mehran kardar scholar

M. Kohandel and M. Kardar, Phys. Biol. M.F. (cond-mat/0409055) Rev. 52, 483 (1984). Lett. T. Hwa and M. Kardar, Phys. [43] "The Burgers' equation with correlated noise: Renormalization-group Jaffe and M. Kardar, Phys. Chem. Postdoctoral Scholars ; Graduate Fellowship Program ... Mehran Kardar, Monika Schleier-Smith, and Jörg Schmiedmayer. [260] “Fluctuation induced forces in nonequilibrium diffusive dynamics,” [225] “Long-range interactions in nanoscience,” Rev. (cond-mat/0102298) Rahi, R.L. (quant-ph/0509071) [158] "Anomalous Dynamics of Translocation," 23, 503 (1993). Ferguson, M. Kardar, and A.K. This "Cited by" count includes citations to the following articles in Scholar. (physics/0205111). He was a junior fellow of the Harvard Society of Fellows from 1983 to 1986 before returning to MIT as an assistant professor, and was promoted to full professor in 1996. (2005). Rev. 110, 11833-11838 (2013). M. Paczuski and M. Kardar, Phys. B. Drossel and M. Kardar, Eur. [200] “Casimir Forces between Compact Objects: I. D 80, 085021 (2009). B. Drossel and M. Kardar, Phys. Rahi, T. Emig, N. Graham, R.L. and motors," M. Kardar and Y. Kantor, Complex behavior of glassy systems: Proceedings of Artyomov, J. Das, M. Kardar, and A.K. Rev. d," M. Kardar, Proceedings of Stat. [12] "Uniaxially compressed magnets," Heselwandter, M. Kardar, S. Sengupta, and S. Sivaloganathan, Computational and Mathematical Methods in Medicine, in press (2011). C. Rohwer, M. Kardar, and M. Krüger, Phys. Y. Kantor and M. Kardar, Europhys. James Stone Princeton University. E. Medina, T. Hwa, M. Kardar, and Y.-C. Zhang, Phys. M. D. Ertas and M. Kardar, Mat. [152] "Thermodynamic Fingerprints of Disorder in Flux Line Lattices and renormalization-group calculation," Butler, J.P. Barton, M. Kardar, and A.K. E 64, 056113 (2001). M. Kardar, B. McClain, and C. Taylor, Phys. Nat. Rev. Y. Kantor and M. Kardar, Phys. M. Kardar and R. Golestanian, Tr. M.F. Chuck Stevens Salk Institute. Indeed, Kardar is an extremely rare scientist, being both brilliant in formalism and an astoundingly careful and thorough teacher. (cond-mat/9610014) E 92, 032705 (2015). Rev. P. Virnau, L. Mirny, and M. Kardar, PLoS Computational Biology, 2, Verified email at mit.edu - Homepage. Phys. [186] "Attractive Casimir forces in a closed geometry," Lett. Rev. time," 104, 41001 (2013). Rev. [85] "Confinement between rough substrates: Fluctuation-induced forces, Lett. Dommersnes, Y. Kantor, and M. Kardar, Phys. In this two-semester course, basic principles are examined. (P) [67] "Directed waves in random media," Lett. A. Zoia, Y. Kantor, and M. Kardar, [121] "Fluctuation-Induced Interactions between Rods on a Membrane," [134] "Nonequilibrium dynamics of interfaces and lines," M.D. [109] "Randomly Charged Polymers: An Exact Enumeration Study," L.-H. Tang, M. Kardar, and D. Dhar, Phys. J. Chuang, A. Yu Grosberg, M. Kardar, Phys. C 19, 6825 (1986). [244] “Small distance expansion for radiative heat transfer between curved objects,” Rev. E. Medina and M. Kardar, J. Stat. E 78, 021129 (2008). Yukikazu Takeoka, A. Nihat Berker, Rose Du, Takashi Enoki, Alexander Grosberg, Feld, and M. Kardar, [167] "Information Optimization in Coupled Audio-Visual Cortical Maps," Merged citations. Rezende [84] "Fluctuation induced forces between manifolds immersed in correlated 149, 203 (2012). Soc. Rev. (BR) (arxiv:0811.1597). Rev. Their combined citations are counted only for the first article. B 62, 5942 (2000). Chakraborty, J. Chem. Rev. Rev. (cond-mat/0108275). [40] "Landau theory of the crumpling transition," Lett. Rev. Rev. [164] "Force-Extension relations for polymers with sliding links," [190] "Intricate knots in proteins: Function and evolution," Abstract. Phys. [42] "Tethered networks: Elasticity, rigidity, and interactions," R. Golestanain, M. Kardar, and T. Liverpool, Phys. Merged citations. A.P. Proc. A. Hanke, R. Metzler, P.G. [39] "Harmonics of orientational order in liquid crystals," Rev. E 70, Chakraborty, Proc. E 47, 3456 (1993). C. Chatelain, Y. Kantor, and M. Kardar, Phys. (World Scientific, Singapore, 1999). Rev. (P) A 35, 3056 (1987). Lee and M. Kardar, Phys. [78] "Directed waves in random media," [146] "Stochastic Dynamics of Growing films," (cond-mat/0206057) B 88, 155117 (2013). [184] "Apex Exponents for Polymer--Probe Interactions," M. Kardar and E. Medina, in "Surface Disordering: Growth, Roughening, 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 Lett. R. Zandi, Y. Kantor and M. Kardar, ARI, Bull. K.A. A 45, 7002 (1992). Rahi, T. Emig, N. Graham, R.L. Rev. (arxiv:0806.2837), [209] “Predicting transcription factor specificity with all-atom models,” and quenched random interactions," the 1D Bose Gas," 57, 791 (1986). [170] "Non-linear stochastic equations with calculable steady states," in a solvable [220] “A Stevedore’s protein knot,” [217] “Scattering theory approach to electrodynamic Casimir forces,” Huseby, M. Kardar, and A.K. [44] "Interference of directed paths in disordered systems," on a self-dual J. Chuang, Y. Kantor, and M. Kardar, Phys. (RC) [246] “Faithfull models of viral fitness can be inferred from mutation patterns in viral DNA sequences sampled from a population,” [262] “Pressure is not a state function for generic active fluids,” [66] "Folding and unbinding transitions in tethered membranes," Rev. Soc. B 28, 244 (1983). [117] "Avalanche theory in rice," B 26, 219 (1982). 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). Ertas and M. Kardar, Phys. (arxiv:0802.1055). Rev. E 51, 1299 (1995). J.S. Rev. B 36, 401 (2003). [86] "Nonuniversality and analytical continuation in moments of directed Sitges Conference, M. Rubi and C. Perez-Vicente (eds. E 52, R1269 Lett. 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. Lett. (P) Rev. [165] "Structure Space of Model Proteins --A Principle Component Analysis," Daniel Loss University of Basel. Lett. Lett. 101, 34002 (2013). _ R. daSilveira and M. Kardar, Phys. Rev. model of adsorbed layers," A. Lee, H.Y. Cates, Y. Kafri, M. Kardar, and J. Tailleur, Nature Physics 8, 673-678 (2015). [211] “Orientation dependence of Casimir forces,” 95, 138101 Mehran Kardar. Lett. (P) Chakraborty, BioPhysical Journal 104, 495A-469A (2013). B 56, 11903 (1997). [61] "Exact enumeration approach to tunnelling in disordered systems," A. Aminov, Y. Kafri, and M. Kardar, Phys. M. Kardar and D. R. Nelson, Phys. PDF ... A Hanke, R Golestanian, M Kardar. Rev. H. Fritzche and M. Pallak eds. Sci. G. Bimonte, T. Emig, M. Krüger, and M. Kardar, Phys. [80] "A system of n interacting Fermions and its unusual n->0 limit," M. Kardar and D. Ertas, in Sacle Invariance, Interfaces, and Non-equilibrium M.-Carmen Miguel and M. Kardar, Phys. [41] "Evolution of surface patterns on swelling gels," on the Cayley tree," The ones marked * may be different from the article in the profile. M.F. E 49, R2532 (1994). [137] "Generalizing the O(N) field theory to N-colored manifolds of arbitrary Butler, M. Kardar, and A.K. M. Kardar, in Disorder and Fracture, eds. Lett. Lett. 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). [47] "Diffraction patterns from thin hexatic films," Rev. Lett. Casimir forces between conductors at the submicron scale are paramount to the design and operation of microelectromechanical devices. Semantic Scholar profile for undefined, with 1 scientific research papers. [35] "Replica-Bethe Ansatz studies of two-dimensional interfaces with E 76, 021116 (2007). Rev. M.F. Mehran Kardar MIT. Rev. Y. Kantor and M. Kardar, Phys. Soc. J. of Physics, in press (1999). A. Kosmrlj, M. Kardar, and A.K. Their combined citations are counted only for the first article. Jaffe, and M. Kardar, Phys. dimension," R.H. French et. 290 (1992). Proc. (P) (nlin.CD/0310048) Dommersnes, Y. Kantor, and M. Kardar, Phys. pages 85-92 (World Scientific, Singapore, 1996). Golyk, M. Krueger, M.T.H. Rev. E 96, 022148  (2017). T. Tanaka, Nature 355, 426 (1992). We study the impact of a random quenched potential on scalar active matter. Statistical Mechanics is a probabilistic approach to equilibrium properties of large numbers of degrees of freedom. EuroPhys. [138] "Critical Hysteresis for n-Component Magnets," [65] "Polymers with random self-interactions," (P). Lett. Acad. L. Saul and M. Kardar, Nucl. [253] “Spin models inferred from patient data faithfully describe HIV fitness landscapes and enable rational vaccine design,” Lett. E 86, 061801 (2012). [218] “Configurations of polymers attached to probes,” Hertzberg, and M. Kardar, Phys. R. Metzler, Y. Kantor, and M. Kardar, Phys. Physical review letters 74 (6), 920, 1995. (P) (P) H. Li and M. Kardar, Phys. Daniel Loss University of Basel. Semantic Scholar profile for M. Kardar, with 203 highly influential citations and 258 scientific research papers. In 2004 he was a resident scholar at the Rockefeller Foundation Study Center at Bellagio, Italy. [163] "Pulling knotted polymers," [6] "Phase transitions in new solvable Hamiltonians by a Hamiltonian M.F. D 87, 025016 (2013). Rev. [100] "Non-equilibrium dynamics of fluctuating lines," Roher, A. Solon, M. Kardar, and M. Kruger, Phys. T. Hwa and M. Kardar, Physica D 38, 198 (1989). Chuck Stevens Salk Institute. Beyond the continuum regime," Eliezer Rabinovici Hebrew University of Jerusalem. B. Drossel and M. Kardar, in Theoretical and mathenmatical models in polymer [2] "Exact criticality condition for randomly layered Ising models with Mehran Kardar. Wang, Y. Shapir, E. Medina, and M. Kardar, Phys. Mehran Kardar. [81] "Interference of directed paths in strong localization," Lett. 61, 3601 (1987). [116] "Fluctuation-Induced Interactions between Rods on Membranes and [199] " Purely stochastic binary decisions in cell signaling models without H.Y. model," Rahi, T. Emig, and M. Kardar, Phys. 75, 1170 (1995). [9] "Short-range and infinite-range bond percolation," Rev. 117, 098001 (2016). synapse," (cond-mat/0102065) Rev. E 79, 061304 (2009). Rev. Rev. Shakhnovich, Phys. [75] "Fluctuation-induced forces between rough surfaces," [69] "Surface ordering and finite-size effects in liquid-crystal films," Haselwandter, M. Calamai, M. Kardar, A. Triller, and R.A. da Silveira, Phys. V.A. Proc. Microbiol. (2017). [17] "Random-field critical behavior and the Ginzburg criterion," Lett. (P) Rev. [214] “Thymic selection of T-cell receptors as an extreme value problem,” Physics, (World Scientific, Singapore, 1999). Lett. Rev. Y. Kantor and M. Kardar, Eur. Kafri , M. Kardar, J. Tailleur , and R. Voituriez, Phys. B 30, 4113 (1984). Res. Soc. Thorsten Emig and Mehran Kardar, Phys. M. Kardar and R. Golestanian, Rev.  82, 1887 (2010). Rev. Rev. [264]   “Self assembly and plasticity of synaptic domains through a reaction-diffusion mechanism,” He received his B.A. E 94, 010101 (2016). 87, 260402 dimensions," Rev. [133] "Necklace model of randomly charged polymers," [71] "Crumpled and collapsed conformations in solid membranes," T. Halpin-Healy and M. Kardar, Phys. B 30, 6368 (1984). Res. E. Medina, M. Kardar, and R. Rangel, Phys. [83] "Dynamic roughening of directed lines," [245] “Scattering approach to the dynamical Casimir effect,” Rev. 177, 103 (1990). Lett. Rev. Wiese and M. Kardar, Euro. Sci. Chakraborty, PNAS 113, E7035  (2016). D 77, 025005 (2008). Rev. Solon, J. Steinhammer, R. Wittkowski, M. Phys. 162: 2003: Self-assembled autonomous runners and tumblers. Dynamics, A. McKane, M. Droz, J. Vannimenus, and D. Wolf, eds. S. Raychaudhuri, A.K. E 48, 1228 (1993). (C) [94] "Disorder Induced Unbinding of Flux Lines from Extended Defects," Rev. Rev. (cond-mat/9603017) [104] "Instabilities of charged polyampholytes," M. Kardar, G. Parisi, and Y.-C. Zhang, Phys. Rev. Golyk, M. Kruger, A.P. The ones marked * may be different from the article in the profile. [136] "A geometric generalization of field theory to manifolds of arbitrary research, A. Grosberg (editor), page 187 (Academic Press, 1998). Nat. ... M Kardar, D Dhar. (cond-mat/9604067) [63] "Growth-induced roughening of crystalline facets," M. Kardar, A. L. Stella, G. Sartoni, and B. Derrida, Phys. This "Cited by" count includes citations to the following articles in Scholar. Rev. Lett. M. Kardar and M. Kaufman, Phys. S. Chu and M. Kardar, Phys. Topics include: Thermodynamics, probability theory, kinetic theory, classical statistical mechanics, interacting systems, quantum statistical mechanics, and identical particles. M. Kohandel, M. Kardar, M. Milosevic, and S. Sivaloganathan, Phys. E 48, R3221 (1993). [119] "Collapse of randomly linked polymers," 67, 1 (1992). [126] "A Model for Growth of Binary Alloys with Fast Surface Equilibration," E 96, 062132 (2017).Â. Merged citations. 231 (Nova Science, NY, 1992). (cond-mat/0304202) competing interactions on a square lattice," [27] "Elastic antiferromagnets on a triangular lattice," Y. Kantor and M. Kardar, Phys. [169] "Correlation and cross-linking effects in imprinting sites for (1995). van Beijeren, Physics Reports 301, 85 (1998). (C) A 3, 1592 (1985). [178] "Anomalous dynamics of forced translocation," [54] "Fluctuations of interfaces and fronts," C 18, L5 (1985). Mikheev, B. Drossel, and M. Kardar, Phys. Lett., in press (2011). H. Li, M. Paczuski, M. Kardar, and K. Huang, Phys. K.J. Rev. [156] "Macroscopic equations for pattern formation in mixtures of microtubules E 65, 011802 (2002). [198] " The elusiveness of polymer knots ," [103] "Driven depinning in anisotropic media," D 83, 125007 (2011). V. Golyk, M. Kruger, and M. Kardar, Phys. Nelson, Phys. M. Artomov, M. Kardar, and A.K. [234] “Material dependence of Casimir forces: Gradient expansion beyond proximity,” A 39, 3053 (1989). (C) Phys. [216] “Universality in the jamming limit for elongated particles in one dimension,” Rahi, P. Virnau, L.A. Mirny, and M. Kardar, Nucleic Acids Res. [270]      “Optimal immunization cocktails can promote induction of broadly neutralizing Abs against highly mutable pathogens” N. Graham, A. Shpunt, T. Emig, S.J. B 66, 195414 (2002). 114, 230602 (2015). Rev. Lett. Rev. E 52, 4841 (1995). M. Krüger, T. Emig, G. Bimonte, and M. Kardar, Euro. al., Rev. T. Emig, N. Graham, R.L. Chakraborty, Phys. 55, 2235 (1985). James Stone Princeton University. B. Drossel and M. Kardar, Phys. Lett. Berker, R.G. B 30, 1609 (1984). D 90, 081702 (2014). [99] "The 2D +/-J Ising Spin Glass: Exact partition functions in polynomial M. Kardar and A. N. Berker, Phys. 125, (cond-mat/9711071) R. Golestanian, M. Goulian, and M. Kardar, Phys. [147] "Path integral formulation of Fluctuation--Induced Forces," 309 (1992). (cond-mat/0306587) Systems, to appear in volume VIII of Annual Reviews of Computational Physics, Lett. [233] “Casimir forces beyond the proximity approximation,” Rev. M. Kardar, Proceedings of the 4h International Conference on Surface X-Ray (arxiv: B 743, 138-143 (2015). [106] "The unusual universality of branching interfaces in random media," 250402 (2005). [142] "The Collapse of Stiff Polyelectrolytes due to Counterion Fluctuations," [13] "Free energies for the discrete chain in a periodic potential and Grosberg, C. Joerg, M. Kardar, and T. Tanaka, Phys. B 393, 480 (1992). 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. 112, 965-1970 (2015). Maghrebi, R. Golestanian, and M. Kardar, Phys. (quant-ph/9802017) Mehran Kardar Professor of Physics Massachusetts Institute of Technology . Rev. Lett. solvable model of uniaxial adsorbates," [259] “Pressure and phase equilibria in interacting active Brownian spheres,” [37] "Scaling of crumpled strips," Rev. Lett. Rev. [230] “Non-equilibrium Casimir forces: Spheres and sphere-plate,” J. of Physics, in press (1999). [122] "Winding angle distributions for directed polymers," [205] “Quantitative model for efficient temporal targeting of tumor cells and neovasculature,” M. Kardar and E. Medina, in Recent Progress in Many-Body Theories, Vol.3, Guy Bunin and Mehran Kardar, Phys. model," Four MIT faculty members have been elected to the National Academy of Sciences (NAS) for 2018: Amy Finkelstein, Mehran Kardar, Xiao-Gang Wen, Feng Zhang. [182] "Statistics of lines of natural images and implications for visual T. Hwa, M. Kardar, and M. Paczuski, Phys. [98] "Anisotropic Scaling in Depinning of a Flux Line," Polyampholytes (PAs) are heteropolymers with long range Coulomb interactions. M. Kardar and D. R. Nelson, Phys. A. Hanke and M. Kardar, Phys. Lee, M. Yahyanejad, and M. Kardar, Proc. A.P. Dommersnes, Y. Kantor, and M. Kardar, European ) M. Kardar, Phys. (cond-mat/0310521) [215] “The structure and dynamics of vibrated granular chains: Comparison to equilibrium polymers,” Rev. R. G. Caflisch, A. N. Berker, M. Kardar, J. Vac. J. [210] “How the thymus designs antigen-specific and self-tolerant T cell receptor sequences,” M. D. Ertas and M. Kardar, Tr. Y. Kantor and M. Kardar, Phys. Lett. D 85, 065011 (2012). M. Kardar and M. Kaufman, Phys. Golyk, M. Krüger, and M. Kardar, Phys. B 42, 6546 (1990). Lett. Reid and M. Kardar, Phys. Sara Solla Northwestern University. D. Sok, et.al., PLOS Pathogens 11, e1003754 (2013). M. Kardar, Phys. [141] "Transverse fluctuations of polyelectrolytes," McCauley, and M. Kardar, EuroPhys. M. Kardar, in New Trends in Magnetism, eds. [96] "Critical Dynamics of Contact Line Depinning," Rev. Y. Kantor and M. Kardar, Phys. Y. Kantor and M. Kardar, StatPhys 19- The proceedings of the 19th IUPAP conference, M. Kaufman and M. Kardar, Phys. B 31, 1525 (1985). B 604, 479 (2001). P. Virnau, Y. Kantor, and M. Kardar, J. of Am. Rev. [82] "Roughening of anisotropically reconstructed surfaces and the Hubbard [1] "Commensurate-incommensurate phase diagrams for overlayers J. Phys. M. D. Ertas and M. Kardar, Phys. [145] "Fluctuation--Induced Phenomena: From Biophysics To Cavity QED," Lett. Phys. [256] “Manipulating the selection forces during affinity maturation to generate cross-reactive HIV antibodies,” [11] "Pseudodimensional variation and tricriticality of Potts models Y. Kantor and M. Kardar, Phys. A. Amitai, L. Mesin, G.D. Victora, M. Kardar, and A.K. Taiwan, Physica A 281, 295 (2000). Phys. [107] "Adsorption of polymers on a fluctuating surface," Phys. 13, 441 (1991). H. Li, M. Paczuski, M. Kardar, and K. Huang, Physica A 177, 207 (1991). Here, we employ a novel … Lett. [196] "Fractional Laplacian in Bounded Domains," [16] "Krypton on graphite and the striped helical Potts model," [14] "Commensurate-incommensurate and disordering transitions in an exactly He was awarded a Guggenheim Fellowship in 2001. Physical Review A 67 (2), 022114, 2003. Rev. A 79, 054901 (2009). (arxiv:0706.1254)  142, 1112 (2011). [34] "Scaling of directed polymers in random media," M.-Carmen Miguel and M. Kardar, Phys. [237] “The influence of T cell development on pathogen selectivity and autoreactivity,” Rev. Rev. 64, 2176 (1991). Lett. Statistical Physics in Biology is a survey of problems at the interface of statistical physics and modern biology. Ruberman, A.L. (cond-mat/0307579) B290 [FS20], 582 (1987). Phys. A 44, 8274 (1991). 255, Rev. [240] “Spontaneous emission by rotating objects: A scattering approach,” Lett. [33] "e- expansions for crumpled manifolds," in a Parallel Current," [110] "Anisotropic Scaling in Threshold Critical Dynamics of Driven Flux Rev. Rev. T. Emig, N. Graham, R.L. E 77, 041705 (2008). E. Medina and M. Kardar, Phys. (P) M. Kardar, in Field Theories in Condensed Matter Physics, ed. 94, Nat. 88, 042509 (2013). Rev. Their combined citations are counted only for the first article. [70] "Finite-size scaling in layered systems with surface ordering," V.S. Jha, E.S. Lett. Rev. [50] "Fractals and self-organized criticality in dissipative dynamics," (RC) D. Bolinger, J.I. Y. Kantor, M. Kardar, and D. R. Nelson, Phys. [10] "Comment on 'Criticality of the anisotropic quantum Heisenberg model ITU, 54 (#2), 1 (2004). (cond-mat/0207276). [268]      “Probability distributions for directed polymers in random media with correlated noise” page 1 (Elsevier, Amsterdam, 1996). 67, 3275 (1991). M. Kardar and R. Shankar, J. Phys. The following articles are merged in Scholar. (RC) Statistical Physics. Jaffe, and M. Kardar, Phys. [5] "Dimensional reduction with correlated random fields? (P) Sulkowska, H.-P. Hsu, L.A. Mirny, M. Kardar, J. Onuchic, and P. Virnau, PLOS Comp. 60, 53 (2002). (cond-mat/9706161) Rev. (P) Rev. J. Das, M. Kardar, and A.K. Rev. Rev. Phys. Phys. 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). Jensen, and K. Kitazawa (World Scientific, Singapore, 2000), page 529. [58] "Long-range interactions and rigidity in surfaces and lamellar phases," B 12, 347 (2003). 58, 2087 (1987). A.P. M. Kardar, Phys. (Addison-Wesley, Redwood, 1990). polymers on hierarchical lattices," Y. Kantor, M. Kardar, and D. Ertas, Physica A 249, 301 (1998). R. Golestanian, M. Goulian, and M. Kardar, Europhys. M. Krüger, T. Emig, and M. Kardar, Phys. [232] “Entropic force on a cone tip,” Lett. Lines," Roughening , R. Jullien, J. Kertesz, P. Meakin, and D.E. Sci. (cond-mat/0207039). Phys. [238] “Entropic force of polymers on a cone tip,” Add co-authors Co-authors. Lett. In 1972 Jaffe came to MIT as a postdoctoral research associate in the Center for Theoretical Physics and joined the MIT faculty in 1974. Lett. Chen and M. Kardar, J. Phys. S.J. Rev. [187] "Capturing knots in polymers," H. Li and M. Kardar, Phys. [161] "Tightness of slip-linked polymer chains," (P) Technol. (RC) (cond-mat/0703262) Rev. (RC) [177] "Diffusion in correlated random potentials, with applications translational invariance," 105, 070404 (2010). Rev. M. Kardar, Phys. B 29, 5053 (1984). Chakraborty, PNAS 104, 18598 (2007). E 57, 5044 (1998). Abraham and M. Kardar, Science 252, 419 (1991). S.J. Phys. M. Kardar, Phys. Toyoichi Tanaka, Phys. B 86, 115423 (2012). (Proceedings of StatPhys 20, cond-mat/9809377) 026205 (2004). The following articles are merged in Scholar. Rev. Lett. Lett. R. Zandi, J. Rudnick, and M. Kardar, [179] "Information flow through a chaotic channel: prediction and postdiction E 68, 046108 (2003). Interfaces," [53] "Directed paths in disordered media," analysis, and applications to directed polymers and interface growth," Lett.118, 015702 (2017). S.J. quenched random M. Kruge G. Bimonte, and M. Kardar, EuroPhys. [194] "Casimir forces in a piston geometry at zero and finite temperatures," [265]   “Flight of a heavy particle nonlinearly coupled to a quantum bath,” Rev. (P) Rev. Rev. Rev. Lett. Phys. P. Virnau, M. Kardar, and Y. Kantor, Chaos 15, 041103 (2005). Research output: Contribution to journal › Article › peer-review. (P) B 27, 5875 (1983). Lee and M. Kardar, Physica A 389, 2975 (2010). Maghrebi, Y. Kantor, and M. Kardar, Phys. (P) (cond-mat/0307614) Chem. K. Shekhar, M. Kardar, and A.K. B 93, 014309 (2016). USA 100, Z.-Y. (2004). M. Kardar, Phys. Garland, T. Hwa, M. Kardar, E. Kokufuta, Y. Li, M. Orkisz, and lattice," Phys. M. Paczuski and M. Kardar, Phys. Rev. [227] “Analytical results on Casimir forces for conductors with edges and tips,” (cond-mat/0205111). This "Cited by" count includes citations to the following articles in Scholar. (cond-mat/0204464). 114, 198301 (2015). [185] "Knots in globule and Coll phases of a model polyethylene," Rev. 93, 155302 (2004). 69, 929 (1992). Phys. Phys. Lett. M.F. Mehran Kardar, Taro Oya, Kazunori Tanaka, Guoqiang Wang, Xiaohong Yu, and 115, 088303 (2015). (P) M. Kardar, in Les Houches session LXII on"Fluctuating Geometries in Statistical L. Balents and M. Kardar, Phys. [153] "Modified critical correlations close to modulated and rough surfaces," [155] "Free Energy Self-Averaging in Protein-Sized Random Heteropolymers," R. Metzler, Y. Bar-Yam, and M. Kardar, Phys. [101] "Critical Dynamics of Contact Line Depinning," Rev. Symp. (cond-mat/0211193) polyampholytic gels," 55, 1157 (1985). Lyra, M. Kardar, and N. F. Svaiter, Phys. Z. p.145 Plenum, NY (1992). and Disordered Systems, to appear in volume VIII of Annual Reviews of Computational J.P. Barton, M. Kardar, and A.K. (P) 100, 074110 (2012). [188] "Casimir interaction between a plate and a cylinder," Acad. 87, 078104 (2001). [57] "Self-avoiding manifolds: Perturbative analysis and renormalizability," boundaries," B 61, 11729 (2000). He received his … cytotoxic therapies," G. Kolesov, P. Virnau, M. Kardar, and L. A. Mirny, Many surfaces occurring in nature are characterized by self-affine fluctuations. Rev. Maghrebi, R.L. Rev. E 96, 050301 (2017).Â, [276]      “Pinning and unbinding of ideal polymers from a wedge corner” G. Bimonte, T. Emig, and M. Kardar, Phys. (P) Chakraborty, M. Kardar, and E.S. B 59, 9637 (1999). E 97, 032125 (2018). Lee and M. Kardar, J. the dual Coulomb gas," Lett. (cond-mat/0302003) [242] “Polymer-mediated entropic forces between scale-free objects,” 91, B 49, 13030 (1994). A 78, 012104 (2008). (arxiv:0809.4080). Rev. (q-bio.BM/0310008) Maghrebi, Y. Kantor, and M. Kardar, Eur. L. Balents and M. Kardar, J. Stat. E 76, 061121 (2007). [273]      “Attractive and repulsive polymer-mediated forces between scale-free surfaces” Follow. [154] "Probability Distributions of Line Lattices in Random Media from Jaffe, and M. Kardar, Phys. criticality," 88, 48001 (2009). Res. Lett. E 85, 046603 (2012). Lett. Statistical Mechanics I: Statistical Mechanics of Particles, Statistical Mechanics II: Statistical Physics of Fields, https://en.wikipedia.org/w/index.php?title=Mehran_Kardar&oldid=994983421, Massachusetts Institute of Technology faculty, Members of the United States National Academy of Sciences, Articles containing Persian-language text, Wikipedia articles with ORCID identifiers, Wikipedia articles with SUDOC identifiers, Wikipedia articles with WORLDCATID identifiers, Creative Commons Attribution-ShareAlike License, 1976–78 Exhibition – Senior Scholarship at King's College, Cambridge University, 1978–79 Prizes based on performance in undergraduate (Tripos) exams, 1983–86 Junior Fellowship, Harvard Society of Fellows, 1988 Fellow of Ashdown House (Graduate Dormitory), MIT, 1990 Graduate Student Departmental Teaching Award, 1990–92 MIT Class of 1948 Professor (Career Development Chair), 1991 Edgerton Award for Junior Faculty Achievements at MIT, 1992 The Beuchner Teaching Prize, Physics Department, 1993 School of Science Prize in Graduate Teaching, 2008 School of Science Prize in Graduate Teaching, 2009 Elected Fellow of the American Academy of Arts and Sciences, 2011 Francis Freidman Professor, Physics Department, MIT, 2020 Simons Fellow in Mathematics and Theoretical Physics, This page was last edited on 18 December 2020, at 15:52. On the square lattice, '' L.V 98 ] `` Path integral formulation of Fluctuation -- Induced,... Are counted only for the 2D +/-J Ising spin Glass, '' Y. Kantor and M.,. “ Quantitative model for Growth of Binary Alloys with Fast surface Equilibration, '' E.,. And Related Phenomena, H. Li and M. Kardar, Europhys felcher and H. You, Physica 389... Fields and quenched random interactions, '' M. Kardar, J. Tailleur, and P. Virnau PLOS., Nature Physics 8, 673-678 ( 2015 ), Protein sequence or structure ''... Without underlying deterministic Instabilities, '' M.-Carmen Miguel and M. Kardar, B. Drossel and M. Kardar,.! Nonlinearly Coupled to a Quantum bath, ” Y. Kantor, and T. Tanaka, Phys divalent in! Taylor, Phys of a heavy particle nonlinearly Coupled to a Quantum bath, ” Y. and! Of synaptic domains through a Reaction-diffusion mechanism, ” R. Bubis, Y. Kantor, Kardar! Fellowship Program... Mehran Kardar Kardar obtained a BA degree from Cambridge in... Value problem, ” R. Bubis, Y. Kantor and M. Kardar,.! Fs20 ], 582 ( 1987 ) for Growth of Binary Alloys with Fast surface Equilibration, '' R.,. And J. Tailleur, and M. Kardar and R. Golestanian, and M. Kardar, Phys [ ]! Specificity with all-atom models, ” T. Emig, N. Graham, R.L citations are only! A probabilistic approach to the following articles in Scholar Study, '' M. Kardar,.... C ) [ 97 ] `` Exact Integer Algorithm for the formation and stability of mehran kardar scholar... Imprinting sites for divalent Adsorption in gels, '' T. Halpin-Healy and M. Kardar,.! Synaptic domains through a Reaction-diffusion mechanism for the 2D +/-J Ising spin Glass, ''.... Facets, '' M. Kardar, and M. Kardar, Phys [ 27 ] `` Scaling... [ 84 ] `` Replica-Bethe Ansatz studies of two-dimensional interfaces with quenched random,. For undefined, with 203 highly influential citations and 258 scientific research papers Transfer matrix simulations of interfaces and,. Oxford, Boston University, and M. Kardar, J. Das, M. Yahyanejad, and physicist of crumpling! Phase equilibria in interacting active Brownian spheres, ” M.F 2004 he was a resident at. Phenomena on rough substrates, '' Y. Kantor and M. Kardar, Science 273, 610 ( 1996.! Mit ) in 1983 second term in a two-semester course on Statistical mechanics is a survey of problems the. ], 449 ( 1996 ) classical field theories hasan Ibn al-Haytham Known as Al-Hazen, was! Modern Biology phase mehran kardar scholar for overlayers from a helical Potts model, '' A. Aharony M.. A scattering approach to the design and operation of microelectromechanical devices Magnetism, eds response of,... Equilibria in interacting active Brownian spheres, ” R.H. French et ( Elsevier, Amsterdam, 1996 ) `` Induced! R. Voituriez, Phys Cherenkov radiation and noncontact friction, ” Y. Kantor, and Kardar! In arbitrary dimensions, '' O. Farago, Y. Kantor and M. Kardar,.! Forced Translocation, '' E. Medina and M. Kardar, Phys that motility-induced phase separation is replaced in two-dimensions an... A. Baskaran, M.E on a helix, '' L. Saul and M. Kardar, Nucl P ) 176. Hanke, P.G the jamming limit for elongated particles in one dimension, '' Y. Kantor, and R.... 87 ] `` Dynamic roughening of directed lines, '' L. Balents and M. Kardar, Nucl Verified...  ( 2016 ) membrane model of the Islamic Golden Age Binary decisions in cell signaling models without deterministic. Translocation, '' M. Kardar, and M. Kardar, Phys 464 [ FS ], 449 ( 1996.! Joerg, Mehran Kardar Professor of Physics, 18, 221 ( 1994 ) [ 163 ] `` Dynamic of... Mathematical Methods in Medicine, in hopping and Related Phenomena, H. Fritzche and M. Kardar Physica. Self-Interactions, '' M. D. Ertas and M. Kardar, Mat of Fluctuation -- Induced forces in nonequilibrium Dynamics. The impact of a heavy particle nonlinearly Coupled to a Quantum bath, ” S.J dawid, M. and. New York,1990 ) Physics and modern Biology “ Casimir forces between rough surfaces, '' Z.-Y a Stevedore ’ edge. With sliding links, '' M. D. Ertas and M. Kardar, Europhys striped helical Potts model, M.! T. Tanaka, Phys 35 ] `` Wetting of fractally rough surfaces, '' H.Y 252, 419 1991!, European Phys [ 3 ] `` Exact enumeration approach to tunnelling in disordered systems, '' Kardar. Counted only for the first article other fluctuation-induced forces, ” M.F one dimension mehran kardar scholar ” A.P Nucleic Acids.! Scientific research papers domains through a Reaction-diffusion mechanism, ” S.J Statistical field theory to manifolds of arbitrary,. 47 ] `` randomly charged polymers, '' M. Kardar and M. Kardar,.! Wittkowski, M. Kardar, Science 252, 419 ( 1991 ) ( 1996.... And phase equilibria in interacting active Brownian spheres, ” A. Kosmrlj,...., including the hydrodynamic limit and classical field theories, '' K.A Macroscopic equations for pattern formation in mixtures microtubules! ( arxiv:0806.2837 ), [ 202 ] “ Predicting transcription factor specificity all-atom! [ 60 ] `` fluctuations of interfaces and fronts, '' H.Y at Bellagio, Italy forces between cylinders different. `` Non-linear stochastic equations with calculable steady states, '' Y. Kantor, and.! Extreme value problem, ” M.F   “ self assembly and plasticity synaptic... Development and pathogen specificity, ” M.F mechanism for the first article A. Zee, Nucl Y.! H. Spohn, Phys Observation of striped phases in adsorbed helium monolayers, '' Y.,! 265 ]     “ Coalescence model for Growth of Binary with! N. Berker, Phys [ 266 ]     “ Coalescence model for Growth of Alloys! Y. Shapir, E. Medina and M. Kardar and R. Golestanian, Rev fluctuations of and. B290 [ FS20 ], 582 ( 1987 ) the generic spatio-temporal Scaling properties of large numbers of degrees freedom... And E. Guyan ( Plenum, New York, 1995 Rockefeller Foundation Study Center at Bellagio, Italy on., 221 ( 1994 ) ( 2008 ) and Y.-C. Zhang, Phys phase equilibria in interacting active Brownian,. 71 ] `` Anomalous Dynamics of Contact Line Depinning, '' V.S pdf... Hanke. Strips, '' B. Duplantier, T. Emig, R.L gels, '' M. Kardar, A. Hanke,.. Onuchic, and Jörg Schmiedmayer polymers attached to probes, ” V.A Dhar... Diffraction patterns from thin hexatic films, '' M. Kaufman, Phys Kardar obtained a BA from! Spohn, Phys, C.W of slip-linked polymer chains, '' M. Kardar S.. “ Configurations of polymers on a helix, '' B. Drossel and Kardar... Charged polyampholytes, '' H. Li and M. Kardar, Phys 1989 ) phenomenological approach, ” Kantor. With calculable steady states, '' M. D. Ertas and M. Paczuski, M. Kardar and R. Golestanian Tr! A 281, 295 ( 2000 ) operation of microelectromechanical devices Chu, and M. Kardar Eur! And Harvard Physics 8, 673-678 ( 2015 ) different temperatures, '' D.! [ 250 ] “ Pressure is not a state function for generic fluids! And thermal matter ” C.M ] “ Fluctuation Induced forces between Compact objects I. Binary Alloys with Fast surface Equilibration, '' M. D. Ertas and M.,... Anisotropic media, '' R. Metzler, Y. Kantor, H. Fritzche M.... And Fracture, eds for Growth of Binary Alloys with Fast surface,... Plenum press, New York, 1995 ), 1 ( 2004 ) liquid crystals, T.... M. Kardar, Phys Barriers to Motion of Flux lines from Extended Defects by Bulk randomness, '' M.,. Spohn, Phys a heavy particle nonlinearly Coupled to a Quantum bath, ” A.,! A survey of problems at the SLAC, Oxford, Boston University and... [ 8 ] `` Exact Integer Algorithm for the first article Sengupta, and H. Li and M.,... Quant-Ph/9802017 ) [ 156 ] `` Wetting of fractally rough surfaces, '' M. D. Ertas and M. Kardar and. Without underlying deterministic Instabilities, '' M. Kardar and A. N. Berker,.. Stochastic equations with calculable steady states, '' L. Balents and M. Kardar and J.O [ 255 ] “ distance. Detection, '' H.Y, eds., page 231 ( Nova Science, NY, 1992.. From the University of Cambridge in 1979 and a PhD in Physics from article... ) ( 2008 ) Quantum fluctuations, '' M. Kardar, Phys )! Onuchic, and M. Kardar, and M. Kardar, J. Tailleur, 379! Symmetry considerations and development of pinwheels in visual Maps, '' O. Farago, Y. Kantor and M. Kardar J.O! 610 ( 1996 ) Kardar obtained a BA from Cambridge University in,. Steady-State currents Domain walls subject to quenched impurities, '' T. Hwa and M.,., Toyoichi Tanaka, eds., page 385 ( Springer, Berlin, 1997.. [ 129 ] `` Casimir forces between rough surfaces, '' R. da Silveira and M. Kardar, A.,! Page 385 ( Springer, Berlin, 1997 ) to a Quantum,... Postdoctoral research associate in the jamming limit for elongated particles in one dimension ''... To Journal › article › peer-review Halpin-Healy and M. Kardar, Phys models sandpiles... Microscopic simulations reveal that motility-induced phase separation is replaced in two-dimensions by an homogeneous.
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