PUBLICATIONS OF C.M. NEWMAN

[1] "The inner product of path space measures corresponding to random processes with independent increments", Bull. Amer. Math. Soc. 78 (1972), 268-271.

[2] "Ultralocal quantum field theory in terms of currents. I. The free theory", Commun. Math. Phys. 26 (1972), 169-204.

[3] "On the orthogonality of independent increment processes", Topics in Probability Theory (D.W. Stroock and S.R.S. Varadhan, Eds.), Courant Institute of Mathematical Sciences, New York, 1973, 93-112.

[4] "The construction of stationary two-dimensional Markoff  fields with an application to quantum field theory", J. Func. Anal.14 (1973), 44-61.

[5] "Nondiscrete spins and the Lee-Yang Theorem", Constructive Quantum Field Theory (G. Velo and A.S. Wightman, Eds.), Springer-Verlag, Berlin-Heidelberg-New York, 1973, 321-325.

[6] "Zeros of the partition function for generalized Ising systems", Commun. Pure Appl. Math 27 (1974), 143-159.

[7] "Infinite volume asymptotics in P(f )2 field theory", A. Lenard and C.M. Newman , Commun. Math. Phys 39 (1974), 243-250.

[8]. "Inequalities for Ising models and field theories which obey the Lee-Yang theorem", Commun. Math. Phys. 41 (1975), 1-9.

[9] "An extension of Khintchine's inequality", Bull. Amer. Math. Soc. 81 (1975), 913-915.

[10] "Moment inequalities for ferromagnetic Gibbs distributions", J. Math. Phys. 16 (1975), 1956-1959.

[11]. "Norms of random matrices", G. Bennett, V. Goodman, and C.M. Newman, Pacific J. Math. 59 (1975), 359-365.

[12] "Multicomponent field theories and classical rotators", F. Dunlop and C.M. Newman , Commun. Math. Phys. 44 (1975), 223-235.

[13] "Gaussian correlation inequalities for ferromagnets", Z. fur Wahrscheinlichkeitstheorie 33 (1975), 75-93.

[14] "The GHS and other correlation inequalities for a class of even ferromagnets", R.S. Ellis, J.L. Monroe, and C.M. Newman, Commun. Math. Phys. 46 (1976), 167-182.

[15] "Classifying general Ising models", Les Methodes Mathematiques de la Theorie Quantique des Champs, C.N.R.S., Paris, 1976, 273-288.

[16] "Necessary and sufficient conditions for the GHS inequality with applications to analysis and probability", R.S. Ellis and C.M. Newman, Trans. Amer. Math. Soc. 237 (1978), 83-99,

[17] "Fourier transforms with only real zeros", Proc. Amer. Math. Soc. 61 (1976), 245-251.

[18] "Rigorous results for general Ising ferromagnets", J. Stat. Phys. 15 (1976), 399-406.

[19] "On uncomplemented subspaces of Lp,1 < p < 2", G. Bennett, L.E. Dor, V. Goodman, W.B. Johnson and C.M. Newman, Israel J. Math., 26 (1977), 178-187.

[20] "Quantum mechanical soft springs and reverse correlation inequalities", R.S. Ellis and C. M. Newman, J. Math. Phys. 17 (1976), 1682-1683.

[21] "Metastability and the analytic continuation of eigenvalues", C.M. Newman and L.S. Schulman, J. Math. Phys.18 (1977), 23-30.

[22] "Extensions of the maximum principle: exponential preservation by the heat equation", R.S. Ellis and C.M. Newman, J. Diff. Eqns., 30 (1978), 365-379

[23] "Limit theorem for sums of dependent random variables occurring in statistical mechanics", R.S. Ellis and C.M. Newman, Z. fur Wahrscheinlichkeitstheorie, 44 (1978), 117-139.

[24] "Optimal sampling of independent increment processes", C.M. Newman and B. Stuck, Stochastics 2 (1979), 213-225.

[25] "Fluctuationes in Curie-Weiss Exemplis", R.S. Ellis and C.M. Newman, Mathematical Problems in Theoretical Physics (G. Dell'Antonio, S. Doplicher and G. Jona-Lasinio, Eds.), Springer-Verlag, Berlin-Heidelberg-New York, 1978, 313-324.

[26] "Chernoff bounds for discriminating between two Markov processes", C.M. Newman and B. Stuck, Stochastics 2 (1979), 139-153.

[27] "The statistics of Curie-Weiss models", C.M. Newman and R.S. Ellis, J. Stat. Phys. 19 (1978), 149-161.

[28] "Limit theorems for sums of dependent random variables occurring in statistical mechanics, II: conditioning, multiple phases, and metastability", R.S. Ellis, C.M. Newman, and J.S. Rosen, Z. fur Wahrscheinlichkeitstheorie 51 (1980), 153-169.

[29] "Critical point inequalities and scaling limits", Commun. Math. Phys. 66 (1979), 181-196.

[30] "Normal fluctuations and the FKG inequalities", Commun. Math. Phys. 74 (1980), 119-128.

[31] "Complex free energies and metastable lifetimes", C.M. Newman and L.S. Schulman, J. Stat. Phys. 23 (1980), 131-148.

[32] "Short distance scaling and the maximal degree of a field theory", Phys. Lett. 83B (1979), 63-66.

[33] "An invariance principle for certain dependent sequences", C.M. Newman and A.L. Wright, Ann. Prob. 9 (1981), 671-675.

[34] "Infinite clusters in percolation models", C.M. Newman and L.S. Schulman, J. Stat. Phys. 26 (1981), 613-628.

[35] "Number and density of percolating clusters", C.M. Newman and L.S. Schulman, J. Phys. A14 (1981), 1735-1743.

[36] "Associated random variables and martingale inequalities", C.M. Newman and A.L. Wright, Z. fur Wahrscheinlichkeitstheorie 59 (1982), 361-371.

[37] "Critical point dominance in one dimension", Commun. Math. Phys. 79 (1981), 133-140.

[38] "Self-similar random fields in mathematical physics", Measure Theory and its Applications, Proceedingsof the 1980 Conference (G.A. Goldin and R.F. Wheeler, Eds.), Northern Illinois University, DeKalb, 1981, 93-119.

[39] "The GHS inequality for large external field", R.S. Ellis, C.M. Newman, and M.R. O'Connell, J. Stat. Phys. 26 (1981), 37-51.

[40] "Asymptotic symmetry: Enhancement and stability", C.M. Newman and L.S. Schulman, Phys. Rev. B26 (1982), 3910-3914.

[41] "Fokker-Planck equations", C.M. Newman, and R.N. Bhattacharya, Encylclopedia of Statistical Sciences Vol. 3 (S. Kotz, N.L. Johnson and C.B. Read, Eds.), Wiley, New York, 1983, 159-160.

[42] "Nearest neighbors and Voronoi regions in certain point processes", C.M. Newman, Y. Rinott and A. Tversky, Adv. Appl Prob. 15 (1983), 726-751.

[43] "A general central limit theorem for FKG systems", Commun. Math. Phys. 91 (1983), 75-80.

[44] "A perturbation expansion for diffusion in a random velocity field", L. Winter, C.M. Newman and S. Neuman , SIAM J. Appl. Math. 44 (1984), 411-424.

[45] "Asymptotic independence and limit theorems for positively and negatively dependent random variables", Inequalities in Statistics and Probability (Y.L. Tong, Ed.), I.M.S. Lecture Notes-Monograph Series Vol. 5, 1984, 127-140.

[46] "The stability of large random matrices and their products", J.E. Cohen and C.M. Newman, Ann. Prob. 12 (1984), 283-310.

[47] "Nearest neighbor analysis of point processes: applications to multidimensional scaling", A. Tversky, Y. Rinott and C.M. Newman, J. Math. Psych. 27 (1983), 235-250.

[48] "Approaching consensus can be delicate when positions harden", J.E. Cohen, J. Hajnal, and C.M. Newman, Stoch. Processes and Appl. 22 (1986), 315-322.

[49] "When will a large complex system be stable?", J.E. Cohen and C.M. Newman, J. Theor. Biology 113 (1985), 153-156.

[50] "Stochastic theory of field-scale Fickian dispersion in anisotropic porous media", S. Neuman, L. Winter and C.M. Newman, Water Resources Research 23 (1987), 453-466.

[51] "The metastable behavior of infrequently observed, weakly random, one-dimensional diffusion processes", C. Kipnis and C.M. Newman, SIAM J. Appl. Math. 45 (1985), 972-982.

[52] "Tree graph inequalities and critical behavior in percolation models", M. Aizenman and C.M. Newman, J. Stat. Phys.36 (1984), 107-143.

[53] "Nearest neighbors and Voronoi volumes in high dimensional point processes with various distance functions", C.M. Newman and Y. Rinott, Adv. Appl Prob. 17 (1985), 794-809.

[54] "A stochastic theory of community food webs: I. Models and aggregated data", J. E. Cohen and C.M. Newman, Proc. Royal Soc. London B224 (1985), 421-448.

[55] "A stochastic theory of community food webs: II. Individual webs", J.E. Cohen, C.M. Newman and F. Briand, Proc. Royal. Soc. London B224 (1985), 449-461.

[56] "The distribution of Lyapunov exponents: exact results for random matrices", Commun. Math. Phys. 103 (1986), 121-126.

[57] "One dimensional 1/|j – i |s percolation models: the existence of a transition for s 2", C.M. Newman and L.S. Schulman, Commun. Math. Phys. 104 (1986), 541-571.

[58] "Discontinuity of the percolation density in one-dimensional 1/|x -y| 2 percolation models", M. Aizenman and C.M. Newman, Commun. Math. Phys. 107 (1986), 611-647.

[59] "The stochastic geometry of invasion percolation", J. Chayes, L. Chayes, and C.M. Newman, Commun. Math. Phys. 101 (1985), 383-407.

[60] "Neo-darwinian evolution implies punctuated equilibria", C.M. Newman, J.E. Cohen and C. Kipnis, Nature 315 (1985), 400-401.

[61]  Random Matrices and Their Applications  (J.E. Cohen, H. Kesten, and C.M. Newman, Eds.), AMS series in Contemporary Mathematics Vol. 50, 1986.

[62] "A stochastic theory of community food webs: III. Theory and data for food chain lengths in moderate webs", J.E. Cohen, F. Briand and C.M. Newman, Proc. Royal Soc. London B228 (1986), 317-353.

[63] "A stochastic theory of community food webs: IV. Theory of food chain lengths in large webs", C.M. Newman and J.E. Cohen, Proc. Royal Soc. London B228 (1986), 355-377.

[64] "Infinite chains and clusters in one dimensional directed and undirected percolation", C.M. Newman and L.S. Schulman, Particle Systems, Random Media and Large Deviations, (R. Durrett, Ed.), AMS Series in Contemporary Mathematics Vol. 41, 1985, 297-313.

[65] "Lyapunov exponents for some products of random matrices: exact expressions and asymptotic distributions", Random Matrices and Their Applications (J.E. Cohen, H. Kesten and C.M. Newman, Eds.), AMS Series in Contemporary Mathematics Vol. 50, 1986, 121-141.

[66] "The trapping transition in dynamic (invasion) and static percolation", M. Pokorny, C.M. Newman and D. Meiron, J. Phys. A 23 (1990), 1431-1438.

[67] "Bernoulli percolation above threshold: an invasion percolation analysis", J. Chayes, L. Chayes, and C. M. Newman, Ann. Prob. 15 (1987), 1272-1287.

[68] "Discontinuity of the magnetization in one-dimensional 1/|x -y| 2 Ising and Potts models", M. Aizenman, J. Chayes, L. Chayes, and C.M. Newman, J. Stat. Phys. 50 (1988), 1-40.

[69] "Host-parasite relations and random zero-sum games: the stabilizing effect of strategy diversification", J.E. Cohen and C.M. Newman, Amer. Naturalist 133 (1989), 533-552.

[70] "Uniqueness of the infinite cluster and continuity of connectivity functions for short and long range percolation", M. Aizenman, H. Kesten, and C.M. Newman, Commun. Math. Phys. 111 (1987), 505-531.

[71] "An intermediate phase with slow decay of correlations in one dimensional 1/|x- y| 2 percolation, Ising and Potts models", J. Imbrie and C.M. Newman, Commun. Math. Phys. 118 (1988), 303-336.

[72] "Inequalities for g and related critical exponents in short and long range percolation", Percolation Theory and Ergodic Theory of Infinite Particle Systems (H. Kesten, Ed.), IMA Volumes in Mathematics and its Applications Vol. 8, Springer-Verlag, Berlin-Heidelberg-New York, (1987), 229-244.

[73] "Decomposition of binary random fields and zeros of partition functions", Ann. Prob. 15 (1987), 1126-1130.

[74] "Some critical exponent inequalities for percolation, J. Stat. Phys. 45 (1986), 359-368.

[75] "Uniqueness of the infinite cluster and related results in percolation", M. Aizenman, H. Kesten, and C. M. Newman, Percolation Theory and Ergodic Theory of Infinite Particle Systems (H. Kesten, Ed.), IMA Volumes in Mathematics and its Applications Vol. 8, Springer-Verlag, Berlin-Heidelberg-New York, 1987, 13-20

[76] "Percolation theory: a selective survey of rigorous results", Advances in Multiphase Flow and Related Problems (G. Papanicolaou, Ed.), SIAM, Philadelphia, 1986, 147-167

[77] "Another critical exponent inequality for percolation: β ≥ 2/ δ ", J. Stat. Phys. 47 (1987), 695-699.

[78] "The phase boundary in dilute and random Ising and Potts ferromagnets", M. Aizenman, J.T. Chayes, L. Chayes and C.M. Newman, J. Phys. A. Lett. 20 (1987), L313-L318.

[79] "The GHS inequality and the Riemann hypothesis", Constructive Approx. 7 (1991), 389-399.

[80] "Decomposition of Ising models and the Mayer expansion", C.M. Newman and G.A. Baker, Jr., Ideas and Methods in Quantum and Statistical Physics (S. Albeverio, J.E. Fensted, H. Holden and T. Lindstrom, Eds.), Cambridge Univ. Press, Cambridge, 1992, 494-511.

[81] Community Food Webs: Data and Theory, J.E. Cohen, F. Briand and C.M. Newman, Biomathematics Vol. 20, Springer-Verlag, Berlin-Heidelberg-New York, 1990.

[82] "Memory capacity in neural network models: rigorous lower bounds", Neural Networks 1 (1988), 223-238.

[83] "Dynamic renormalization and continuity of the percolation transition in orthants", D.J. Barsky, G.R. Grimmett, and C.M. Newman, Spatial Stochastic Processes (K.S. Alexander and J.C. Watkins, Eds.), Birkhäuser, Boston-Basel-Berlin, 1991, 37-55

[84] "Wetting in a three dimensional system: an exact solution", D.B. Abraham and C.M. Newman, Phys. Rev. Lett. 61 (1988), 1969-1972.

[85] "Percolation in +1 dimensions", G.R. Grimmett and C.M. Newman, Disorder in Physical Systems (G.R. Grimmett and D.J.A. Welsh, Eds.), Clarendon Press, Oxford, 1990, 167-190.

[86] "Dynamic basis of food web organization", J.E. Cohen and C.M. Newman, Ecology 69 (1988), 1655-1664.

[87] "Percolation in half spaces: equality of critical densities and continuity of the percolation probability", D.J. Barsky, G.R. Grimmett, and C.M. Newman, Probab. Theory and Related Fields 90 (1991), 111-148.

[88] "The 1/r2 phase transition: a review", Proceedings of the IXth International Congress on Mathematical Physics (B. Simon, A. Truman and I.M. Davies, Eds.), Adam Hilger, Bristol, 1989, 377-379.

[89] "Ising Models and Dependent Percolation", Topics in Statistical Dependence (H.W. Block, A.R. Sampson and T.H. Savits, Eds.), IMS Lecture Notes-Monograph Series, Vol. 16, 1991, 395-401.

[90] "Surfaces and Peierls contours: 3-d wetting and 2-d Ising percolation", D.B. Abraham and C.M. Newman, Commun. Math. Phys. 125 (1989), 181-200.

[91] "Broken symmetry and domain structure in Ising-like systems", C.M. Newman and D.L. Stein, Phys. Rev. Lett. 65 (1990), 460-463.

[92] "Topics in percolation", Mathematics of Random Media (W. Kohler and B. White, Eds.), Lectures in Applied Mathematics, Vol. 27, Amer. Math. Soc., Providence, 1991, 41-51.

[93] "Uniqueness of the infinite component in a random graph with applications to percolation and spin glasses", A. Gandolfi, M. Keane, and C.M. Newman, Probab. Theory and Related Fields 92 (1992), 511-527.

[94] "Markov fields on branching planes", C.M. Newman and C.C. Wu, Probab. Theory and Related Fields 85 (1990), 539-552.

[95] "Stochastic structure and nonlinear dynamics of food webs: qualitative stability in a Lotka-Volterra cascade model", J.E. Cohen, T. Luczak, C.M. Newman and Z.-M. Zhou, Proc. Royal Soc. London B240 (1990), 607-627.

[96] "The magnetization-energy scaling limit in high dimension", J. De Coninck  and C.M. Newman, J. Stat. Phys. 59 (1990), 1451-1467.

[97] "Remarks on a random surface", D.B. Abraham and C.M. Newman, Stochastic Orders and Decision under Risk (K. Mosler and M.S. Scarsini, Eds.), IMS Lecture Notes-Monograph Series, Vol. 19, 1991, 1-6

[98] "Convergence of the sum of reciprocal renewal times", Stat. Prob. Lett. 10 (1990), 185-187.

[99] "Recent exact results on wetting", D.B. Abraham and C.M. Newman, in Wetting Phenomena (J. De Coninck  and F. Dunlop, Eds.), Lecture Notes in Physics Vol. 354, Springer-Verlag, Berlin-Heidelberg-New York, 1990, 13-21.

[100] "The triangle law for Lyapunov exponents of large random matrices", M. Isopi and C.M. Newman, Commun. Math. Phys. 143 (1992), 591-598.

[101] "Community area and food chain length: theoretical predictions", J.E. Cohen and C.M. Newman, Amer. Naturalist 138 (1991), 1542-1554.

[102] "Chain lengths in certain random directed graphs", Random Structures and Algorithms 3 (1992), 243-253.

[103] "Multiple states and thermodynamic limits in short-ranged Ising  spin glass models", C.M. Newman and D.L. Stein, Phys. Rev. B46 (1992), 973-982.

[104] "The wetting transition in a random surface model", D.B. Abraham and C.M. Newman, J. Stat. Phys. 63 (1991), 1097-1111.

[105] "Broken symmetry and domain structure", C.M. Newman and D.L. Stein, Mod. Physics Lett. B 5 (1991), 621-623.

[106] "Exotic states in long range spin glasses", A. Gandolfi, C.M. Newman, and D.L. Stein, Commun. Math. Phys. 157 (1993), 371-387.

[107] "Percolation methods for disordered quantum Ising models", M. Aizenman, A. Klein and C.M. Newman, Phase Transitions: Mathematics, Physics, Biology,… (R. Kotecky, Ed.), World Scientific, Singapore, 1993, 1-26.

[108] "First-passage percolation for random colorings of Zd", L. Fontes and C.M. Newman, Ann. Applied Prob. 3 (1993), 746-762. [correction: 4 (1994), 254.]

[109] "Speed of parallel processing for random task graphs", M. Isopi and C.M. Newman, Commun. Pure Appl. Math. 47 (1994), 361-376.

[110] "Chaotic size dependence in spin glasses", C.M. Newman and D.L. Stein , Cellular Automata and Cooperative Systems (N. Boccara, E. Goles, S. Martinez and P. Picco, Eds.), Kluwer, Dordrecht, 1993, 525-529.

[111] "The distribution of Lyapunov exponents for large random matrices", M. Isopi and C.M. Newman, Cellular Automata and Cooperative Systems (N. Boccara, E. Goles, S. Martinez and P. Picco, Eds.), Kluwer, Dordrecht, 1993, 289-298.

[112] "Divergence of shape fluctuations in two dimensions", C.M. Newman and M.S.T. Piza, Annals of Probability 23 (1995), 977-1005. ["correction'': 23(1995), 2057.]

[113] "Disordered Ising systems and random cluster representations", Probability and Phase Transition (G. Grimmett, Ed.), Kluwer, Dordrecht, 1994, 247-260.

[114] "Spin-glass model with dimension-dependent ground state multiplicity", C.M. Newman and D.L. Stein, Phys. Rev. Lett. 72 (1994), 2286-2289.

[115] "Random walk in a strongly inhomogeneous environment and invasion percolation", C.M. Newman and D.L. Stein, Ann. Inst. H. Poincare 31 (1995), 249-261.

[116] "A surface view of first-passage percolation", Proceedings of the International Congress of Mathematicians 1994 Vol. II (S.D. Chatterji, Ed.), Birkhäuser, Basel-Boston-Berlin, 1995, 1017-1023.

[117] "Broken ergodicity and the geometry of rugged landscapes", D.L. Stein and C.M. Newman, Phys. Rev. E 51 (1995), 5228-5238.

[118] "Surface deconstruction and roughening in the multi-ziggurat model of wetting", D.B. Abraham, L. Fontes, C.M. Newman and M.S.T. Piza, Phys. Rev. E 52 (1995), R1257-R1260.

[119] "Persistent survival of one-dimensional contact processes in random environments", C.M. Newman and S.B. Volchan , Ann. Prob. 24 (1996), 411-421.

[120] "Geodesics in two-dimensional first-passage percolation", C. Licea and C.M. Newman, Ann. Prob. 24 (1996), 399-410.

[121] "Ground state structure in a highly disordered spin glass model", C.M. Newman and D.L. Stein , J. Stat. Phys. 82 (1996), 1113-1132.

[122] "Non-mean-field behavior of realistic spin glasses", C.M. Newman and D.L. Stein, Phys. Rev. Lett. 76 (1996), 515-518.

[123] "Superdiffusivity in first-passage percolation", C. Licea, C.M. Newman and M.S.T. Piza, Probab. Theory and Related Fields 106 (1996), 559-591.

[124] "Spatial inhomogeneity and thermodynamic chaos", C.M. Newman and D.L. Stein, Phys. Rev. Lett. 76 (1996), 4821-4824.

[125] "Percolation and contact processes with low-dimensional inhomogeneity", C.M. Newman and C.C. Wu, Ann. Prob. 25 (1997), 1832-1845.

[126] "Surface pressure in SOS models", J. De Coninck, S. Limbourg and C.M. Newman, Thin Solid Films 244 (1994), 819-823.

[127] "Euclidean models of first-passage percolation", C.D. Howard and C.M. Newman , Probab. Theory and Related Fields 108 (1997), 153-170.

[128] Topics in Disordered Systems, Birkhäuser, Basel-Boston-Berlin, 1997.

[129] "Thermodynamic chaos and the structure of short-range spin glasses", C.M. Newman and D.L. Stein, Mathematical Aspects of Spin Glasses and Neural Networks (A. Bovier and P. Picco, Eds.), Birkhäuser, Boston-Basel-Berlin, 1998, 243-287.

[130] "Metastate approach to thermodynamic chaos", C.M. Newman and D.L. Stein, Phys. Rev. E 55 (1997), 5194-5211.

[131] "Spectral mimicry: a method of synthesizing matching time series with different Fourier spectra", J.E. Cohen, C.M. Newman, A.E. Cohen, O.L. Petchey and A. Gonzalez, Circuits, Systems and Signal Processing 18 (1999), 425-437.

[132] "Geodesics and spanning trees for Euclidean first-passage percolation", C. D. Howard and C.M. Newman, Ann. Prob. 29 (2001), 577-623.

[133] "Scaling limits for minimal and random spanning trees in two dimensions", M. Aizenman, A. Burchard, C.M. Newman, and D.B. Wilson, Random Structures and Algorithms 15 (1999), 319-367.

[134] "Chaotic time dependence in a disordered spin system", M. Isopi, L.R. Fontes, and C.M. Newman, Probab. Theory and Related Fields 115 (1999), 417-443.

[135] "Short-range spin glasses: a status report", C.M. Newman and D.L. Stein , XIIth Inter. Cong. Math. Physics ICMP '97 (D. De Wit, A.J. Bracken, M.D. Gould and P.A. Pearce, Eds.), International Press, Boston, 1999, 167-172.

[136] "Blocking and persistence in the zero-temperature dynamics of homogeneous and disordered Ising  models", C.M. Newman and D.L. Stein, Phys. Rev. Lett. 82 (1999), 3944-3947.

[137] "Simplicity of state and overlap structure in finite-volume realistic spin glasses", C.M. Newman and D.L. Stein, Phys. Rev. E 57 (1998), 1356-1366.

[138] "Random nearest neighbor and influence graphs on Zd", S. Nanda and C.M. Newman, Random Structures and Algorithms 15 (1999), 262-278.

[139] "Metastable states in spin glasses and disordered ferromagnets", C.M. Newman and D.L. Stein, Phys. Rev. E 60 (1999), 5244-5260.

[140] "Equilibrium pure states and nonequilibrium chaos", C.M. Newman and D.L. Stein, J. Stat. Phys. 94 (1999), 709-722.

[141] "From greedy lattice animals to Euclidean first-passage percolation", C.D. Howard and C.M. Newman, Perplexing Problems in Probability (M. Bramson and R. Durrett, Eds.), Birkhäuser, Boston, 1999, 107-119.

[142] "Dynamics of Ising spin systems at zero temperature", S. Nanda, C.M. Newman, and D.L. Stein, On Dobrushin's Way. From Probability Theory to Statistical Physics (R. Minlos, S. Shlosman and Y. Suhov, Eds.), Amer. Math. Soc. Transl. (2) 198 (2000), 183-194.

[143] "Zero-temperature dynamics of ±J spin glasses and related models", A. Gandolfi, C.M. Newman, and D.L. Stein, Commun. Math. Phys. 214 (2000), 373-387.

[144] "Zero-temperature dynamics of Ising spin systems following a deep quench: results and open problems", C.M. Newman and D.L. Stein, Physica A 279 (2000), 159-168.

[145] "Nature of ground state incongruence in two-dimensional spin glasses", C.M. Newman and D.L. Stein, Phys. Rev. Lett. 84 (2000), 3966-3969.

[146] "Random walks with strongly inhomogeneous rates and singular diffusion: convergence, localization and aging in one dimension", L.R. Fontes, M. Isopi, and C.M. Newman, Ann. Prob., 30 (2002), 579-604.

[147] "Are there incongruent ground states in 2D Edwards-Anderson spin glasses?", C.M. Newman and D.L. Stein, Commun. Math Phys., 224 (2001), 205-218.

[148] "Realistic spin glases below eight dimensions: a highly disordered view", C.M. Newman and D.L. Stein, Phys. Rev. E 63 (2001), 016101 [9pp.].

[149] "Interfaces and the question of regional congruence in spin glasses", C.M. Newman and D.L. Stein, Phys. Rev. Lett. 87 (2001), 077201 [4pp.]

[150]  "The Brownian web", L.R. Fontes, M. Isopi, C.M. Newman and K. Ravishankar, Proc. Nat. Acad. Sciences 99 (2002), 15894-15897.

[151]  "The percolation transition for the zero-temperature stochastic Ising model on the hexagonal lattice",  C.D. Howard and C.M. Newman, J. Stat. Phys. 111 (2003), 57-62.

[152]   “Aging in 1D discrete spin models and equivalent systems”, L.R. Fontes, M. Isopi, C.M. Newman and D.L. Stein, Phys. Rev. Lett. 87 (2001), 110201[4pp.].

[153]  "The state(s) of replica symmetry breaking: mean-field theories vs. short-range spin glasses", C.M. Newman and D.L. Stein, J. Stat. Phys. 106 (2002), 213-244.

[154]  "Clusters and recurrence in the two-dimensional zero-temperature stochastic Ising  model", F. Camia, E. De Santis and C.M. Newman, Ann. Appl. Prob. 12 (2002), 565-580.

[155]  "Approach to fixation for zero-temperature stochastic Ising models on the hexagonal lattice" F. Camia, C.M. Newman and V. Sidoravicius, In and Out of Equilibrium: Probability with a Physics Flavor (V. Sidoravicius, Ed.), Birkhäuser, Boston, 2002, 163-183. 

[156]  "Convergence in energy-lowering (disordered) stochastic spin systems", E. De Santis and C. M. Newman, J. Stat. Phys. 110 (2003), 431-442.

[157]  "Ordering and broken symmetry in short-ranged spin glasses", C.M. Newman and D.L. Stein, J. Phys.: Condens. Matter 15 (2003) R1319-R1364.

[158]  "Cardy's formula for some dependent percolation models", F. Camia, C.M. Newman and V. Sidoravicius, Bull. Brazilian Math. Soc.  33 (2002), 147-156.

[159]   "Nonrealistic behavior of mean field spin glasses", C.M. Newman and D.L. Stein, Phys. Rev. Lett. 91 (2003), 197205 [4pp.].

[160]  "A particular bit of universality: scaling limits of some dependent percolation models", F. Camia, C.M. Newman and V. Sidoravicius,  Commun. Math Phys., to appear (math.PR/0308112).

[161]  "The Brownian web: Characterization and convergence", L.R. Fontes, M. Isopi, C.M. Newman and K. Ravishankar, Ann. Prob., to appear (math.PR/0304119).

[162]  "Brownian motion and the classical groups", A. D'Aristotile, P. Diaconis and C.M. Newman, Probability, Statistics and Their Applications:  Papers in Honor of Rabi Bhattacharya (K. Athreya, M. Majumdar, M. Puri and E. Waymire, Eds.), IMS Lecture Notes-Monograph Series Vol. 41, 2003, 97-116.

[163]  The percolation transition in the zero-temperature Domany  model”, F. Camia and C.M. Newman, J. Stat. Phys.,  to appear (math.PR/0308124).

[164]  Coarsening, nucleation, and the marked Brownian web”, L.R. Fontes, M. Isopi, C.M. Newman and K. Ravishankar, in preparation.

[165]  Finite-dimensional spin glasses: states, excitations, and interfaces”, C.M. Newman and D.L. Stein, Proceedings of TH-2002 (International Conference on Theoretical Physics, Paris 2002), to appear.

 [166]  Continuum nonsimple loops and 2D critical percolation”, F. Camia and C.M. Newman, J. Stat. Phys., to appear (math.PR/0308122).