Publications

2019

[73] G. Perfetto, L. Piroli, and A. Gambassi, Quench action and large deviations: work statistics in the one-dimensional Bose gas, Phys. Rev. E 100, 032114 (2019) (20 pages) [arXiv:1904.06259].

[72] P. P. Mazza, G. Perfetto, A. Lerose, M. Collura, and A. Gambassi, Suppression of transport in nondisordered quantum spin chains due to confined excitations, Phys. Rev. B 99, 180302(R) (2019) (6 pages) [arXiv:1806.09674]

[71] A. Lerose, B. Žunković, A. Silva, and A. Gambassi, Quasilocalized excitations induced by long-range interactions in translationally invariant quantum spin chains, Phys. Rev. B 99, 121112(R) (2019) (6 pages) [arXiv:1811.05513]

[70] A. Magazzù, A. Callegari, J. P. Staforelli, A. Gambassi, S. Dietrich, and G. Volpe, Controlling the dynamics of colloidal particles by critical Casimir forces, Soft Matter 15, 2152-2162 (2019) [arXiv:1806.11403]

[69] A. Lerose, B. Žunković, J. Marino, A. Gambassi, and A. Silva, Impact of non-equilibrium fluctuations on pre-thermal dynamical phase transitions in interacting spin chains, Phys. Rev. B 99, 045128 (2019) (28 pages) [arXiv:1807.09797]

2018

[68] M. Gross, A. Gambassi, and S. Dietrich, Surface-induced nonequilibrium dynamics and critical Casimir forces for model B in film geometry, Phys. Rev. E 98, 032103 (2018) (Editors' Suggestion, 18 pages) [arXiv:1806.08861]

[67] A. Lerose, J. Marino, B. Žunković, A. Gambassi, and A. Silva, Chaotic dynamical ferromagnetic phase induced by non-equilibrium quantum fluctuations, Phys. Rev. Lett. 120, 130603 (2018) (5 pages) [arXiv:1706.05062]

2017

[66] V. Volpati, U. Basu, S. Caracciolo, and A. Gambassi, Universal Gaussian behavior of driven lattice gases at short times, Phys. Rev. E 96, 052136 (2017) (Editors' Suggestion, 12 pages) [arXiv:1708.07035]

[65] J. De Nardis, M. Panfil, A. Gambassi, L. F. Cugliandolo, R. Konik, and L. Foini, Probing non-thermal density fluctuations in the one-dimensional Bose gas, SciPost Phys. 3, 023 (2017) (27 pages [arXiv:1704.06649]

[64] M. Gross, A. Gambassi, and S. Dietrich, Statistical field theory with constraints: Application to critical Casimir forces in the canonical ensemble, Phys. Rev. E 96, 022135 (2017) (37 pages) [arXiv:1705.11012]

[63] C. M. Rohwer, A. Gambassi, and M. Krüger, Viscosity of a sheared correlated (near-critical) model fluid in confinement, J. Phys.: Condens. Matter 29, 335101 (2017) (16 pages) [arXiv:1702.01064]

[62] G. Perfetto and A. Gambassi, Ballistic front dynamics after joining two semi-infinite quantum Ising chains, Phys. Rev. E 96, 012138 (2017) (22 pages) [arXiv:1704.03437]

[61] L. Foini, A. Gambassi, R. Konik, and L. F. Cugliandolo, Measuring effective temperatures in a generalized Gibbs ensemble, Phys. Rev. E 95, 052116 (2017) (8 pages) [arXiv:1610.00101].

[60] A. Chiocchetta, A. Gambassi, S. Diehl, and J. Marino, Dynamical crossovers in prethermal critical states, Phys. Rev. Lett. 118, 135701 (2017) (5 pages) [arXiv:1612.02419]

[59] U. Basu, V. Volpati, S. Caracciolo, and A. Gambassi, Short-time behaviour and criticality of driven lattice gases, Phys. Rev. Lett. 118, 050602 (2017) (5 pages) [arXiv:1607.01689]

2016

[58] M. Marcuzzi, J. Marino, A. Gambassi, and A. Silva, Prethermalization from a low-density Holstein-Primakoff expansion, Phys. Rev. B 94, 214304 (2016) (15 pages) [arXiv:1609.06361]

[57] A. Chiocchetta, A. Gambassi, S. Diehl, and J. Marino, Universal short-time dynamics: Boundary functional renormalization group for a temperature quench, Phys. Rev. B 94, 174301 (2016) (18 pages) [arXiv:1606.06272].

[56] A. Chiocchetta, M. Tavora, A. Gambassi, and A. Mitra, Short-time universal scaling and light-cone dynamics after a quench in an isolated quantum system in d spatial dimensions, Phys. Rev. B 94, 134311 (2016) (31 pages) [arXiv:1604.04614]

[55] M. Gross, O. Vasilyev, A. Gambassi, and S. Dietrich, Critical adsorption and critical Casimir forces in the canonical ensemble, Phys. Rev. E 94, 022103 (2016) (44 pages) [arXiv:1603.08804]

[54] A. Belenchia, A. Gambassi, and S. Liberati, Lorentz violation naturalness revisited, JHEP 06 (2016) 049 (32 pages) [arXiv:1601.06700]

[53] S. Paladugu, A. Callegari, Y. Tuna, L. Barth, S. Dietrich, A. Gambassi, and G. Volpe, Nonadditivity of critical Casimir forces, Nature Comm. 7, 11403 (2016) (8 pages) [arXiv:1511.02613]

2015

[52] L. M. Sieberer, A. Chiocchetta, A. Gambassi, U. C. Tauber, and S. Diehl, Thermodynamic equilibrium as a symmetry of the Schwinger-Keldysh action, Phys. Rev. B 92, 134307 (2015) (22 pages) [arXiv:1505.00912].

[51] A. Maraga, A. Chiocchetta, A. Mitra, and A. Gambassi, Aging and coarsening in isolated quantum systems after a quench: Exact results for the quantum O(N) model with N → ∞, Phys. Rev. E 92, 042151 (2015) (14 pages) [arXiv:1506.04528]

[50] A. Chiocchetta, M. Tavora, A. Gambassi, and A. Mitra, Short-time universal scaling in an isolated quantum system after a quench, Phys. Rev. B 91, 220302(R) (2015) (5 pages) [arXiv:1411.7939].

[49] P. Lombardo, A. Gambassi, and L. Dall'Asta, Fixation properties of subdivided populations with balancing selection, Phys. Rev. E 91, 032130 (2015) (16 pages) [arXiv:1407.4656].

2014

[48] M. Marcuzzi and A. Gambassi, Critical relaxation and the combined e ects of spatial and temporal boundaries, Condens. Matter Phys. 17, 33603 (2014) (14 pages) [arXiv:1407.6606]

[47] M. Marcuzzi and A. Gambassi, Response functions after a quantum quench, Phys. Rev. B 89, 134307 (2014) (8 pages) [arXiv:1308.4665]

[46] P. Lombardo, A. Gambassi, and L. Dall'Asta, Nonmonotonic effects of migration in subdivided populations, Phys. Rev. Lett. 112, 148101 (2014) (5 pages) [arXiv:1310.5072]

2013

[45] M. Marcuzzi, J. Marino, A. Gambassi, and A. Silva, Pre-thermalization in a non-integrable quantum spin chain after a quench, Phys. Rev. Lett. 111, 197203 (2013) (5 pages) [arXiv:1307.3738].

[44] A. Furukawa, A. Gambassi, S. Dietrich, and H. Tanaka, Nonequilibrium critical Casimir effect in binary fluids, Phys. Rev. Lett. 111, 055701 (2013) (5 pages) [arXiv:1306.6745].

[43] S. Sotiriadis, A. Gambassi, and A. Silva, Statistics of the work done by splitting a one-dimensional quasicondensate, Phys. Rev. E 87, 052129 (2013) (18 pages) [arXiv:1303.0782]

2012

[42] A. Gambassi and A. Silva, Large deviations and universality in quantum quenches, Phys. Rev. Lett. 109, 250602 (2012) (5 pages) [arXiv:1210.3341]

[41] M. Marcuzzi, A. Gambassi, and M. Pleimling, Collective non-equilibrium dynamics at surfaces and the spatio-temporal edge, EPL 100 (2012) 46004 (5 pages) [arXiv:1210.7124]

[40] L. Foini, L. F. Cugliandolo, and A. Gambassi, Dynamic correlations, fluctuation-dissipation relations, and effective temperatures after a quantum quench of the transverse field Ising chain, J. Stat. Mech.: Theor. Exp. P09011 (2012) (64 pages) [arXiv:1207.1650]

[39] M. Bier, A. Gambassi, and S. Dietrich, Local theory for ions in binary liquid mixtures, J. Chem. Phys. 137, 034504 (2012) (15 pages) [arXiv:1204.6137]

[38] J. Bonart, L. F. Cugliandolo, and A. Gambassi, Critical Langevin dynamics of the O(N)-Ginzburg-Landau model with correlated noise, J. Stat. Mech.: Theor. Exp. P01014 (2012) (41 pages) [arXiv:1109.4107]

2011

[37] L. Foini, L. F. Cugliandolo, and A. Gambassi, Fluctuation-dissipation relations and critical quenches in the transverse field Ising chain, Phys. Rev. B 84, 212404 (2011) (4 pages) [arXiv:1107.5956]

[36] A. Gambassi and P. Calabrese, Quantum quenches as classical critical films, EPL 95 (2011) 66007 (6 pages) [arXiv:1012.5294]

[35] M. Bier, A. Gambassi, M. Oettel, and S. Dietrich, Electrostatic interaction in critical solvents, EPL 95 (2011) 60001 (5 pages) [arXiv:1104.5703]

[34] M. Tröndle, O. Zvyagolskaya, A. Gambassi, D. Vogt, L. Harnau, C. Bechinger, and S. Dietrich, Trapping colloids near chemical stripes via critical Casimir forces, Mol. Phys. 109, 1169-1185 (2011) [arXiv:1012.0181]

2010

[33] A. Gambassi and S. Dietrich, Critical Casimir forces steered by patterned substrates, Soft Matter 7 (4), 1247-1253 (2011) [arXiv:1011.1831] (invited highlight)

[32] A. Gambassi, R. Paul, and G. Schehr, Dynamic crossover in the persistence probability of manifolds at criticality, J. Stat. Mech.: Theor. Exp. (2010) P12029 (32 pages) [arXiv:1010.0560]

[31] A. Gambassi and S. Dietrich, Colloidal aggregation and critical Casimir forces, Phys. Rev. Lett. 105, 059601 (2010) (1 page) [arXiv:1006.5897], comment on Phys. Rev. Lett.103, 156101 (2009)

[30] M. Tröndle, S. Kondrat, A. Gambassi, L. Harnau, and S. Dietrich, Critical Casimir effect for colloids close to chemically patterned substrates, J. Chem. Phys. 133, 074702 (2010) (27 pages) [arXiv:1005.1182]

2009

[29] A. Gambassi, A. Maciolek, C. Hertlein, U. Nellen, L. Helden, C. Bechinger, and S. Dietrich, Critical Casimir effect in classical binary liquid mixtures, Phys. Rev. E 80, 061143 (2009) (27 pages) [arXiv:0908.1795] (selected for a Physics Synopsis)

[28] M. Tröndle, S. Kondrat, A. Gambassi, L. Harnau, S. Dietrich, Normal and lateral critical Casimir forces between colloids and patterned substrates, EPL 88 (2009) 40004 (6 pages) [arXiv:0903.2113].

[27b] O. Vasilyev, A. Gambassi, A. Maciolek, and S. Dietrich, Erratum: Universal scaling functions of critical Casimir forces obtained by Monte Carlo simulations [Phys. Rev. E 79, 041142 (2009)], Phys. Rev. E 80, 039902(E) (2009) (1 page)

[27a] O. Vasilyev, A. Gambassi, A. Maciolek, and S. Dietrich, Universal scaling functions of critical Casimir forces obtained by Monte Carlo simulations, Phys. Rev. E 79, 041142 (2009) (21 pages) [arXiv:0812.0750].

2008

[26] F. Corberi, A. Gambassi, E. Lippiello, and M. Zannetti, The non-equilibrium response of the critical Ising model: Universal scaling properties and Local Scale Invariance, J. Stat. Mech.: Theor. Exp. P02013 (2008) (21 pages) [arXiv:0711.1527]

[25] C. Hertlein, L. Helden, A. Gambassi, S. Dietrich, and C. Bechinger, Direct measurement of critical Casimir forces, Nature 451, 172-175 (10 January 2008). Accompanied by a News and Views by S. Balibar, Nature 451, 136-137. Press release

2007

[24] O. Vasilyev, A. Gambassi, A. Maciolek, and S. Dietrich, Monte Carlo simulation results for critical Casimir forces, Europhys. Lett. 80, 60009 (2007) (6 pages) [arXiv:0708.2902]

[23] C. Dotti, A. Gambassi, M. N. Popescu, and S. Dietrich, Spreading in narrow channels, Phys. Rev. E 76, 041127 (2007) (15 pages) [cond-mat/0701722]

[22] A. Maciolek, A. Gambassi, and S. Dietrich, Critical Casimir effect in superfluid wetting films, Phys. Rev. E 76, 031124 (2007) (17 pages) [cond-mat/0705.1064]

[21] R. Paul, A. Gambassi, and G. Schehr, Dynamic crossover in the global persistence at criticality, Europhys. Lett. 78, 10007 (2007) (5 pages) [cond-mat/0612656]

[20] P. Calabrese and A. Gambassi, Slow dynamics in critical ferromagnetic vector models relaxing from a magnetized initial state, J. Stat. Mech.: Theor. Exp. P01001 (2007) (40 pages) [cond-mat/0610266]

[19] F. Baumann and A. Gambassi, Ageing and the contact process: Scaling behaviour and universal features, J. Stat. Mech.: Theor. Exp. P01002 (2007) (18 pages) [cond-mat/0610260]

2006

[18] P. Calabrese, A. Gambassi, and F. Krzakala, Critical ageing of Ising ferromagnets relaxing from an ordered state, J. Stat. Mech.: Theor. Exp. P06016 (2006) (35 pages) [cond-mat/0604412]

[17] A. Gambassi and S. Dietrich, Relation between the thermodynamic Casimir effect in Bose-gas slabs and critical Casimir forces, Europhys. Lett. 74 (4), 754-755 (2006) [cond-mat/0602630]; comment on Europhys. Lett. 73 (2006) 1

[16] A. Gambassi and S. Dietrich, Critical dynamics in thin films, J. Stat. Phys. 123 (5), 929-1005 (2006) [cond-mat/0509770]

2005

[15] S. Caracciolo, A. Gambassi, M. Gubinelli, and A. Pelissetto, Critical Behavior of the Two-Dimensional Randomly Driven Lattice Gas, Phys. Rev. E 72, 066111 (2005) (4 pages) [cond-mat/0507614]

[14] M. Pleimling and A. Gambassi, Corrections to local scale invariance in the non-equilibrium dynamics of critical systems: numerical evidences, Phys. Rev. B 71, 180401(R) (2005) (4 pages) [cond-mat/0501483]

[13] P. Calabrese and A. Gambassi, Ageing Properties of Critical Systems, J. Phys. A: Math. Gen. 38 (2005) R133-R193 [cond-mat/0410357] (invited topical review)

2004

[12] P. Calabrese and A. Gambassi, On the definition of a unique effective temperature for non-equilibrium critical systems, J. Stat. Mech.: Theor. Exp. P07013 (2004) (31 pages) [cond-mat/0406289]

[11] S. Caracciolo, A. Gambassi, M. Gubinelli, and A. Pelissetto, Reply to “Comments to the letter Transverse fluctuations in the driven lattice gas” by E. V. Albano, J. Phys. A: Math. Gen. 37 (2004) 8193-8195 ; reply to J. Phys. A: Math. Gen. 37 (2004) 8189-8191

[10] S. Caracciolo, A. Gambassi, M. Gubinelli, and A. Pelissetto, Comment on “Dynamic behavior of anisotropic non-equilibrium driving lattice gases”, Phys. Rev. Lett. 92, 029601 (2004) (1 page); comment on Phys. Rev. Lett. 88, 016103 (2002)

[9] S. Caracciolo, A. Gambassi, M. Gubinelli, and A. Pelissetto, Finite-Size Scaling in the Driven Lattice Gas, J. Stat. Phys. 115, 281-322 (2004) [cond-mat/0312175]

2003

[8] S. Caracciolo, A. Gambassi, M. Gubinelli, and A. Pelissetto, Shape dependence of the finite-size scaling limit in a strongly anisotropic O(∞) model, Eur. Phys. J. B 34, 205-217 (2003) [cond-mat/0304297]

[7] S. Caracciolo, A. Gambassi, M. Gubinelli, and A. Pelissetto, Transverse Fluctuations in the Driven Lattice Gas, J. Phys. A: Math. Gen. 36 (2003) L315-L320 [cond-mat/0211669]

[6] P. Calabrese and A. Gambassi, Aging at criticality in Model C dynamics, Phys. Rev. E 67, 036111 (2003) (7 pages) [cond-mat/0211062]

2002

[5] P. Calabrese and A. Gambassi, Aging and fluctuation-dissipation ratio for the diluted Ising Model, Phys. Rev. B 66, 212407 (2002) (4 pages) [cond-mat/0207487]

[4] P. Calabrese and A. Gambassi, Two-loop Critical Fluctuation-Dissipation Ratio for the Relaxational Dynamics of the O(N) Landau-Ginzburg Hamiltonian, Phys. Rev. E 66, 066101 (2002) (12 pages) [cond-mat/0207452]

[3] P. Calabrese and A. Gambassi, Aging in ferromagnetic systems at criticality near four dimensions, Phys. Rev. E 65, 066120 (2002) (6 pages) [cond-mat/0203096]