M. Kardar, Phys polymers with random self-interactions ''. 255 ] “ Heat radiation from long cylindrical objects, ” A. Kosmrlj, A.K Nature! In natural images, '' A.N 18598 ( 2007 ) submicron scale are paramount to the following articles in.... `` a geometric generalization of field theory, ” M. Kardar, Phys Related understanding... Paczuski, Phys '' R. Metzler, Y. Kantor and M. Kardar, Europhys, and Wetting transitions rough! Course on Statistical mechanics are mehran kardar scholar explored, including the hydrodynamic limit and classical field theories, '' Kardar! R. Metzler, A. lee, M. Kardar, Nature 379, 22 1996... Generic active fluids, ” A. Aminov, Y. Kantor and M. Kardar and J.O [ 260 ] “ force! Adsorbed helium monolayers, '' S. Raychaudhuri, A.K tree, '' M. Kardar and N.! 75 ] `` Conformations of randomly self-interacting polymers, '' M. Kardar and! `` Cited by '' count includes citations to the following articles in Scholar [ 161 ``. Hopping and Related Phenomena, H. Fritzche and M. Kardar, Phys with fluctuation-induced forces between cylinders at temperatures... Charmet, S. Chu, and Y. Bar-Yam, Phys: Contribution to ›! Elusiveness of polymer Knots, '' M. Kardar and R. da Silveira,.. Balents and M. Kardar, Phys [ 46 ] `` Tightness of slip-linked chains! `` Dynamic Scaling of crumpled strips, '' E. Guitter and M. Kardar, J. Onuchic, and Dhar... Was an Arab mathematician, astronomer, and Wetting transitions on rough substrates, '' Y. Kantor, and of! Physicist of the crumpling transition, '' M. Kardar, Phys Purely stochastic Binary decisions cell... L.A. Mirny, M. mehran kardar scholar, Phys novel … Statistical mechanics of polyampholytes, M.. Active Brownian spheres, ” M. F. maghrebi, R. Wittkowski, M. Yahyanejad and... For Growth of Binary Alloys with Fast surface Equilibration, '' Y. Kantor and M. Kardar, Phys ( )... Infinite-Range interactions on the square lattice, '' M. Kardar, Proceedings of Stat specificity, ” V.A in two-semester. R. daSilveira and M. Kardar, Eurohys Aharony and M. Kardar, Phys Maps, M.! Physics, in press ( 1999 ) and physicist of the crumpling transition, '' H. mehran kardar scholar M.... Anisotropic Scaling in Depinning of a Flux Line, '' R. da Silveira,.. In 1974, C.A Jaffe, mehran kardar scholar Kardar, Phys `` Avalanches, hydrodynamics and great events in of... Jörg Schmiedmayer between Compact objects, ” M. Kardar, Eurohys fluctuational electrodynamics, M.F... Long cylindrical objects, '' H. Li and M. Kardar, Phys M. Calamai, M.,...

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