T. S. Grigera
Castellano
  1. S. Camargo, N. Zamponi, D. A. Martin, T. Turova, T. S. Grigera, Q. Tang, D. R. Chialvo, Behavior of the Scaling Correlation Functions under Severe Subsampling. Phys. Rev. E 112, 014301 (2025). [DOI | PDF | BibTeX]
  2. F. Ferretti, I. Giardina, T. Grigera, G. Pisegna, M. Veca, Out-of-Equilibrium Response and Fluctuation-Dissipation Violations across Scales in Flocking Systems. Phys. Rev. Research 7, L032006 (2025). [DOI | PDF | BibTeX]
  3. J. Almeira, T. S. Grigera, D. A. Martin, D. R. Chialvo, S. A. Cannas, Mean-Field Solution of the Neural Dynamics in a Greenberg-Hastings Model with Excitatory and Inhibitory Units. Phys. Rev. E 110, 014130 (2024). [DOI | PDF | BibTeX]
  4. S. Carruitero, A. C. Duran, G. Pisegna, M. B. Sturla, T. S. Grigera, Inertial Spin Model of Flocking with Position-Dependent Forces. Phys. Rev. E 110, 014408 (2024). [DOI | PDF | BibTeX]
  5. A. Cavagna, J. Cristín, I. Giardina, T. S. Grigera, M. Veca, Discrete Laplacian Thermostat for Flocks and Swarms: The Fully Conserved Inertial Spin Model. J. Phys. A: Math. Theor. 57, 415002 (2024). [DOI | PDF | BibTeX]
  6. S. Camargo, D. A. Martin, E. J. Trejo, A. De Florian, M. A. Nowak, S. A. Cannas, T. S. Grigera, D. R. Chialvo, Scale-free correlations in the dynamics of a small (\(N \sim 10000\)) cortical network. Phys. Rev. E 108, 034302 (2023). [DOI | PDF | BibTeX]
  7. A. Cavagna, L. Di Carlo, I. Giardina, T. S. Grigera, S. Melillo, L. Parisi, G. Pisegna, M. Scandolo, Natural Swarms in 3.99 Dimensions. Nat. Phys. 19, 1043–1049 (2023). [DOI | BibTeX]
  8. A. Cavagna, H. Fort, T. S. Grigera, Testing for Stationary Dynamics in the Barro Colorado Island Forest. Ecological Indicators 146, 109880 (2023). [DOI | BibTeX]
  9. N. G. Lavalle, O. Chara, T. S. Grigera, Fluctuations in Tissue Growth Portray Homeostasis as a Critical State and Long-Time Non-Markovian Cell Proliferation as Markovian. Royal Society Open Science 10, 230871 (2023). [DOI | BibTeX]
  10. K. B. Wood, A. Comba, S. Motsch, T. S. Grigera, P. R. Lowenstein, Scale-Free Correlations and Potential Criticality in Weakly Ordered Populations of Brain Cancer Cells. Science Advances 9, eadf7170 (2023). [DOI | BibTeX]
  11. S. Acevedo, C. A. Lamas, A. Costa Duran, M. Sturla, T. S. Grigera, On the Neural Network Flow of Spin Configurations. Computational Materials Science 213, 111634 (2022). [DOI | PDF | BibTeX]
  12. J. Almeira, T. S. Grigera, D. R. Chialvo, S. A. Cannas, Tricritical Behavior in a Neural Model with Excitatory and Inhibitory Units. Phys. Rev. E 106, 054140 (2022). [DOI | PDF | BibTeX]
  13. A. Cavagna, A. Culla, X. Feng, I. Giardina, T. S. Grigera, W. Kion-Crosby, S. Melillo, G. Pisegna, L. Postiglione, P. Villegas, Marginal Speed Confinement Resolves the Conflict between Correlation and Control in Collective Behaviour. Nat Commun 13, 2315 (2022). [DOI | PDF | BibTeX]
  14. A. Cavagna, A. Culla, T. S. Grigera, Renormalization Group Study of Marginal Ferromagnetism. Phys. Rev. E 106, 054136 (2022). [DOI | PDF | BibTeX]
  15. G. Fabricius, R. A. Borzi, J. Caminos, T. S. Grigera, Immunity Acquired by a Minority Active Fraction of the Population Could Explain COVID-19 Spread in Greater Buenos Aires (June–November 2020). Epidemiology \& Infection 150, e84 (2022). [DOI | PDF | BibTeX]
  16. M. L. Rubio Puzzo, E. S. Loscar, A. De Virgiliis, T. S. Grigera, Short-Time Dynamics in Active Systems: The Vicsek Model. J. Phys.: Condens. Matter 34, 314001 (2022). [DOI | PDF | BibTeX]
  17. E. J. Trejo, D. A. Martin, D. De Zoysa, Z. Bowen, T. S. Grigera, S. A. Cannas, W. Losert, D. R. Chialvo, Finite-Size Correlation Behavior near a Critical Point: A Simple Metric for Monitoring the State of a Neural Network. Phys. Rev. E 106, 0543143 (2022). [DOI | PDF | BibTeX]
  18. A. Cavagna, L. Di Carlo, I. Giardina, T. S. Grigera, G. Pisegna, Equilibrium to Off-Equilibrium Crossover in Homogeneous Active Matter. Phys. Rev. Research 3, 013210 (2021). [DOI | PDF | BibTeX]
  19. A. Cavagna, L. Di Carlo, I. Giardina, T. Grigera, G. Pisegna, M. Scandolo, Dynamical Renormalization Group for Mode-Coupling Field Theories with Solenoidal Constraint. J Stat Phys 184, 26 (2021). [DOI | PDF | BibTeX]
  20. H. Fort, T. S. Grigera, A New Early Warning Indicator of Tree Species Crashes from Effective Intraspecific Interactions in Tropical Forests. Ecological Indicators 125, 107506 (2021). [DOI | PDF | BibTeX]
  21. H. Fort, T. S. Grigera, A Method for Predicting Species Trajectories Tested with Trees in Barro Colorado Tropical Forest. Ecological Modelling 446, 109504 (2021). [DOI | PDF | BibTeX]
  22. T. S. Grigera, Correlation Functions as a Tool to Study Collective Behaviour Phenomena in Biological Systems. J. Phys. Complex. 2, 045016 (2021). [DOI | PDF | BibTeX]
  23. D. A. Martin, T. L. Ribeiro, S. A. Cannas, T. S. Grigera, D. Plenz, D. R. Chialvo, Box Scaling as a Proxy of Finite Size Correlations. Sci Rep 11, 15937 (2021). [DOI | BibTeX]
  24. M. M. Sánchez Diaz, E. J. Aguilar Trejo, D. A. Martin, S. A. Cannas, T. S. Grigera, D. R. Chialvo, Similar Local Neuronal Dynamics May Lead to Different Collective Behavior. Phys. Rev. E 104, 064309 (2021). [DOI | PDF | BibTeX]
  25. P. Villegas, A. Cavagna, M. Cencini, H. Fort, T. S. Grigera, Joint Assessment of Density Correlations and Fluctuations for Analysing Spatial Tree Patterns. Royal Society Open Science 8, 202200 (2021). [DOI | BibTeX]
  26. G. Baglietto, A. Seif, T. S. Grigera, W. Paul, Otherwise Identical Particles with Differing, Fixed Speeds Demix under Time-Reversible Dynamics. Phys. Rev. E 101, 062606 (2020). [DOI | PDF | BibTeX]
  27. D. R. Chialvo, S. A. Cannas, T. S. Grigera, D. A. Martin, D. Plenz, Controlling a Complex System near Its Critical Point via Temporal Correlations. Scientific Reports 10, 1–7 (2020). [DOI | BibTeX]
  28. A. Cavagna, L. Di Carlo, I. Giardina, L. Grandinetti, T. S. Grigera, G. Pisegna, Renormalization Group Crossover in the Critical Dynamics of Field Theories with Mode Coupling Terms. Phys. Rev. E 100, 062130 (2019). [DOI | PDF | BibTeX]
  29. A. Cavagna, L. Di Carlo, I. Giardina, L. Grandinetti, T. S. Grigera, G. Pisegna, Dynamical Renormalization Group Approach to the Collective Behavior of Swarms. Phys. Rev. Lett. 123, 268001 (2019). [DOI | PDF | BibTeX]
  30. A. Cavagna, A. Culla, L. Di Carlo, I. Giardina, T. S. Grigera, Low-Temperature Marginal Ferromagnetism Explains Anomalous Scale-Free Correlations in Natural Flocks. Comptes Rendus Physique 20, 319–328 (2019). [DOI | BibTeX]
  31. D. A. Martin, T. S. Grigera, V. I. Marconi, Speeding up the Study of Diluted Dipolar Systems. Phys. Rev. E 99, 022604 (2019). [DOI | PDF | BibTeX]
  32. M. L. Rubio Puzzo, A. De Virgiliis, T. S. Grigera, Self-Propelled Vicsek Particles at Low Speed and Low Density. Phys. Rev. E 99, 052602 (2019). [DOI | PDF | BibTeX]
  33. A. Cavagna, I. Giardina, T. S. Grigera, The Physics of Flocking: Correlation as a Compass from Experiments to Theory. Physics Reports 728, 1–62 (2018). [DOI | PDF | BibTeX]
  34. A. Cavagna, D. Conti, I. Giardina, T. S. Grigera, Propagating Speed Waves in Flocks: A Mathematical Model. Physical Review E 98, (2018). [DOI | PDF | BibTeX]
  35. A. Cavagna, D. Conti, C. Creato, L. Del Castello, I. Giardina, T. S. Grigera, S. Melillo, L. Parisi, M. Viale, Dynamic Scaling in Natural Swarms. Nature Phys. 13, 914–918 (2017). [DOI | BibTeX]
  36. C. G. Ferrara, T. S. Grigera, Dynamics and Structural Behavior of Water in Large Confinement with Planar Amorphous Walls. The Journal of Chemical Physics 147, 024705 (2017). [DOI | PDF | BibTeX]
  37. E. S. Loscar, D. A. Martin, T. S. Grigera, Stability Limits for the Supercooled Liquid and Superheated Crystal of Lennard-Jones Particles. J. Chem. Phys. 147, 034504 (2017). [DOI | BibTeX]
  38. A. Cavagna, D. Conti, I. Giardina, T. S. Grigera, S. Melillo, M. Viale, Spatio-Temporal Correlations in Models of Collective Motion Ruled by Different Dynamical Laws. Phys. Biol. 13, 065001 (2016). [DOI | PDF | BibTeX]
  39. G. Gradenigo, R. Trozzo, A. Cavagna, T. S. Grigera, Response to ``Comment on `Static Correlations Functions and Domain Walls in Glass-Forming Liquids: The Case of a Sandwich Geometry''' [J. Chem. Phys. 144, 227101 (2016)]. The Journal of Chemical Physics 144, 227102 (2016). [DOI | PDF | BibTeX]
  40. E. S. Loscar, C. G. Ferrara, T. S. Grigera, Spinodals and Critical Point Using Short-Time Dynamics for a Simple Model of Liquid. J. Chem. Phys. 144, 134501 (2016). [DOI | PDF | BibTeX]
  41. A. Cavagna, I. Giardina, T. S. Grigera, A. Jelic, D. Levine, S. Ramaswamy, M. Viale, Silent Flocks: Constraints on Signal Propagation Across Biological Groups. Phys. Rev. Lett. 114, 218101 (2015). [DOI | BibTeX]
  42. S. A. Grigera, R. Borzi, D. G. Slobinsky, A. S. Gibbs, R. Higashinaka, Y. Maeno, T. S. Grigera, An intermediate state between the kagome-ice and the fully polarized state in Dy\(_2\)Ti\(_2\)O\(_7\). Papers in Physics 7, 070009 (2015). [DOI | PDF | BibTeX]
  43. D. A. Mártin, A. Cavagna, T. S. Grigera, Specific Heat Anomaly in a Supercooled Liquid with Amorphous Boundary Conditions. Phys. Rev. Lett. 114, 225901 (2015). [DOI | BibTeX]
  44. A. Seif, E. S. Loscar, T. S. Grigera, Aging and Crystallization in a Lattice Glass Model. Phys. Rev. E 91, 042302 (2015). [DOI | PDF | BibTeX]
  45. A. Attanasi, A. Cavagna, L. Del Castello, I. Giardina, T. S. Grigera, A. Jelić, S. Melillo, L. Parisi, O. Pohl, E. Shen, M. Viale, Information Transfer and Behavioural Inertia in Starling Flocks. Nature Phys. 10, 691–696 (2014). [DOI | BibTeX]
  46. A. Cavagna, L. Del Castello, I. Giardina, T. S. Grigera, A. Jelic, S. Melillo, T. Mora, L. Parisi, E. Silvestri, M. Viale, A. M. Walczak, Flocking and Turning: A New Model for Self-organized Collective Motion. J. Stat. Phys. 158, 601–627 (2014). [DOI | BibTeX]
  47. G. Gradenigo, R. Trozzo, A. Cavagna, T. S. Grigera, P. Verrocchio, Static Correlations Functions and Domain Walls in Glass-Forming Liquids: The Case of a Sandwich Geometry. J. Chem. Phys. 138, 12A509 (2013). [DOI | PDF | BibTeX]
  48. A. Cavagna, T. S. Grigera, P. Verrocchio, Dynamic Relaxation of a Liquid Cavity under Amorphous Boundary Conditions. J. Chem. Phys. 136, 204502 (2012). [DOI | PDF | BibTeX]
  49. E. V. Albano, M. A. Bab, G. Baglietto, R. A. Borzi, T. S. Grigera, E. S. Loscar, D. E. Rodriguez, M. L. Puzzo, G. P. Saracco, Study of Phase Transitions from Short-Time Non-Equilibrium Behaviour. Rep. Progr. Phys. 74, 026501 (2011). [DOI | PDF | BibTeX]
  50. T. S. Grigera, Glsim: A General Library for Numerical Simulation. Comp. Phys. Comm. 182, 2122–2131 (2011). [DOI | PDF | BibTeX]
  51. T. S. Grigera, V. Martin-Mayor, G. Parisi, P. Urbani, P. Verrocchio, On the High-Density Expansion for Euclidean Random Matrices. J. Stat. Mech. 2011, P02015 (2011). [DOI | PDF | BibTeX]
  52. C. Cammarota, A. Cavagna, I. Giardina, G. Gradenigo, T. S. Grigera, G. Parisi, P. Verrocchio, Phase-Separation Perspective on Dynamic Heterogeneities in Glass-Forming Liquids. Phys. Rev. Lett. 105, 055703 (2010). [DOI | PDF | BibTeX]
  53. A. Cavagna, T. S. Grigera, P. Verrocchio, Numerical Simulations of Liquids with Amorphous Boundary Conditions. J. Stat. Mech. 2010, P10001 (2010). [DOI | PDF | BibTeX]
  54. G. Gradenigo, A. Sarracino, D. Villamaina, T. S. Grigera, A. Puglisi, The Ratchet Effect in an Ageing Glass. J. Stat. Mech. 2010, L12002 (2010). [DOI | PDF | BibTeX]
  55. C. Cammarota, A. Cavagna, G. Gradenigo, T. S. Grigera, P. Verrocchio, Evidence for a Spinodal Limit of Amorphous Excitations in Glassy Systems. J. Stat. Mech. 2009, L12002 (2009). [DOI | PDF | BibTeX]
  56. C. Cammarota, A. Cavagna, G. Gradenigo, T. S. Grigera, P. Verrocchio, Numerical Determination of the Exponents Controlling the Relationship between Time, Length, and Temperature in Glass-Forming Liquids. J. Chem. Phys. 131, 194901 (2009). [DOI | PDF | BibTeX]
  57. E. S. Loscar, E. E. Ferrero, T. S. Grigera, S. A. Cannas, Nonequilibrium Characterization of Spinodal Points Using Short Time Dynamics. J. Chem. Phys. 131, 024120 (2009). [DOI | PDF | BibTeX]
  58. G. Biroli, J. Bouchaud, A. Cavagna, T. S. Grigera, P. Verrocchio, Thermodynamic Signature of Growing Amorphous Order in Glass-Forming Liquids. Nature Phys. 4, 771–775 (2008). [DOI | PDF | BibTeX]
  59. A. Cavagna, T. S. Grigera, P. Verrocchio, Mosaic Multistate Scenario Versus One-State Description of Supercooled Liquids. Phys. Rev. Lett. 98, 187801 (2007). [DOI | PDF | BibTeX]
  60. T. S. Grigera, Geometrical Properties of the Potential Energy of the Soft-Sphere Binary Mixture. J. Chem. Phys. 124, 064502 (2006). [DOI | PDF | BibTeX]
  61. S. Ciliberti, T. S. Grigera, V. Martín-Mayor, G. Parisi, P. Verrocchio, Anderson Localization in Euclidean Random Matrices. Phys. Rev. B 71, 153104 (2005). [DOI | PDF | BibTeX]
  62. S. Ciliberti, T. S. Grigera, Localization Threshold of Instantaneous Normal Modes from Level-Spacing Statistics. Phys. Rev. E 70, 061502 (2004). [DOI | PDF | BibTeX]
  63. T. S. Grigera, V. Martín-Mayor, G. Parisi, P. Verrocchio, Asymptotic Aging in Structural Glasses. Phys. Rev. B 70, 014202 (2004). [DOI | PDF | BibTeX]
  64. A. Cavagna, I. Giardina, T. S. Grigera, Glass and Polycrystal States in a Lattice Spin Model. J. Chem. Phys. 118, 6974 (2003). [DOI | PDF | BibTeX]
  65. A. Cavagna, I. Giardina, T. S. Grigera, Glassy Dynamics, Metastability Limit and Crystal Growth in a Lattice Spin Model. Europhys. Lett. 61, 74–80 (2003). [PDF | BibTeX]
  66. A. Cavagna, I. Giardina, T. S. Grigera, A Single Saddle Model for the \(\beta\)-Relaxation in Supercooled Liquids. J. Phys. A: Math. Gen. 36, 10721 (2003). [PDF | BibTeX]
  67. S. Ciliberti, T. S. Grigera, V. Martín-Mayor, G. Parisi, P. Verrocchio, Brillouin and Boson Peaks in Glasses from Vector Euclidean Random Matrix Theory. J. Chem. Phys. 119, 8577 (2003). [DOI | PDF | BibTeX]
  68. T. S. Grigera, V. Martín-Mayor, G. Parisi, P. Verrocchio, Phonon Interpretation of the `boson Peak' in Supercooled Liquids. Nature 422, 289–292 (2003). [DOI | PDF | BibTeX]
  69. S. A. Grigera, T. S. Grigera, E. F. Righi, G. Nieva, de la F. Cruz, Flux-cutting in YBa\(_2\)Cu\(_3\)O\(_{7-\delta}\) revisited. Physica C: Superconductivity 371, 237–242 (2002). [PDF | BibTeX]
  70. T. S. Grigera, A. Cavagna, I. Giardina, G. Parisi, Geometric Approach to the Dynamic Glass Transition. Phys. Rev. Lett. 88, 055502 (2002). [DOI | PDF | BibTeX]
  71. T. S. Grigera, N. E. Israeloff, Numerical Study of Ageing in Coupled Two-Level Systems. Philos. Mag. B 82, 313–322 (2002). [PDF | BibTeX]
  72. T. S. Grigera, I. M. Irurzun, M. S. Cortizo, R. V. Figini, M. Marx-Figini, Unified Analysis of Thermodynamic and Rheological Properties of High Polymer Solutions. I. Binary Systems. Journal of Polymer Science Part B: Polymer Physics 40, 290–301 (2002). [DOI | PDF | BibTeX]
  73. T. S. Grigera, V. Martín-Mayor, G. Parisi, P. Verrocchio, Vibrational Spectra in Glasses. Philos. Mag. B 82, 637–649 (2002). [PDF | BibTeX]
  74. T. S. Grigera, V. Martín-Mayor, G. Parisi, P. Verrocchio, Vibrations in Glasses and Euclidean Random Matrix Theory. J. Phys.: Condens. Matter 14, 2167 (2002). [PDF | BibTeX]
  75. I. M. Irurzun, T. S. Grigera, M. S. Cortizo, R. V. Figini, M. Marx-Figini, Unified Analysis of Thermodynamic and Rheological Properties of High Polymer Solutions. II. Ternary Systems. J. Pol. Sci. B: Polym. Phys. 40, 1071–1079 (2002). [DOI | PDF | BibTeX]
  76. T. S. Grigera, G. Parisi, Fast Monte Carlo Algorithm for Supercooled Soft Spheres. Phys. Rev. E 63, 045102 (2001). [DOI | PDF | BibTeX]
  77. T. S. Grigera, V. Martín-Mayor, G. Parisi, P. Verrocchio, Vibrational Spectrum of Topologically Disordered Systems. Phys. Rev. Lett. 87, 085502 (2001). [DOI | PDF | BibTeX]
  78. T. S. Grigera, N. E. Israeloff, Observation of Fluctuation-Dissipation-Theorem Violations in a Structural Glass. Phys. Rev. Lett. 83, 5038–5041 (1999). [PDF | BibTeX]
  79. N. E. Israeloff, T. S. Grigera, Low-Frequency Dielectric Fluctuations near the Glass Transition. Europhys. Lett. 43, 308–313 (1998). [PDF | BibTeX]
  80. S. A. Grigera, T. S. Grigera, J. R. Grigera, Random Surface Deposition of Diffusing Dimers in Two Dimensions. Phys. Lett. A 226, 124–126 (1997). [PDF | BibTeX]
  81. T. S. Grigera, J. L. Alessandrini, Elastic Scattering from Diblock Copolymer Chains in Dilute Solution. J. Chem. Phys. 104, 6027–6035 (1996). [PDF | BibTeX]
  82. J. R. Grigera, T. S. Grigera, E. I. Howard, A. D. Podjarny, Molecular Dynamics Simulation of Crystal Water with X-Ray Constraints. Int. J. Quantum Chem. 21, (1994). [BibTeX]
  83. M. V. Ceressetto, T. S. Grigera, O'Donnel de B. Juárez Aráoz, J. Sandoval, M. Garavaglia, Sobre El Criterio de Resolución de Rayleigh Para Fuentes Policromáticas. Anales de la Asoc. Fís. Arg. 3, 192–195 (1991). [PDF | BibTeX]