Laboratoire de Physique Théorique de la Matière Condensée

Gilles TARJUS

présentation


 

*[1]

S. Bratos and G. Tarjus, "Optical methods of investigating molecular dynamics of liquids", in Physics of Modern Materials (IAEA, Vienne, 1980), vol.II, pg.571.

[2]

G. Tarjus and S. Bratos, "Theoretical study of Raman scattering from pure liquids", Mol. Phys. 42, 307 (1981).

[3]

S. Bratos and G. Tarjus, "Raman scattering from pure liquids. Theory of band profiles", Phys. Rev. A 24, 1591 (1981).

*[4]

S. Bratos and G. Tarjus, "Raman band profiles of pure van der Waals liquids", in Linear and Non Linear Raman Spectroscopy (J. Lascombe and P.V. Huong eds., Wiley and Sons, New York, 1982) p.317.

*[5]

S. Bratos and G. Tarjus, "Rotational-vibrational correlations in liquids and solutions", in Molecular Liquids-Dynamics and Interactions (A.J. Barnes, W.J. Orville-Thomas, and J. Yarwood eds., D. Reidel, Dordrecht, 1984) pg.151.

[6]

G. Tarjus and S. Bratos, "Rotation-vibration correlations in infrared and anisotropic Raman spectra of diluted van der Waals solution. Effect of intermolecular forces", Mol. Phys. 51, 793 (1984).

[7]

G. Tarjus and S. Bratos, "Theory of infrared and Raman spectra of diluted van der Waals solutions : simple product approximation and its extension", Phys. Rev. A 30, 1087 (1984).

[8]

S. Bratos and G. Tarjus, "Raman investigation of collective vibrational motions in van der Waals liquids", Can. J. Chem. 63, 2047 (1985).

[9]

S. Bratos and G. Tarjus, "Raman scattering from binary mixtures of van der Waals liquids. Theory of band profiles", Phys. Rev. A 32, 2431 (1985).

[10]

S. Bratos, G. Tarjus, and P. Viot, "Isotropic Raman study of ultrarapid proton transfer reactions in aqueous mixtures", J. Chem. Phys. 85, 803 (1986).

[11]

G. Tarjus and S. Bratos, "Theory of infrared and anisotropic Raman band profiles of pure liquids. Product approximation and its extension", Phys. Rev. A 34, 4202 (1986).

[12]

P. Viot, G. Tarjus, and S. Bratos, "Raman investigation of rapid chemical reactions in liquids", J. Mol. Liq. 36, 185 (1987).

[13]

E. Dayan, E. Dervil, J. Loisel, J.P. Pinan-Lucarre, and G. Tarjus, "Intensities of IR and Raman forbidden bands of liquid CS2 : solvent effect", Chem. Phys. 119, 107 (1988).

*[14]

E. Dayan, E. Dervil, J. Loisel, J.P. Pinan-Lucarre, and G. Tarjus, "Raman interaction induced intensities of liquid CS2 : concentration and solvent effects", Proceedings of the XIth Raman Conference (R.H.J. Clarke and D.A. Long eds., J. Wiley & Sons, Chichester, 1988), pg. 895.

[15]

P. Viot, G. Tarjus, D. Borgis, and S. Bratos, "Raman spectroscopy of pre-reactive, reactive, and post-reactive molecular motions in liquids", J. Chem. Phys. 90, 7022 (1989).

[16]

P. Viot, G. Tarjus, and S. Bratos, "A Fokker-Planck study of Raman band shapes of chemically reactive liquids : comparison of phenomenological models", J. Mol. Liq. 43, 93 (1989).

[17]

J. Talbot, G. Tarjus, and P. Schaaf, "Unexpected asymptotic behavior in random sequential adsorption of non-spherical particles", Phys. Rev. A 40, 4808 (1989).

[18]

G. Tarjus, D. Kivelson, and V. Friedrich, "Local symmetry, multi-body correlations, and the cancellation effect", J. Mol. Struct. 223, 253 (1990).

[19]

G. Tarjus, J. Talbot, and P. Schaaf, "Comment on 'Is there a glassy phase in two dimensions' ", J. Phys. A : Math. Gen. 23, 837 (1990).

[20]

V. Friedrich, G. Tarjus, and D. Kivelson, "Study of the integrated intensity of depolarized light scattering spectra of tetrahedral molecules", J. Chem. Phys. 93, 2246 (1990).

[21]

P. Viot and G. Tarjus, "Random sequential addition of unoriented squares : breakdown of Swendsen's conjecture", Europhys. Lett. 13, 295 (1990).

[22]

J. Talbot, D. Kivelson, G. Tarjus, M.P. Allen, G.T. Evans, and D. Frenkel, "Short-time correlations in liquids : molecular dynamics simulation of hard spheroids", Phys. Rev. Lett. 65, 2828 (1990).

[23]

G. Tarjus, P. Schaaf, and J. Talbot, "Generalized random sequential adsorption", J. Chem. Phys. 93, 8352 (1990)

[24]

G. Tarjus, P. Schaaf, and J. Talbot, "Random sequential addition : a distribution function approach", J. Stat. Phys. 63, 167 (1991).

[25]

G. Tarjus and D. Kivelson, "Solvent effect on activated rate processes : on the validity of the GLE approach", Chem. Phys. 152, 153 (1991).

[26]

J. Talbot, P. Schaaf, and G. Tarjus, "Random sequential addition of hard spheres", Mol. Phys. 72, 1397 (1991).

[27]

G. Tarjus, P. Viot, S.M. Ricci, and J. Talbot, "New analytical and numerical results on virial coefficients for 2-D hard convex bodies", Mol. Phys. 73, 773 (1991).

[28]

S. Bratos, G. Tarjus, M. Diraison, and J-Cl. Leicknam, "Incoherent inelastic neutron scattering from liquid water : a theoretical study", Phys. Rev. A 44, 2745 (1991).

[29]

G. Tarjus and D. Kivelson, "Useful friction and Langevin equations", J. Mol. Liq. 48, 303 (1991).

[30]

G. Tarjus and J. Talbot, " Random sequential addition of polydisperse mixtures : asymptotic kinetics and structure", J. Phys. A: Math. Gen. 24, L913 (1991).

[31]

G. Tarjus and P. Viot, "Asymptotic results for the random sequential addition of unoriented objects", Phys. Rev. Lett. 67, 1875 (1991).

[32]

J.E. Variyar, D. Kivelson, G. Tarjus, and J. Talbot, "Molecular rattling in two-dimensional fluids : simulations and theory", J. Chem. Phys. 96, 593 (1992).

[33]

S. Bratos, M. Diraison, G. Tarjus, and J-Cl. Leicknam, "Incoherent inelastic neutron scattering from liquid water. A theoretical investigation", Phys. Rev. A 45, 5556 (1992).

[34]

G. Tarjus and J. Talbot, "Kinetics of irreversible adsorption of mixtures of pointlike and fixed-size particles : asymptotic kinetics in D-dimensions", Phys. Rev. A 45, 4162 (1992).

[35]

D. Borgis, G. Tarjus, and H. Azzouz, "Solvent-induced proton transfer in a strongly H-bonded complex : an adiabatic simulation Study", J. Phys. Chem. 96, 3188 (1992).

[36]

G. Tarjus and P. Viot, "Generalized car parking problem as a model for particle deposition with entropy activated rate process", Phys. Rev. Lett. 68, 2354 (1992).

[37]

D. Borgis, G. Tarjus, and H. Azzouz, "An adiabatic dynamical simulation study of the Zundel polarization of strongly H-bonded complexes in solution", J. Chem. Phys. 97, 1390 (1992).

*[38]

M. Diraison, G. Tarjus, S. Bratos, and J-Cl. Leicknam, "Incoherent inelastic neutron scattering from molecular liquids. Study of semi-classical corrections", in Molecular Liquids: New Perspectives in Physics and Chemistry (J. Teixeira-Dias ed., NATO ASI Series C, 1992), pg. 379.

[39]

P. Viot, G. Tarjus, S.M. Ricci, and J. Talbot, "Random sequential adsorption of anisotropic particles. I- Jamming limit and asymptotic behavior", J. Chem. Phys. 97, 5212 (1992).

[40]

S.M. Ricci, J. Talbot, G. Tarjus, and P. Viot, "Random sequential adsorption of anisotropic particles. II- Low coverage kinetics", J. Chem. Phys. 97, 5219 (1992).

[41]

E. Dayan, E. Dervil, J. Loisel, J.P. Pinan-Lucarre, and G. Tarjus, "Interaction-induced Raman and IR spectra of liquid CS2: temperature and perturber effects", Mol. Phys. 76, 1457 (1992).

[42]

P. Viot, G. Tarjus, S.M. Ricci, and J. Talbot, "Saturation coverage in random sequential adsorption of very elongated particles", Physica A 191, 248 (1992).

[43]

D. Kivelson and G. Tarjus, "Connection between integrated intensities of depolarized light-scattering spectra and mesoscopic order in liquids", Phys. Rev. E 47, 4210 (1993).

[44]

G. Tarjus, M. Diraison, J-Cl. Leicknam, and S. Bratos, "Inelastic neutron scattering from liquid water. Theory and simulation", J. Mol. Struct. 296, 199 (1993).

[45]

X. Jin, N.-H. L. Wang, G. Tarjus, and J. Talbot, "Irreversible adsorption on nonuniform surfaces: the random site model", J. Phys. Chem. 97, 4256 (1993).

[46]

P. Viot, G. Tarjus, and J. Talbot, "Exact solution of a Generalized Ballistic Deposition model", Phys. Rev. E 48, 480 (1993).

[47]

H-S. Choi, J. Talbot, G. Tarjus, and P. Viot, "First layer formation in the ballistic deposition of spherical particles onto a planar surface", J. Chem. Phys. 99, 9296 (1993).

[48]

G. Tarjus, P. Viot, H-S. Choi, and J. Talbot, "Restructuring effects in irreversible deposition of spheres on a plane", Phys. Rev. E 49, 3239 (1994).

[49]

M-L. Rosinberg, G. Tarjus, and G. Stell, "Thermodynamics of fluids in quenched disordered matrices", J. Chem. Phys. 100, 5172 (1994).

[50]

X-C. Zeng, D. Kivelson, and G. Tarjus, "Reexamination of the depolarized light scattering spectra of glass forming liquids", Phys. Rev. E 50, 1711 (1994).

*[51]

J-Cl. Leicknam, M. Diraison, G. Tarjus, and S. Bratos, "Incoherent inelastic neutron scattering from liquid water: A computer simulation study" in Hydrogen Bond Networks (J. Bellissent-Funel and J. C. Dore eds., Nato ASI Series C, Kluwer, 1994), pg. 131.

[52]

X-C. Zeng, D. Kivelson, and G. Tarjus, "Comment on Glass transition in colloidal hard spheres : mode-coupling theory analysis", Phys. Rev. Lett. 72, 1772 (1994).

[53]

X-C. Zeng, D. Kivelson, and G. Tarjus,"Some consequences of the - bifurcation of relaxations in supercooled liquids", J. Non-Crystalline. Solids 172-174, 61 (1994).

[54]

D. Boyer, G. Tarjus, J. Talbot, P. Van Tassel, and P. Viot, "Exactly solvable models for irreversible adsorption with particle spreading", Phys. Rev. E 49, 5525 (1994).

[55]

X. Jin, G. Tarjus, and J. Talbot, "An Adsorption-Desorption process on a line: kinetics of the approach to closest packing", J. Phys. A: Math. Gen. 27, L195 (1994).

*[56]

D. Kivelson, X-C. Zeng, H. Sakai, and G. Tarjus, "Interaction induced spectra as a tool for the study of structure in supercooled liquids and glasses" (G. Tabisz ed., NATO ASI Series C, Kluwer, 1994), pg. 235.  

[57]

P. Van Tassel, P. Viot, G. Tarjus, and J. Talbot, "Irreversible adsorption of macromolecules at a liquid-solid interface : Theoretical studies of the effects of conformational change", J. Chem. Phys. 101, 7064 (1994).

[58]

M. Diraison, J-Cl. Leicknam, G. Tarjus, and S. Bratos, "Computer simulation study of inelastic neutron scattering from liquid water", Phys. Rev. E 50, 2689 (1994).

[59]

S.M. Ricci, J. Talbot, G. Tarjus, and P. Viot, "A structural comparison of Random sequential adsorption and equilibrium configurations of spherocylinders", J. Chem. Phys. 101, 9164 (1994).

[60]

D. Boyer, G. Tarjus, and P. Viot, "Shattering transition in a multivariable fragmentation model", Phys. Rev. E 51, 1043 (1995).

[61]

H-S. Choi, J. Talbot, G. Tarjus, and P. Viot, "Percolation and structural properties of particle deposits", Phys. Rev. E 51, 1353 (1995).

[62]

D. Boyer, G. Tarjus, P. Viot, and J. Talbot, “Percus-Yevick-like integral equation for random sequential addition, J. Chem. Phys. 103, 1607 (1995).

[63]

E. Pitard, M. L. Rosinberg, G. Stell, and G. Tarjus, "Critical behavior of a fluid in a disordered porous matrix. An Ornstein-Zernike approach", Phys. Rev. Lett. 74, 4361 (1995).

[64]

D. Kivelson, S. Kivelson, X. Zhao, Z. Nussinov, and G. Tarjus, "A thermodynamic theory of supercooled liquids", Physica A 219, 27 (1995).

[65]

E. Kierlik, M. L. Rosinberg, G. Tarjus, and P. Monson, "The pressure of a fluid in a disordered porous material", J. Chem. Phys. 103, 4256 (1995).

[66]

G. Tarjus and D. Kivelson, “Breakdown of the Stokes-Einstein relation in supercooled liquids”, J. Chem. Phys. 103, 3071 (1995).

[67]

D. Kivelson, J. Talbot, G. Tarjus, and J. Variyar, “Comment on “ Negative velocity correlation in hard sphere fluids” ”, J. Chem. Phys. 103, 95 (1995).

[68]

D. Kivelson, X. Zhao, G. Tarjus, and S. Kivelson, “Fitting of viscosity. Distinguishing between the temperature dependences predicted by various models of supercooled liquids”, Phys. Rev. E 53, 751 (1996).

[69]

P. Van Tassel, J. Talbot, G. Tarjus, and P. Viot, “Kinetics of irreversible adsorption with a particle conformational change : A density expansion approach”, Phys. Rev. E 53, 785 (1996).

[70]

M. D. Rintoul, S. Torquato, and G. Tarjus, "Nearest-neighbor statistics in a one-dimensional random sequential adsorption process", Phys. Rev. E 53, 450 (1996).

[71]

L. Chayes, V. J. Emery, S. Kivelson, Z. Nussinov, and G. Tarjus, “Avoided Critical Behavior in a Uniformly Frustrated System”, Physica A 225, 129 (1996).

[72]

E. Pitard, M. L. Rosinberg, and G. Tarjus, "Thermodynamics of fluids in disordered porous materials", Molec. Sim. 17, 399 (1996).

[73]

D. Boyer, G. Tarjus, and P. Viot, “Pair correlation function for a generalized ballistic deposition model", J. Phys. A: Math. Gen. 29, 2309 (1996).

[74]

E. Kierlik, M. L. Rosinberg, G. Tarjus, and P. Monson, "Thermodynamics of fluids in disordered porous materials", J. Phys.: Condens. Matter 8, 9621 (1996).

[75]

D. Kivelson, X. Zhao, G. Tarjus, and S. Kivelson, "Response to Comment by H. Z. Cummins on “Fitting of viscosity. Distinguishing between the temperature dependences predicted by various models of supercooled liquids”", Phys. Rev. E 54, 5873 (1996).

[76]

D. Boyer, G. Tarjus, and P. Viot, "Exact solution and multifractal analysis of a multivariable fragmentation model", J. Phys; I (Paris) 7, 13 (1997).

[77]

E. Kierlik, M. L. Rosinberg, G. Tarjus, and P. Monson, "Phase diagrams of single-component fluids in disordered porous materials: predictions from integral-equation theory", J. Chem. Phys. 106, 264 (1997).

[78]

P. Van Tassel, P. Viot, and G. Tarjus, “A kinetic model of partially reversible protein adsorption”, J. Chem. Phys. 106, 761 (1997).

[79]

E. Kierlik, M. L. Rosinberg, and G. Tarjus, "A self-consistent Ornstein-Zernike approximation for the site-diluted Ising model", J. Stat. Phys. 89, 215 (1997).

[80]

D. Kivelson, G. Tarjus, and S. Kivelson, "A Viewpoint, Model and Theory for Supercooled Liquids", Prog. Theor. Phys. Suppl. 126, 1 (1997).

*[81]

G. Tarjus, D. Kivelson, and S. Kivelson, "Frustration-limited domain theory of supercooled liquids and the glass transition", in Supercooled Liquids : Advances and Novel Applications, J. Fourkas et al Eds. (ACS Symposium Series 676, Washington, 1997), pg.67.

*[82]

D. Kivelson, J.-C. Pereda, K. Luu, M. Lee, H. Sakai, A. Ha, I. Cohen, and G. Tarjus, "Facts and Speculation Concerning Low-T Polymorphism in Glass Formers", in Supercooled Liquids : Advances and Novel Applications, J. Fourkas et al Eds. (ACS Symposium Series 676, Washington, 1997), pg.224.

[83]

P. Van Tassel, J. Talbot, P. Viot, and G. Tarjus, “A distribution function analysis of the structure of depleted particle configurations”, Phys. Rev. E 56, R1299 (1997).

[84]

M. Noro, D. Kivelson, and G. Tarjus, "A Quasi-Oscillatory Collisional Model for 2-Dimensional Soft-Disk Fluids", J. Chem. Phys. 107, 7418 (1997).

[85]

D. Kivelson and G. Tarjus, "Observed Anomalies in Supercooled Liquids described by Frustration-Limited Domain Theory", Philos. Mag B 77, 245 (1998).

[86]

D. Kivelson and G. Tarjus, "SuperArrhenius character of supercooled glass-forming liquids", J. Non-Cryst. Solids 235-237, 86 (1998).

[87]

E. Kierlik, E. Pitard, M. L. Rosinberg, and G. Tarjus, "Mean spherical approximation for a lattice model of a fluid in a disordered matrix", Mol. Phys. 95, 341 (1998).

[88]

D. Kivelson and G. Tarjus, "The Kauzmann Paradox Interpreted via the Theory of Frustration-Limited Domains", J. Chem. Phys. 109, 5481 (1998).

[89]

P. Van Tassel, L. Guemour, J.J. Ramsden, G. Tarjus, P. Viot, and J. Talbot, “A Particle-Level Model of Irreversible Protein Adsoprtion with Postadsorption Transition”, J. Colloid Interface Sci. 207, 317 (1998).

*[90]

M. Brusatori, P. Van Tassel, J. Talbot, P. Viot, and G. Tarjus, “Theoretical and experimental studies of protein adsorption kinetics”, in Fundamentals of Adsorption, F. Meunier Ed. (Elsevier, Amsterdam, 1998), pg. 485.

*[91]

E. Kierlik, M. L. Rosinberg, G. Tarjus, and P. Monson, “Application of Modern Statistical Mechanics to Adsorption in Heterogeneous Porous Materials”, in Fundamentals of Adsorption, F. Meunier Ed. (Elsevier, Amsterdam, 1998), pg. 867.

[92]

P. Viot and G. Tarjus, “Microphase separation and modulated phases in a Coulomb frustrated Ising ferromagnet”, Europhys. Lett. 44, 423 (1998).

[93]

M. L. Ferrer, C. Lawrence, B. Demirjian, D. Kivelson, C. Alba-Simionesco, and G. Tarjus, "Supercooled liquids and the glass transition: Temperature as the control variable", J. Chem. Phys. 109, 8010 (1998).

*[94]

G. Tarjus, D. Kivelson, and C. Alba-Simionesco, "The Viscous Slowing Down of Supercooled Liquids as a Temperature-Controlled Activated Process: Evidence and consequences", in Slow Dynamics in Complex Systems, M. Tokuyama and I. Oppenheim Eds. (AIP, 1999), pg. 406.

[95]

E. Kierlik, M. L. Rosinberg, and G. Tarjus, "A self-consistent Ornstein-Zernike approximation for the Random-Field Ising model", J. Stat. Phys. 94, 805 (1999).

**[96]

G. Tarjus, "La Transition Vitreuse : Phénoménologie, Concepts et Modèles", Cours et Conférences (Ecole Encre 99, CNRS-SPM, 1999).

[97]

J. Talbot, G. Tarjus, and P. Viot, "Sluggish kinetics in the parking lot model", J. Phys. A: Math. Gen. 32, 2997 (1999).

[98]

D. Kivelson and G. Tarjus, "Phenomenological Analysis of Supercooled Liquids", in Physics of Glasses, P. Jund and R. Jullien Eds. (AIP, 1999), pg. 83.

[99]

G. Tarjus, D. Kivelson, and P. Viot, "The Viscous Slowing Down of Supercooled Liquids as a Temperature-Controlled Super-Arrhenius Activated Process: A Description in Terms of Frustration-Limited Domains", J. Phys.: Condens. Matter 12, 6497 (2000).

[100]

J. Talbot, G. Tarjus, P. Van Tassel, and P. Viot, "From Car Parking to Protein Adsorption: an Overview of Sequential Adsorption Processes", Colloids and Surfaces A 165, 287 (2000).

[101]

P. Van Tassel, P. Viot, G. Tarjus, J. J. Ramsden, and J. Talbot, "Enhanced Saturation Coverages in Adsorption-Desorption Processes", J. Chem. Phys. 112, 1483 (2000).

[102]

E. Kierlik, M. L. Rosinberg, and G. Tarjus, "A self-consistent Ornstein-Zernike approximation for the Edwards-Anderson spin glass model", J. Stat. Phys. 100, 423 (2000).

[103]

P. Viot, G. Tarjus, and D. Kivelson, "A heterogeneous picture of relaxation for fragile supercooled liquids", J. Chem. Phys. 112, 10368 (2000).

[104]

J. Talbot, G. Tarjus, and P. Viot, "Adsorption-desorption model and its application to vibrated granular materials", Phys. Rev. E 61, 5429 (2000).

[105]

M. Grousson, P. Viot and G. Tarjus, “Phase diagram of an Ising model with long-range frustrating interactions: a theoretical analysis”, Phys. Rev. E 62, 7781 (2000).

[106]

C. Alba-Simionesco and G. Tarjus, “Experimental evidence of mesoscopic order in the apparently amorphous glacial phase of the fragile glassformer triphenylphosphite”, Europhys. Lett. 52, 297 (2000).

*[107]

G. Tarjus and D. Kivelson, "The Viscous Slowing Down of Supercooled Liquids and the Glass Transition: Phenomenology, Concepts, and Models", in Jamming and Rheology Constrained Dynamics on Microscopic and Macroscopic Scales", A. Liu and S. R. Nagel Eds. (Taylor and Francis, London, 2001), pg. 20.

[108]

S. Grollau, E. Kierlik, M. L. Rosinberg, and G. Tarjus, "Thermodynamically self-consistent theory for the Blume-Capel model", Phys. Rev. E 63, 041111 (2001).

[109]

M. Grousson, G. Tarjus, and P. Viot, “Comment on 'Stripe Glasses: Self-Generated Randomness in a Uniformly Frustrated System'”, Phys. Rev. Lett. 86, 3455 (2001).

[110]

S. Grollau, M. L. Rosinberg, and G. Tarjus, "The ferromagnetic q-states Potts model on three-dimensional lattices: an analytical study for real values of q", Physica A 286, 460 (2001).

[111]

E. Kierlik, M. L. Rosinberg, G. Tarjus, and P. Viot, "Equilibrium and out-of-equilibrium (hysteretic) behavior of fluids in disordered porous materials: theoretical predictions", Phys. Chem. Chem. Phys. 3, 1201 (2001).

[112]

E. Kierlik, P. Monson, M. L. Rosinberg, L. Sarkisov, and G. Tarjus, "Capillary condensation in disordered porous materials: hysteresis versus equilibrium behavior", Phys. Rev. Lett. 87, 055701 (2001).

[113]

D. Kivelson and G. Tarjus, "H2O below 277K: a novel picture", J. Phys. Chem. B 105, 6620 (2001).

[114]

J. Talbot, G. Tarjus, and P. Viot, "Aging and response properties in the parking-lot model", Eur. Phys. J. E 5, 445 (2001).

[115]

M. Grousson, G. Tarjus, and P. Viot, "Monte Carlo study of the three-dimensional Coulomb frustrated Ising ferromagnet", Phys. Rev. E 64, 036109 (2001).

[116]

D. Kivelson and G. Tarjus, "Energy Landscapes Composed of Continuous Intertwining Equipotentials Ribbons", J. Phys. Chem. B 105, 11854 (2001).

[117]

V. Krakoviack, E. Kierlik, M. L. Rosinberg, and G. Tarjus, "Adsorption of a fluid in an aerogel: integral equation approach", J. Chem. Phys. 115, 11289 (2001).

[118]

P. Viot, J. Talbot, and G. Tarjus, "Slow dynamics, aging and history-dependent effects", Fractals, 185-196 (2002).

[119]

C. Alba-Simionesco, D. Kivelson, and G. Tarjus, "Temperature, density, and pressure dependence of relaxation times in supercooled liquids", J. Chem. Phys. 116, 5033 (2002).

[120]

M. Grousson, G. Tarjus, and P. Viot, "Fragile glassforming behavior of a three-dimensional Ising ferromagnet with uniform frustration", J. Phys. Condens. Matter 14, 1617 (2002).

[121]

G. Tarjus and V. Dotsenko, "Is there a spin glass phase in the random temperature Ising model ?", J. Phys. A: Math. Gen. 35, 1627 (2002).

[122]

D. Kivelson, and G. Tarjus, "Apparent polyamorphism and frustration", J. Non Cryst. Solids 307-310, 630 (2002).

[123]

M. Grousson, G. Tarjus, and P. Viot, "Evidence for fragile glassforming behavior in the relaxation of Coulomb frustrated three-dimensional systems", Phys. Rev. E 65, 065103 (2002).

*[124]

E. Kierlik, P. Monson, M. L. Rosinberg, L. Sarkisov, and G. Tarjus, "Capillary condensation in disordered porous materials: hysteresis versus equilibrium behavior", Fundamentals of Adsorption 7, K. Kaneko, H. Kanoh, and Y. Hanzawa Eds. (International Adsorption Society, 2002), p. 346.

[125]

M. Grousson, V. Krakoviack, G. Tarjus, and P. Viot, "Langevin dynamics of the Coulomb frustrated ferromagnet: a mode-coupling analysis", Phys. Rev. E 66, 026126 (2002).

[126]

E. Kierlik, P. Monson, M. L. Rosinberg, and G. Tarjus, "Adsorption hysteresis and capillary condensation in disordered porous solids: a density functional study", J. Phys.: Condens. Matter 14, 9295 (2002).

[127]

M. L. Rosinberg, E. Kierlik, and G. Tarjus, "Percolation, depinning, and avalanches in capillary condensation of gases in disordered porous solids", Europhys. Lett. 62, 377 (2003).

[128]

G. Tarjus, C. Alba-Simionesco, M. Grousson, P. Viot, and D. Kivelson, "Locally preferred structure and frustration in glassforming liquids: a clue to polyamorphism ?", J. Phys.: Condens. Matter 15, 1077 (2003).

[129]

J. Talbot, G. Tarjus, and P. Viot, ''Optimum Monte Carlo Simulations: Some Exact Results'', J. Phys. A: Math. Gen. 36, 9009 (2003).

[130]

S. Mossa and G. Tarjus, ''Locally preferred structure in simple atomic liquids'', J. Chem. Phys. 119, 8069 (2003).

[131]

F. Detcheverry, E. Kierlik, M. L. Rosinberg, and G. Tarjus, "Local mean-field study of capillary in silica aerogels", Phys. Rev. E 68, 061504 (2003).

[132]

F. Detcheverry, E. Kierlik, M. L. Rosinberg, and G. Tarjus, "Hysteresis in capillary condensation of gases in disordered porous solids", Physica B 343, 303 (2004).

[133]

G. Tarjus and P. Viot, ''Edwards-like statistical mechanical description of the parking lot model for vibrated granular materials'', Phys. Rev. E 69, 011307 (2004).

[134]

G. Tarjus, D. Kivelson, S. Mossa, and C. Alba-Simionesco, “Disentangling density and temperature effects in the viscous slowing down of glassforming liquids", J. Chem. Phys. 120, 6135 (2004).

*[135]

G. Tarjus and P. Viot, ''Memory and Kovacs effects in the parking lot model: an approximate statistical-mechanical treatment'', in “Unifying Concepts in Granular Media and Glasses”, M. Nicodemi, A. Coniglio, A. Fierro, and H. Herrmann( Elsevier, Amsterdam, 2004), pg. 35.

[136]

C. Alba-Simionesco, A. Chauty, A. Allegria, and G. Tarjus, “Scaling out the density dependence of the alpha relaxation in glassforming polymers", Europhys. Lett. 68, 58 (2004).

[137]

F. Detcheverry, E. Kierlik, M. L. Rosinberg, and G. Tarjus, "Mechanisms for gas adsorption and desorption in silica aerogels: The effect of temperature", Langmuir 20, 8006 (2004).

[138]

G. Tarjus, S. Mossa, and C. Alba-Simionesco, “Disentangling density and temperature effects in the viscous slowing down of glassforming liquids: Reply to Comment", J. Chem. Phys. 120, 11505 (2004).

[139]

G. Tarjus and M. Tissier, “Non-perturbative functional renormalization group for random field models: the way out of dimensional reduction”, Phys. Rev. Lett. 93, 267008 (2004).

[140]

F. Detcheverry, E. Kierlik, M. L. Rosinberg, and G. Tarjus, "The physics of capillary condensation in disordered mesoporous materials: a unifying theoretical approach", Adsorption 11, 115 (2005).

[141]

F. Detcheverry, M. L. Rosinberg, and G. Tarjus, “Metastable states and T=0 hysteresis in the random-field Ising model on random graphs”, Eur. Phys. J. B 44, 327 (2005).

[142]

E. Vives, M. L. Rosinberg, and G. Tarjus, “Hysteresis and avalanches in the T=0 random-field Ising model with 2-spin-flip dynamics”, Phys. Rev. B 71, 134424 (2005).

[143]

G. Biroli, J. P. Bouchaud, and G. Tarjus, “Are defect models consistent with the entropy and specific heat of glass-formers?”, J. Chem. Phys. 122, (2005).

[144]

G. Tarjus, S. Kivelson, Z. Nussinov, and P. Viot, “The frustration-based approach of supercooled liquids and the glass transition: a review and critical assessment”, to appear in J. Phys.: Condens. Matter 17, R1143 (2005).

[145]

F. Detcheverry, E. Kierlik, M. L. Rosinberg, and G. Tarjus, "Helium condensation in aerogel: Avalanches and disorder-induced phase transition”, Phys. Rev. E 72, 051506 (2005).

[146]

M. Tissier and G. Tarjus, “Unified picture of ferromagnetism, quasi-long-range order, and criticality in random-field models”, Phys. Rev. Lett. 96, 087202 (2006).

[147]

S. Mossa and G. Tarjus, ''An operational scheme to determine the locally preferred structure of model liquids”, J. Non-Crystal. Solids (2006).

[148]

C. Alba-Simionesco and G. Tarjus, Temperature Versus Density Effects in Glassforming Liquids and Polymers: A Scaling Hypothesis and its Consequences”, submitted to J. Non-Crystal. Solids (2005).

[149]

F. Detcheverry, E. Kierlik, M. L. Rosinberg, and G. Tarjus, Gas adsorption/desorption in silica aerogels: a theoretical study of scattering properties”, (2005).