[57]

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

[58]

M. Diraison, JCl. 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]

HS. 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, “PercusYevicklike 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 OrnsteinZernike 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 StokesEinstein 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, "Nearestneighbor statistics in a onedimensional 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 singlecomponent fluids in disordered porous materials: predictions from integralequation 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 selfconsistent OrnsteinZernike approximation for the sitediluted 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, "Frustrationlimited 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 LowT 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 QuasiOscillatory Collisional Model for 2Dimensional SoftDisk Fluids", J. Chem. Phys. 107, 7418 (1997).

[85]

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

[86]

D. Kivelson and G. Tarjus, "SuperArrhenius character of supercooled glassforming liquids", J. NonCryst. Solids 235237, 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 FrustrationLimited Domains", J. Chem. Phys. 109, 5481 (1998).

[89]

P. Van Tassel, L. Guemour, J.J. Ramsden, G. Tarjus, P. Viot, and J. Talbot, “A ParticleLevel 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. AlbaSimionesco, 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. AlbaSimionesco, "The Viscous Slowing Down of Supercooled Liquids as a TemperatureControlled 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 selfconsistent OrnsteinZernike approximation for the RandomField Ising model", J. Stat. Phys. 94, 805 (1999).

**[96]

G. Tarjus, "La Transition Vitreuse : Phénoménologie, Concepts et Modèles", Cours et Conférences (Ecole Encre 99, CNRSSPM, 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 TemperatureControlled SuperArrhenius Activated Process: A Description in Terms of FrustrationLimited 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 AdsorptionDesorption Processes", J. Chem. Phys. 112, 1483 (2000).

[102]

E. Kierlik, M. L. Rosinberg, and G. Tarjus, "A selfconsistent OrnsteinZernike approximation for the EdwardsAnderson 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, "Adsorptiondesorption 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 longrange frustrating interactions: a theoretical analysis”, Phys. Rev. E 62, 7781 (2000).

[106]

C. AlbaSimionesco 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 selfconsistent theory for the BlumeCapel model", Phys. Rev. E 63, 041111 (2001).

[109]

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

[110]

S. Grollau, M. L. Rosinberg, and G. Tarjus, "The ferromagnetic qstates Potts model on threedimensional 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 outofequilibrium (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, "H_{2}O 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 parkinglot model", Eur. Phys. J. E 5, 445 (2001).

[115]

M. Grousson, G. Tarjus, and P. Viot, "Monte Carlo study of the threedimensional 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 historydependent effects", Fractals, 185196 (2002).

[119]

C. AlbaSimionesco, 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 threedimensional 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 307310, 630 (2002).

[123]

M. Grousson, G. Tarjus, and P. Viot, "Evidence for fragile glassforming behavior in the relaxation of Coulomb frustrated threedimensional 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 modecoupling 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. AlbaSimionesco, 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 meanfield 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, ''Edwardslike 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. AlbaSimionesco, “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 statisticalmechanical 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. AlbaSimionesco, 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. AlbaSimionesco, “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, “Nonperturbative 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 randomfield 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 randomfield Ising model with 2spinflip 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 glassformers?”, J. Chem. Phys. 122, (2005).

[144]

G. Tarjus, S. Kivelson, Z. Nussinov, and P. Viot, “The frustrationbased 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 disorderinduced phase transition”, Phys. Rev. E 72, 051506 (2005).

[146]

M. Tissier and G. Tarjus, “Unified picture of ferromagnetism, quasilongrange order, and criticality in randomfield 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. NonCrystal. Solids (2006).

[148]

C. AlbaSimionesco and G. Tarjus, “Temperature Versus Density Effects in Glassforming Liquids and Polymers: A Scaling Hypothesis and its Consequences”, submitted to J. NonCrystal. 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).

