Publications up to 2004
[1] S. Redner and L. de Arcangelis, "Asymptotic properties of spiral self-avoiding walks", J. Phys. A 17, L203 (1984).
[2] L. de Arcangelis, S. Redner and A. Coniglio, "Anomalous voltage distribution of random resistor networks and a new model for the backbone at the percolation threshold", Phys. Rev. B 31, 4725 (1985).
[3] L. de Arcangelis, S. Redner and H.J. Herrmann, "A random fuse model for breaking processes", J. de Physique 46, L585 (1985). [4] L. de Arcangelis, A. Coniglio and S. Redner, "A connection between linear and non-linear resistor networks", J. Phys. A 18, L805 (1985).
[5] L. de Arcangelis, J. Koplik, S. Redner and D. Wilkinson, "Hydrodynamic dispersion in network models of porous media", Phys. Rev. Lett. 57, 996 (1986).
[6] L. de Arcangelis, S. Redner and A. Coniglio, "Multiscaling approach in random resistor and random superconducting networks", Phys. Rev. B 34, 4656 (1986).
[7] L. de Arcangelis and N. Jan, "Dynamic Monte Carlo renormalization group for the q = 3, 4 Potts model", J. Phys. A 19, L1179 (1986).
[8] L. de Arcangelis, A. Coniglio and S. Redner, "Multifractal structure of the incipient infinite percolating cluster", Phys. Rev. B 36, 5631 (1987).
[9] L. de Arcangelis and A. Coniglio, "Infinite hierarchy of exponents in a two-component random resistor network", J. Stat. Phys. 48, 935 (1987).
[10] L. de Arcangelis, "Multiplicity of infinite clusters in percolation above six dimensions", J. Phys. A 20, 3057 (1987).
[11] L. de Arcangelis, "Fractal dimensions in three dimensional Kauffman cellular automata", J. Phys. A 20, L369 (1987).
[12] L. de Arcangelis and D. Stauffer, "Period distribution for Kauffman cellular automata", J. de Physique 48, 1881 (1987).
[13] C. Amitrano, L. de Arcangelis, A. Coniglio and J. Kertesz, "Regular versus irregular Laplacian growth: multifractal spectroscopy", J. Phys. A 21, L15 (1987).
[14] L. de Arcangelis, "Fractals and Multifractals in Physics", in "Disorder and Mixing", E. Guyon, J.P. Nadal and Y. Pomeau eds. (Kluwer Academic Publishers, Dordrecht, 1988) p. 31.
[15] B. Kahng, G.G. Batrouni, S. Redner, L. de Arcangelis and H.J. Herrmann, "Electrical breakdown in a fuse network with random, continuously distributed breaking strengths", Phys. Rev. B 37, 7625 (1988).
[16] L. de Arcangelis, "Global and local periods in Kauffman cellular automata", in "Chaos and Complexity", R. Livi, S. Ruffo, S. Ciliberto and M. Buiatti eds. (World Scientific, Singapore, 1988) p. 201.
[17] L. de Arcangelis, A. Coniglio and G. Paladin, Comment on "Information dimension in random walk processes", Phys. Rev. Lett. 61, 2156 (1988).
[18] L. de Arcangelis and A. Coniglio, "Critical temperature in Kauffman cellular automata", Europhys. Lett. 7, 113 (1988).
[19] L. de Arcangelis, A. Hansen, H.J. Herrmann and S. Roux, "Scaling laws in fracture", Phys. Rev. B 40, 877 (1989).
[20] L. de Arcangelis and H.J. Herrmann, "Scaling and multiscaling laws in random fuse networks", Phys. Rev. B 39, 2678 (1989).
[21] A. Coniglio, L. de Arcangelis, H.J. Herrmann and N. Jan, "Exact relations between damage spreading and thermodynamical properties", Europhys. Lett. 8, 315 (1989).
[22] A. Coniglio, L. de Arcangelis and H.J. Herrmann, "Fractals and Multifractals: Applications in Physics", proceedings of the ETOPIM2 Conference, J. Lafait and D.B. Tanner eds., Physica A 157, 21 (1989).
[23] L. de Arcangelis, "Scaling behaviour in fracture models", proceedings of the 9th General Conference of the Condensed Matter Division of the European Physical Society, J. Friedel, J.P. Laheurte and J.P. Romagnan eds., Physica Scripta T29, 234 (1989).
[24] H.J. Herrmann, J. Kertesz and L. de Arcangelis, "Fractal shapes of deterministic cracks", Europhys. Lett. 10, 147 (1989).
[25] L. de Arcangelis, A. Coniglio and H.J. Herrmann, "Damage spreading in spin glasses", Europhys. Lett. 9, 749 (1989).
[26] L. de Arcangelis, H.J. Herrmann and A. Coniglio, "Dynamical phase transition of spin glasses in a magnetic field", J. Phys. A 22, 4659 (1989).
[27] H.J. Herrmann, L. de Arcangelis, A. Hansen and S. Roux, "Scaling laws and fractal patterns in fracture", proceedings of the 32eme Colloque de Metallurgie "Aspects microstructuraux de la rupture" at INSTN (Institut National des Sciences et Tecniques Nucleaires), Editions de la Revue de Metallurgie 4, 115 (1989).
[28] H.J. Herrmann and L. de Arcangelis, "Scaling in fracture", in Disorder and Fracture, J.C. Charmet, S. Roux and E. Guyon eds. (Plenum Press, New York, 1990) p. 149.
[29] A.M. Mariz, H.J. Herrmann and L. de Arcangelis, "Comparative study of damage spreading in the Ising model using heat-bath, Glauber and Metropolis dynamics", J. Stat. Phys. 59, 1043 (1990).
[30] L. de Arcangelis, "Randomness in breaking thresholds", Chapter VII of the book Statistical models for the fracture of disordered media, H.J. Herrmann and S. Roux eds. (North Holland, Amsterdam, 1990) p. 229.
[31] L. de Arcangelis, H.J. Herrmann and A. Coniglio, "Scaling properties of the damage cloud in the 3d Ising model", J. Phys. A 23, L265 (1990).
[32] I.A. Campbell and L. de Arcangelis, "The Ising spin glass phase transitions and phase space geometry", Journal of Magnetism and Magnetic Materials 90 & 91, 322 (1990).
[33] I.A. Campbell and L. de Arcangelis, "The Ising spin glass and phase space geometry", Europhys. Lett. 13, 587 (1990).
[34] L. de Arcangelis and H.J. Herrmann, "On the scaling properties of various invasion models", J. Phys. A 23, L923 (1990).
[35] A. Hansen, E.L. Hinrichsen, S. Roux, H.J. Herrmann and L. de Arcangelis, "Deterministic growth of Diffusion Limited Aggregation with quenched disorder", Europhys. Lett. 13, 341 (1990).
[36] L.de Arcangelis, "Damage spreading I: the Isin model and spin glasses", proceedings of the Summer School Correlations and Connectivity: Geometric Aspects of Physics, Chemistry and Biology, H.E Stanley and N. Ostrowsky eds. (Kluwer Academic Press, Dordrecht, 1990) p. 34.
[37] L. de Arcangelis, A. Coniglio and F. Peruggi, "Percolation transition in spin glasses", Europhys. Lett. 14, 515 (1991).
[38] L. de Arcangelis, "Fractal dimension of the red bonds in the Ising droplet", Physica A 173, 486 (1991).
[39] A. Hansen, L. de Arcangelis and S. Roux, "Fracture fragile des milieux heterogenes", Bulletin de la Societe Fran¸caise de Physique 80, 6 (1991).
[40] E. Bouchaud, L. de Arcangelis, G. Lapasset and J. Planes, "Les fractales dans la rupture des materiaux", La Recherche 22, 808 (1991).
[41] I.A. Campbell and L. de Arcangelis, "On the damage spreading in Ising spin glasses", Physica A 178, 29 (1991).
[42] I.A. Campbell and L. de Arcangelis, "The phase diagram of Ising spin glasses", Journal of Magnetism and Magnetic Materials 104-107, 1671 (1992).
[43] V. Cataudella, A. Coniglio, L. de Arcangelis and F. di Liberto, "Cluster formulation for frustrated spin models", Physica A 192, 167 (1993).
[44] D.L. Hunter, L. de Arcangelis, R. Matz, P.H. Poole and N. Jan, "Time dependent critical properties of Ising models by damage spreading", Physica A 196,188 (1993).
[45] H. Colina, L. de Arcangelis and S. Roux, "A model for surface cracking", Phys. Rev. B 48, 3666 (1993).
[46] C. Ghidaglia, E. Guazzelli, L. de Arcangelis and L. Oger, "Particulate transport in consolidated granular systems", proceedings of the Conference Powders and Grains 93, C. Thornton ed., (A.A. Balkema, Rotterdam, 1993), p. 389.
[47] L. de Arcangelis, "Statistical models for fracture", Turkish Journal of Physics 18, 207 (1994).
[48] L. de Arcangelis, "Damage Spreading in the Ising model and spin glasses", Turkish Journal of Physics 18, 367 (1994).
[49] N. Jan and L. de Arcangelis, "Computational aspects of damage spreading", Annual Reviews of Computational Physics 1, 1 (1994).
[50] C. Ghidaglia, L. de Arcangelis, E.J. Hinch and E. Guazzelli, "Transition in particle capture in deep-bed filtration", Phys. Rev. E 53, 3028 (1996).
[51] C. Ghidaglia, L. de Arcangelis, E.J. Hinch and E. Guazzelli, "Hydrodynamic interactions in deep bed filtration", Physics of Fluids 8, 6 (1996).
[52] L. de Arcangelis, "Statistical models for fracture", proceedings of the workshop "Disordered materials", Institute for Mathematics and its Applications, Springer ed., 99, 63 (1997).
[53] D. Stauffer and L. de Arcangelis, "Dynamics and strong size effects of a bootstrap percolation problem", International Journal of Modern Physics C 7, 739 (1996).
[54] E. Del Gado, L. de Arcangelis and A. Coniglio, "A percolation dynamic approach to sol-gel transition", J. Phys. A 31, 1901 (1998).
[55] L. de Arcangelis, H. Colina and S. Roux, "Statistical models for surface cracking", proceedings of the "Fifth International Conference of Composites Engineering", David Hui ed., p. 217 (1998).
[56] E. Del Gado, L. de Arcangelis and A. Coniglio, "Elastic properties at the sol-gel transition", Europhys. Lett. 46, 288 (1999)
[57] S. Solomon, G.Weisbuch, L. de Arcangelis, N. Jan and D. Stauffer, "Social percolation models", Physica A 277, 239 (2000).
[58] E. Del Gado, L. de Arcangelis and A. Coniglio, "Viscosity critical behaviour at the gel point in a 3d lattice model", European Physical Journal E 2, 359 (2000) .
[59] E. Del Gado, L. de Arcangelis and A. Coniglio, "Viscoelastic properties at the sol-gel transition", Macromolecular Symposia 1712, 79 (2001).
[60] E. Del Gado, L. de Arcangelis and A. Coniglio, "Viscoelastic properties at the sol-gel transition", "Scienza e Supercalcolo al CINECA", CINECA 1998-2000.
[61] L. de Arcangelis, E. Del Gado and A. Coniglio, "Complex viscoelastic behaviour at the sol-gel transition", Fractals 11, 9 (2003).
[62] E. Del Gado, L. de Arcangelis and A. Coniglio, "Critical dynamics at the sol-gel transition", Physica A 304, 93 (2002).
[63] E. Del Gado, L. de Arcangelis and A. Coniglio, "Elastic critical behaviour in a 3d model for polymer gels", Physical Review E 65, 41803 (2002).
[64] L. de Arcangelis and H.J.Herrmann, "Self-organised criticality on Small World Networks", Physica A 308, 545 (2002).
[65] E. Del Gado, L. de Arcangelis and A. Coniglio, "A study of viscoelasticity in gelling systems", J. Phys. C 14, 2133 (2002).
[66] L. de Arcangelis,E. Del Gado and A. Coniglio, " Complex dynamics in gelling systems", European Physical Journal E, 9, 277 (2002).
[67] E. Del Gado, A. Fierro, L. de Arcangelis and A. Coniglio, "A unifying model for chemical and colloidal gels", Europhysics Letters 63, 1 (2003).
[68] L. de Arcangelis, E. Del Gado, A. Fierro and A. Coniglio, "A unifying approach to relaxation properties of chemical and colloidal gels", Brazilian Journal of Physics 33 (3), 594-599 (2003).
[69] L. de Arcangelis, " Modeling Physics: From materials to environmental problems", Proceedings of the Conference European Simulation and Modelling (ESM 2003), Di Martino B., Yang L.T., Bobeanu C. Editors, Oct 27-29 2003, Naples, 14 (2003).
[70] L. de Arcangelis, E. Del Gado, A. Fierro and A. Coniglio, "Slow dynamics in gelation phenomena: from chemical gels to colloidal glasses", Phys. Rev. E 69, 051103 (2004).
[71] L. de Arcangelis, "Modelling the sol-gel transition", Computing in Science and Engineering 5 (6), 78-87 (2003).
[72] E. Del Gado, A. Fierro, L. de Arcangelis and A. Coniglio, "Glassy dynamics in gelling systems: From Chemical gels to colloidal glasses", AIP Conference Proceedings vol. 708, Slow Dyamics in Complex Systems: 3rd Int. Symp., Eds M. Tokuyama and I. Oppenheim, pp 28-32, AIP, Melville NY, 2004.
[73] E. Del Gado, A. Fierro, L. de Arcangelis and A. Coniglio, "Structural arrest in chemical and colloidal gels", in "Unifying Concepts in Granular Media and Glasses", A. Coniglio, A. Fierro, H.J. Herrmann and M. Nicodemi eds, p. 195, Elsevier Amsterdam 2004.
[75] A. Coniglio, L. de Arcangelis, E. Del Gado, A. Fierro and N. Sator, "Percolation, gelation and dynamical behavior in colloids", J. Phys. C 16, S4831, (2004).