[137] "Generalizing the O(N) field theory to N-colored manifolds of arbitrary Their combined citations are counted only for the first article. G.p. 96, 66002 (2011). Sulkowska, H.-P. Hsu, L.A. Mirny, M. Kardar, J. Onuchic, and P. Virnau, PLOS Comp. (arxiv:0806.2837), [209] “Predicting transcription factor specificity with all-atom models,” 3665 (2007). [118] "Winding angle distributions for random walks and flux lines," Phys. Lett. by hierarchical breaking of Jaffe and M. Kardar, Phys. [47] "Diffraction patterns from thin hexatic films," 91, Lett. [190] "Intricate knots in proteins: Function and evolution," E 94, 010101 (2016). A. Hanke, R. Metzler, P.G. Mehran Kardar MIT. Lett. M. Kardar and R. Shankar, Phys. Y. Kantor and M. Kardar, Europhys. Lett. 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). D 92, 025028 (2015). [220] “A Stevedore’s protein knot,” (P) Chen and M. Kardar, J. Phys. Mechanics and Field Theory", Proceedings, F. David and P. Ginzparg, and (P) Rev. Rev. Phys. (cond-mat/0409055) Google Scholar. 43 (2005). T.C. 100, 074110 (2012). [230] “Non-equilibrium Casimir forces: Spheres and sphere-plate,” [129] "Threading dislocation lines in two-sided flux array decorations," Rev. E. Medina, M. Kardar, and H. Spohn, Phys. (Plenum, New 61, 3601 (1987). M. Kardar and Y.-C. Zhang, Europhys. D. M. Pierre and M. Kardar, submitted to Biological Cybernetics (1997). M.N. G. Bimonte, T. Emig, R.L. renormalization-group calculation," 86, 4596 (2001). M.-Carmen Miguel and M. Kardar, Phys. V.A. Proc. T.C. M. Kardar, G. Parisi, and Y.-C. Zhang, Phys. (C) Polyampholytes (PAs) are heteropolymers with long range Coulomb interactions. Lett. Rev. (arxiv:0707.1862) [97] "Excess charge in polyampholytes," [192] "Protein knot server: Detection of knots in protein structures," M. D. Ertas and M. Kardar, Phys. D. Sok, et.al., PLOS Pathogens 11, e1003754 (2013). Y. Kantor and M. Kardar, Phys. Phys. (cond-mat/9711071) A. Zoia, Y. Kantor, and M. Kardar, [39] "Harmonics of orientational order in liquid crystals," Rev. Kardar is particularly known for the Kardar–Parisi–Zhang (KPZ) equation[1] in theoretical physics, which has been named after him and collaborators. Acad. Lett. E. Medina and M. Kardar, Phys. 104, 41001 (2013). Lee and M. Kardar, Physica A 389, 2975 (2010). Rev. Y. Kantor and M. Kardar, Eur. [95] "Reply to comment by M. Rost and H. Spohn," (arxiv:0706.1254) [187] "Capturing knots in polymers," (P) pages 85-92 (World Scientific, Singapore, 1996). (quant-ph/9802017) B 53, 3520 (1996). J.C. Charmet, S. Roux, and E. Guyan Rahi, P. Virnau, L.A. Mirny, and M. Kardar, Nucleic Acids Res. [139] "Melting of Flux Lines in an Alternating Parallel Current," Rev. A. Kosmrlj, M. Kardar, and A.K. J. of Phys. Pande, A.Yu. and quenched random interactions," Jaffe and M. Kardar, Euro. Y. Kantor and M. Kardar, Phys. S. J. Rahi, T. Emig, R. L. Jaffe, and M. Kardar, Phys. M. Kardar and J.O. R. Metzler, A. Hanke, P.G. B 31, 1525 (1985). (q-bio.BM/0310008) in visual maps," Lett. [93] "A phenomenological approach to dynamic relaxation of drifting polymers," [27] "Elastic antiferromagnets on a triangular lattice," M.D. (cond-mat/9908041) B 109, 6636 (2005). Wang, Y. Shapir, E. Medina, and M. Kardar, Phys. Lett. [69] "Surface ordering and finite-size effects in liquid-crystal films," Rahi, T. Emig, and M. Kardar, Phys. Indekeu, Europhys. Rev. Rev. 16036 (2003). 123: 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. (P) T. Emig, N. Graham, R.L. 52, 483 (1984). (P) [147] "Path integral formulation of Fluctuation--Induced Forces," M. Kardar and R. Golestanian, Tr. A. Amitai, L. Mesin, G.D. Victora, M. Kardar, and A.K. Y. Kantor, M. Kardar, and D. R. Nelson, Phys. Rev. [245] “Scattering approach to the dynamical Casimir effect,” Rev. Proc. [87] "Effects of surface enhancement on fluctuation-induced interactions," Add co-authors Co-authors. M. Kardar, Phys. Lett. M.-Carmen Miguel and M. Kardar, Phys. C.M. Eliezer Rabinovici Hebrew University of Jerusalem. M. KrÃ¼ger, T. Emig, G. Bimonte, and M. Kardar, Euro. Physical review letters 74 (6), 920, 1995. Rev. Interfaces," (cond-mat/9807188) 125, Rev. Lett. [79] "Conformations of polyampholytes," M. Kardar, in Fundamental Problems in Statistical Mechanics, edited by H. Upload PDF. Sitges Conference, M. Rubi and C. Perez-Vicente (eds. Statistical Physics in Biology is a survey of problems at the interface of statistical physics and modern biology. K. Shekhar, M. Kardar, and A.K. (arxiv:0805.4168), [208] “Melting of persistent double-stranded polymers,” H.Y. B 31, 1664 (1985). V.A. L. Balents and M. Kardar, Eurohys. Lett. C.A. [142] "The Collapse of Stiff Polyelectrolytes due to Counterion Fluctuations," Professor Kardar's interests include a wide range of problems related to understanding the generic spatio-temporal scaling properties of dynamic systems. V.S. E 93, 022412 (2016). Maghrebi, M. KrÃ¼ger, and M. Kardar, Phys. Their combined citations are counted only for the first article. (RC) Dommersnes, Y. Kantor, and M. Kardar, European [25] "Observation of striped phases in adsorbed helium monolayers," E. Medina, M. Kardar, Y. Shapir, and X.R. [165] "Structure Space of Model Proteins --A Principle Component Analysis," Rev. Rev. [109] "Randomly Charged Polymers: An Exact Enumeration Study," B 31, 4257 (1985). [33] "e- expansions for crumpled manifolds," T. Hwa and M. Kardar, Phys. [89] "Dynamic Relaxation of Drifting Polymers: A Phenomenological Approach," T. Emig, R. L. Jaffe, M. Kardar, A. Scardicchio, Phys. B. Duplantier, T. Hwa, and M. Kardar, Phys. Hasan Ibn al-Haytham Known as Al-Hazen, he was an Arab mathematician, astronomer, and physicist of the Islamic Golden Age. C. Rohwer, M. Kardar, and M. KrÃ¼ger, Phys. [38] "Fractal behavior of tethered networks," [68] "Spin-Orbit scattering and magnetoconductance of strongly localized Y. Kantor and M. Kardar, Phys. 74, 920 (1995). 0705.1474 E 81, 011107 (2010). Mehran Kardar, Taro Oya, Kazunori Tanaka, Guoqiang Wang, Xiaohong Yu, and Rev. M. Kardar, Proceedings of the 4h International Conference on Surface X-Ray Topics include: thermodynamics, probability theory, kinetic theory, classical statistical mechanics, interacting systems, quantum statistical mechanics, and identical particles. (cond-mat/9706161) His following courses are currently available on MIT OCW. E 51, 1299 (1995). Basic principles are … Nelson, Phys. Phys. Rev. Butler, M. Kardar, and A.K. Lett. Grosberg, C. Joerg, M. Kardar, and T. Tanaka, Phys. [176] "Symmetry considerations and development of pinwheels Nucleic Acids Research 35, 425 (2007). M. Slutsky, M. Kardar, and L. Mirny, Phys. E 70, Maghrebi, Y. Kantor, and M. Kardar, Phys. [253] “Spin models inferred from patient data faithfully describe HIV fitness landscapes and enable rational vaccine design,” Rev. (2001). James Stone Princeton University. Rahi, R.L. Rev. 95, 138101 Y. Kantor, M. Kardar, and D. R. Nelson, Phys. Rev. 118, 4277 (2003). (cond-mat/0302003) (P) Rev. divalent adsorption in gels," Add co-authors Co-authors. B 12, 347 (2003). Lett. Lett. 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. (P) Rev. [185] "Knots in globule and Coll phases of a model polyethylene," A 46, 6490 (1992). Chakraborty, Ann. [126] "A Model for Growth of Binary Alloys with Fast Surface Equilibration," Y. Shapir, X.R. Rev. (C) 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. Here, we employ a novel … E 76, 030610 (R) (2007). T. Hwa and M. Kardar, Phys. B 88, 155117 (2013). 250402 (2005). [278] “How nonuniform contact profiles of T cell receptors modulate thymic selection outcomes”, Dilution and resonance-enhanced repulsion in nonequilibrium fluctuation forces, Casimir forces beyond the proximity approximation, Material dependence of Casimir forces: Gradient expansion beyond proximity, Heat radiation from long cylindrical objects, Casimir forces between cylinders at different temperatures, Nonequilibrium Fluctuational Quantum Electrodynamics: Heat Radiation, Heat Transfer, and Force, Transient Casimir Forces from Quenches in Thermal and Active Matter, Attractive and repulsive polymer-mediated forces between scale-free surfaces, A population dynamics model for clonal diversity in a Germinal Center. L. Saul and M. Kardar, Phys. [214] “Thymic selection of T-cell receptors as an extreme value problem,” Lett. 27, 643 (1994). 75, 1170 (1995). In 2004 he was a resident scholar at the Rockefeller Foundation Study Center at Bellagio, Italy. (C) M. Kardar, G. Parisi, and Y.-C. Zhang, Phys. Acad. M. Kardar and D. R. Nelson, Phys. 77, 3565 (1996). E 69, 061903 [222] “Casimir force at a knife’s edge,” (cond-mat/0204464). S. Raychaudhuri, A.K. Sara Solla Northwestern University. Lyra, M. Kardar, and N. F. Svaiter, Phys. ITU, 54 (#2), 1 (2004). A 38, 966 (1988). The following articles are merged in Scholar. Lett. [26] "Dynamic scaling of growing interfaces," Rev. [272] "Transient Casimir Forces from Quenches in Thermal and Active Matter" [179] "Information flow through a chaotic channel: prediction and postdiction impurities," [191] "Dynamics of tumor growth and combination of anti-angiogenic and [150] "Melting of Flux Lines in an Alternating Parallel Current," B 432, 641 (1994). Rev. [12] "Uniaxially compressed magnets," The following articles are merged in Scholar. T. Emig, A. Hanke, R. Golestanian, and M. Kardar, Phys. J. Phys. Jaffe, and M. Kardar, Phys. M.L. [122] "Winding angle distributions for directed polymers," K. Stafford, Y. Kantor, M. Kardar, and A. Kudrolli, Phys. [243] “Statistical physics of T cell receptor development and pathogen specificity,” M. Kardar and A. N. Berker, Phys. 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 [20] "Theory of reentrant melting of krypton adsorbed on graphite," M. Kardar. (P) M. Kardar and Y.-C. Zhang, Phys. G. Kolesov, P. Virnau, M. Kardar, and L. A. Mirny, Rev. Rev. E 97, 032125 (2018). However, these forces depend nontrivially on geometry, and existing analytical formulae and approximations cannot deal with realistic micromachinery components with sharp edges and tips. Add co-authors Co-authors. A 45, 7002 (1992). E 78, 021129 (2008). model," (physics/0205111). Â 142, 1112 (2011). 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. R. Golestanain, M. Kardar, and T. Liverpool, Phys. 58, 2087 (1987). E 79, 041109 (2009). Symp. R. Halifa Levi, Y. Kantor, and , M. Kardar, Phys. Lett. P. Virnau, Y. Kantor, and M. Kardar, J. of Am. 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. Euro. 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). [21] "Commensurate-incommensurate transitions with quenched random impurities," Rev. M. Kardar and D. Ertas, in Sacle Invariance, Interfaces, and Non-equilibrium M. Kardar, Nucl. This "Cited by" count includes citations to the following articles in Scholar. [133] "Necklace model of randomly charged polymers," 58, 1289 (1987). 60, 53 (2002). 77, 4275 (1996). [168] "Normal and lateral Casimir forces between deformed plates," 99, 15894 (2002). 080403 (2006). G. Bimonte, T. Emig, and M. Kardar, Phys. Arkady I. Vainshtein University of Minnesota Phys. Proc. [40] "Landau theory of the crumpling transition," [105] "Directed paths in random media," M. D. Ertas and M. Kardar, Mat. p.145 Plenum, NY (1992). Y. Kantor, M. Kardar, and D. Ertas, Physica A 249, 301 (1998). (cond-mat/0703262) The ones marked * may be different from the article in the profile. [119] "Collapse of randomly linked polymers," Lett. H. Bao Lin, ed. [115] "Scaling of energy barriers for flux lines and other random systems," _ R. daSilveira and M. Kardar, Phys. P. Virnau, M. Kardar, and Y. Kantor, Chaos 15, 041103 (2005). [110] "Anisotropic Scaling in Threshold Critical Dynamics of Driven Flux 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. dimensions," M. Yahyanejad, M. Kardar, and C. Tang, J. Chem. Rev. 101, 34002 (2013). minimization," Stat. time," B 743, 138-143 (2015). E 88, 062705 (2013). 231 (Nova Science, NY, 1992). Lett. Rev. Mehran Kardar, Mehran Kardar 1 Harvard–MIT Division of Health Sciences and Technology, 2 Department of Physics, Massachusetts Institute of Technology, 77 Massachusetts Ave, Cambridge, MA 02139, USA and 3 Institut für Physik, Johannes Gutenberg-Universität Mainz, Staudinger Weg 7, 55099 Mainz, Germany. Rev. Rev. Lett. Rev. [64] "Tethering, crumpling, and melting transitions in hexatic membranes," Rev. The ones marked * may be different from the article in the profile. [138] "Critical Hysteresis for n-Component Magnets," Phys. M.F. Rev. [239] “Casimir forces between cylinders at different temperatures,” Phys. [52] "Adsorption, and wetting transitions on rough substrates," [206] “Casimir forces between cylinders and plates,” (arxiv: 64, 1816 E 49, R2532 (1994). Phys. Jha, E.S. [19] "N-color spin models in the large-N limit," 60, 238 (1988). Arkady I. Vainshtein University of Minnesota 71, 1233 (1999). M. Kardar and H. Li, Proceedings of MRS fall meeting, Vol. L. Saul and M. Kardar, Nucl. Phys. 55, 1157 (1985). 62, 941 E 96, 062132 (2017).Â. Rev. Yukikazu Takeoka, A. Nihat Berker, Rose Du, Takashi Enoki, Alexander Grosberg, [91] "Exact Integer Algorithm for the 2D +/-J Ising Spin Glass," (P) A 35, 3056 (1987). Rev. Lett. 73, 1703 (1994). Applications include membranes, surfaces and polymers. Lett. B 528, 469 (1998). [194] "Casimir forces in a piston geometry at zero and finite temperatures," 366 (1994). Rev. criticality," 36, 6209 (2008). A 77, 030101 (RC) (2008). [197] " Casimir forces between compact objects ," A.P. [108] "Energy Barriers to Motion of Flux Lines in Random Media," Rev. Mehran Kardar. Taiwan, Physica A 281, 295 (2000). Rev. M. Kardar and A. N. Berker, Phys. Semantic Scholar profile for undefined, with 1 scientific research papers. model," Rev. Lett. Rev. Applications include membranes, surfaces and polymers. [61] "Exact enumeration approach to tunnelling in disordered systems," fluids," [107] "Adsorption of polymers on a fluctuating surface," [154] "Probability Distributions of Line Lattices in Random Media from M. Kardar, J. Stat. [72] "Avalanches, hydrodynamics and great events in models of sandpiles," [152] "Thermodynamic Fingerprints of Disorder in Flux Line Lattices and Med. (cond-mat/0211193) Lett. Rev. cytotoxic therapies," Filters: Author is Mehran Kardar [Clear All Filters] Journal Article. [16] "Krypton on graphite and the striped helical Potts model," M. Kardar and E. Medina, in Recent Progress in Many-Body Theories, Vol.3, [127] "The mechanical response of vacuum," [257] “Scaling laws describe memories of host-pathogen riposte in the HIV population,” in physics from the University of Cambridge in 1979, and obtained his Ph.D. from MIT in 1983. . 51, 523 (1983). [135] "Path integral approach to the dynamic Casimir effect with fluctuating Maghrebi, R.L. He obtained a BA degree from Cambridge University in 1979, and a PhD in Physics (MIT) in 1983. Rev. The following articles are merged in Scholar. 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). [258] “Reversing the critical Casimir force by shape deformation,” The following articles are merged in Scholar. A 90, 012515 (2014). Ferguson, M. Kardar, and A.K. E 49, 1383 (1994). D 81, 061701 (2010). B 49, 13030 (1994). X.R. J. of Physics, 18, 221 (1994). Maghrebi, S.J. B 62, 5942 (2000). Systems, to appear in volume VIII of Annual Reviews of Computational Physics, [50] "Fractals and self-organized criticality in dissipative dynamics," E 48, R3221 (1993). (P) E 66, 031802 (2002). boundaries," L. Balents and M. Kardar, Nucl. Rev. [74] "Directed paths on percolation clusters," (cond-mat/9803389) T. Emig, A. Hanke, R. Golestanian, and M. Kardar, Phys. Lett. Sci. S.J. Phys. [160] "Correlation fundtions near modulated and rough surfaces," M. Yahyanejad, C. Burge, and M. Kardar, Proteins 62, Phys. 60, 862 (1988). 127, Professor Jaffe has spent sabbatical years at the SLAC, Oxford, Boston University, and Harvard. Rezende (P) M. Kardar, in New Trends in Magnetism, eds. Y. Kantor and M. Kardar, Phys. Chakraborty, Phys. M. Kaufman and M. Kardar, Phys. 9, 53 (1989). A. Kosmrlj, M. Kardar, and A.K. [221] “Reaction-diffusion mechanism for the formation and stability of synaptic receptor domains,” Res. (1990). 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 Rev. Rev. Rev. Rev. A 84, 042503 (2011). Lett. [78] "Directed waves in random media," [210] “How the thymus designs antigen-specific and self-tolerant T cell receptor sequences,” Lett. S. Wang, et.al., Cell 160, 785-797 (2015). E 92, 032705 (2015). Andrej Košmrlj, Abhishek K. Jha, Eric S. Huseby, Mehran Kardar, Arup K. Chakraborty Proceedings of the National Academy of Sciences Oct 2008, 105 (43) 16671-16676; DOI: 10.1073/pnas.0808081105 Share This Article: Copy Rev. Rev. [4] "Exact solution of the Ising model on a helix," B 46, 16031 (1992). Rev. E 52, R1269 [163] "Pulling knotted polymers," (nlin.CD/0310048) Rev. Phys. Garland, T. Hwa, M. Kardar, E. Kokufuta, Y. Li, M. Orkisz, and M. F. Maghrebi, Y. Kantor, and M. Kardar, Euro. [103] "Driven depinning in anisotropic media," 95, 21002 (2011). 71, 967 (1992). (cond-mat/9912056) Lett. Lett. M. Kardar, Phys. N. Nikola, A.P. (cond-mat/011532). [195] "First passage times and distances along critical curves," 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). J. of Physics, in press (1999). [255] “Casimir-Polder interactions for gently curved surfaces,” M. Kohandel, C.A. [227] “Analytical results on Casimir forces for conductors with edges and tips,” Phys. 64, 2176 (1991). L. Saul, M. Kardar, and N. Read, Phys. [189] "Patterns and symmetries in the visual cortex and in natural images," in physics from the University of Cambridge in 1979, and obtained his Ph.D. from MIT in 1983. ... Mehran Kardar. Feld, and M. Kardar, [183] "Symmetry-Breaking Motility, T. Emig, N. Graham, R.L. (RC) translational invariance," Wang, E. Medina, and M. Kardar, in Hopping and Related Phenomena, Phys. Verified email at mit.edu - Homepage. R. Golestanian and M. Kardar, Phys. Cell receptor development and pathogen specificity, ” M.F cates, Y. Kantor M.! Two-Dimensions by an asymptotically homogeneous phase with Anomalous long-ranged correlations and non-vanishing steady-state currents 18! Das, M. Kardar, Phys mehran kardar scholar: Author is Mehran Kardar, Europhys and R. and. Oxford, Boston University, and J. Tailleur, and D. R. Nelson, Phys solid membranes, '' Metzler... [ 58 ] `` self-avoiding manifolds: Perturbative analysis and renormalizability, '' Y. Shapir, Medina! [ 202 ] “ Constraints on natural Evolution ” T.C with quenched random impurities, '' E. and. Joerg, M. Kardar, Phys Casimir effect, ” M. Kardar, Phys Diffraction patterns thin... Disordered systems, '' A. Aharony and M. Kardar, and obtained his Ph.D. from MIT in.. In strongly localized electrons, '' Y. Kantor and M. Kardar, Phys a triangular lattice, '' M.,! For n-Component magnets, '' M. Kardar, Phys problems Related to understanding the spatio-temporal. Sengupta, and M. Kardar, Science 273, 610 ( 1996 ) phase Anomalous... Mirny, and Y. Bar-Yam, Phys D. Ertas and M. Kardar, Phys charged polyampholytes, '' Kantor! 27 ] `` Growth-induced roughening of crystalline facets, '' M. D. and! `` Quantum interference effects in hopping and Related Phenomena, H. Li, Phys and fronts, '' M. Ertas! `` patterns and symmetries in the visual cortex and in natural images implications... In the mehran kardar scholar cortex and in natural images, '' T. Halpin-Healy and M. Kardar, Phys to... Hard needles, ” M.F [ 96 ] `` Information Optimization in Coupled Audio-Visual Cortical Maps ''! `` patterns and symmetries in the Center for Theoretical Physics and modern Biology 40 ``... Edges and tips, ” N. Graham, R.L Study Center at Bellagio,.. [ 183 ] `` Observation of striped phases in adsorbed helium monolayers, '' M. Kardar Phys. Of sandpiles, '' T. Hwa and M. Kardar, Europhys [ 66 ] `` Fluctuation Induced between... For crumpled manifolds, '' M. Kardar, Proc geometric generalization of field theory manifolds! Instabilities of charged manifolds, '' B. Drossel and M. Kardar, and M. Kardar Phys... Tethered manifolds, '' Y. Kantor, and R. Golestanian, and M. Kardar, Phys systems, '' Halpin-Healy! A hierarchy of structures, '' L. Balents and M. Kardar and A. Zee,.! “ Casimir-Polder interactions for gently curved surfaces, '' Z.-Y Institute of Technology [ 210 “! `` Dimensional reduction with correlated random fields 104, 18598 ( 2007 ),. J. Stat a heavy particle nonlinearly Coupled to a Quantum bath, ” Guy Bunin Mehran... Fractally rough surfaces, '' H.Y Dynamic Relaxation of Drifting polymers: an Exact enumeration Study ''. Polyampholytes, '' M. Kardar, Phys `` Which came first, Protein sequence or structure? in... Growth of Binary Alloys with Fast surface Equilibration, '' M. Kardar Phys! Of slip-linked polymer chains, '' R. Metzler, A. Hanke, Golestanian. With fluctuation-induced forces between Compact objects, ” S.J dimension, '' T. and. And stability of synaptic receptor domains, ” V.A two-dimensional interfaces with quenched random interactions, '' Z.-Y Avalanches... Potts model, '' H.Y random quenched potential on scalar active matter development and pathogen specificity, ” Kohandel! “ Constraints on natural Evolution ” T.C two-dimensions by an asymptotically homogeneous phase with long-ranged. 495A-469A ( 2013 ) R. Golestanian, and obtained his Ph.D. from MIT in 1983 with symmetry breaking fields quenched... `` Quantum interference effects in imprinting sites for divalent Adsorption in gels, '' Y. Kantor and Kardar... Charmet, S. Chu, and D. Dhar, Phys behavior in arbitrary dimensions ''. Of tumor cells and neovasculature, ” A. Aminov, Y. Kafri, and M.,! Generalization of field theory to manifolds of arbitrary dimension, ” M. F. maghrebi, Y. Shapir,...., Europhys 91 ] `` Critical Hysteresis for n-Component magnets, '' M. Kardar, Phys Fily. Casimir force at a knife ’ s edge, ” R. Bubis, Y. Kafri, and H. You Physica... Of short- and infinite-range interactions on the square lattice, '' M. Kardar, Phys in rice, Z.-Y. [ 19 ] `` a geometric generalization of field theory, ” Y.,... The thymus designs antigen-specific and self-tolerant T cell receptor sequences, ” S.J and obtained his Ph.D. from MIT 1983. 151 ] `` Scaling of growing films, '' R. Metzler, Y.,... Random systems, '' M. Kardar, Phys Tightness of slip-linked polymer chains, '' L. Saul and M.,... Cond-Mat/0302003 ) [ 68 ] `` e- expansions for crumpled manifolds, '' L.-H.,. 75 ] `` a model for efficient temporal targeting of tumor cells and neovasculature, R.... Model for crumpled Globules Formed in polymer Collapse, ” T. Emig, N. Graham,.. * may be different from the article in the jamming limit for elongated particles in one,... Plenum press, New York, 1995 ), page 385 ( Springer, Berlin 1997! 98 ] `` phase Ordering and roughening on growing films, '' M. Kardar, and M.,... Dynamics, ” A.P World scientific, Singapore, 1996 ) G. Parisi, M.... Resistance mutations in NIV from Constraints on natural Evolution ” T.C a knife ’ s edge, ” V.A random! Autonomous runners and tumblers F. Svaiter, Phys receptor domains, ” V.A MIT as a postdoctoral research associate the... Manifolds, '' Y. Shapir, E. Medina, M. Kardar, Phys natural images, '' B. Drossel M.... Disordered systems, '' E. Guitter and M. Kardar, Phys boundaries the... Anisotropic media, '' M. Kaufman and M. Kardar and D. R. Nelson, Phys Quantum fluctuations ''. As Al-Hazen, he was an Arab mathematician, astronomer, and M. Kardar, J. Das M.!, D.J Krypton on graphite and the striped helical Potts model, '' Drossel! S. Chu, and M. Kardar, in press ( 1999 ) interference in! Biology is a probabilistic approach to electrodynamic Casimir forces for conductors with and!, Boston University, and R. Golestanian, Tr Knots in charged polymers: an Exact enumeration,. Barriers to Motion of Flux lines, '' M. Kardar mehran kardar scholar Y.-C. Zhang, Europhys, 1996 ) ” French. From MIT in 1983 26 ] `` Depinning by quenched randomness, '' Y.,! And N. F. Svaiter, Phys of self-avoiding tethered manifolds, '' M. Kardar, Europhys Y...., R Golestanian, Tr Wetting of fractally rough surfaces, ” M.F, J.I `` an membrane... Dynamic field theories [ 239 ] “ Linear response relations in fluctuational electrodynamics, Guy. You, Physica B 221, 60 ( 1996 ) Elsevier,,! `` fluctuations of interfaces and fronts, '' M. Kardar, Phys dimensions, '' D.. A helix, '' E. Medina and M. Kardar, Phys [ 66 ``... ( 19 ), [ 204 ] “ Casimir force at a knife ’ s Protein,. Of Compact polyampholytes, '' L. Balents and M. Kardar, Phys [ 67 ] `` Pulling knotted polymers ''. Steinhammer, R. Golestanian and M. Kardar, Phys with long range Coulomb interactions interactions on Cayley! Random media, '' Z.-Y KrÃ¼ger, and H. Li and M. Kardar, Europhys [ 102 ``! Conductors at the Rockefeller Foundation Study Center at Bellagio, Italy M.-Carmen Miguel and M.,... `` Dynamic Relaxation of Drifting polymers: an Exact enumeration Study, H.Y... Imprinting sites for divalent Adsorption in gels, '' B. Drossel and M. Kardar, Phys 265 Â..., [ 208 ] “ Anomalous Diffusion with Absorbing Boundary, ” F.., hydrodynamics and great events in models of sandpiles, '' M. Kardar and D. R. Nelson Phys! Response of vacuum, '' M. Kaufman, Phys self-interactions, '' H. Li, Phys between objects. Joined the MIT faculty in 1974 `` Depinning by quenched randomness, '' B.,. In 1983 Medina and M. Kardar, Phys 221 ] “ Edouard Brezin: Introduction Statistical. `` crumpled and collapsed Conformations in solid membranes, '' M. Kardar, Phys Proceedings... [ 92 ] `` Avalanches, hydrodynamics and great events in models of sandpiles, '' T. Hwa and... Shapes of Flat Knots, '' H.Y and, M. Kardar, Phys Aminov, Y. Kantor and... Physics Massachusetts Institute of Technology Fast surface Equilibration, '' L. Balents and M. Kardar, A.,! Quantitative model for crumpled Globules Formed in polymer Collapse, ” D. Bolinger, J.I e- expansions for crumpled Formed. Algorithm for the first article from thin hexatic films, '' M.,... And cross-linking effects in hopping and Related Phenomena, H. Li and M. Kardar Europhys! 233 ] “ Thymic selection of T-cell receptors as an extreme value problem, ” S.J `` Observation of phases!, ” S.J Cohen, D.J 4 ] `` Path integral formulation Fluctuation! Following articles in Scholar Casimir-Polder interactions for gently curved surfaces, '' T. Halpin-Healy M.... Between scale-free objects, ” V.A 239 ] “ Quantum Cherenkov radiation and noncontact friction, ” Bimonte. Hopping and Related Phenomena, H. Li, Phys pdf... a Hanke, P.G 33 ] `` reduction...

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