Papers

Particle number dependence in the non-linear evolution of N-body
self-gravitating systems, D. Benhaiem, M. Joyce, F. Sylos Labini, T. Worrakitpoonpon, Mon.Not.R.Acad.Soc in the press 2017
Formation and relaxation of quasi-stationary states in particle systems with power law interactions, Bruno Marcos, Andrea Gabrielli, Michael Joyce, submitted to Phys.Rev.E (2017)
Formation of satellites from cold collapse, David Benhaiem, Francesco Sylos Labini Astronomy and Astrophysics 598, A95 (2017)
Attractor non-equilibrium stationary states in perturbed long-range interacting systems Michael Joyce, Jules Morand, Pascal Viot, Phys. Rev. E 93, 052129 (2016)
Stable clustering and the resolution of dissipationless cosmological N-body simulations David Benhaiem, Michael Joyce, Francesco Sylos Labini, Mon.Not.R.Acad.Soc in the press 2017
Angular momentum generation in cold gravitational collapse, D. Benhaiem, M. Joyce, F. Sylos Labini, T. Worrakitpoonpon, Astronomy and Astrophysics 585, A139 (2016)
Violent relaxation of ellipsoidal clouds, David Benhaiem, Francesco Sylos Labini, MNRAS 448, 2634–2643 (2015)
On the generation of triaxiality in the collapse of cold spherical self-gravitating systems Francesco Sylos Labini, David Benhaiem, Michael Joyce, MNRAS (June 01, 2015) 449 (4): 4458-4464
Particle ejection during mergers of dark matter halos, Isabella P. Carucci, Martin Sparre, Steen H. Hansen, Michael Joyce, JCAP06(2014)057
A toy model to test the accuracy of cosmological N-body simulations, Francesco Sylos Labini, Astronomy & Astrophysics, Volume 552, id.A36, 16 pp 2013
Scaling quasi-stationary states in long range systems with dissipation, Michael Joyce, Jules Morand, François Sicard, Pascal Viot, Phys. Rev. Lett, 2013
Self-similarity and stable clustering in a family of scale-free cosmologies, David Benhaiem, Michael Joyce, Bruno Marcos, MNARS 2013
Exponents of non-linear clustering in scale-free one dimensional cosmological simulations David Benhaiem, Michael Joyce, François Sicard, Monthly Notices Royal Astronomic Society (03/2013)
Universal properties of violently relaxed gravitational structures, Francesco Sylos Labini, MNRAS (February 11, 2013) 429 (1): 679-687
Evolution of isolated overdensities as a control on cosmological N body simulations, Michael Joyce, Francesco Sylos Labini, MNRAS (February 21, 2013) 429 (2): 1088-1101
Violent and mild relaxation of an isolated self-gravitating uniform and spherical cloud of particles, Francesco Sylos Labini, Mon. Not. R. Astron. Soc. 423, 1610 – 1622 (2012)
Cold uniform spherical collapse revisited, M. Joyce, B. Marcos, F. Sylos Labini, proceedings of “Invisible Universe” conference, Paris, July 2009
Quasi-stationary states in the self-gravitating sheet model, Michael Joyce, Tirawut Worrakitpoonpon, Phys. Rev. E 2010
Non-linear gravitational clustering of cold matter in an expanding universe: indications from 1D toy models, Michael Joyce, François Sicard, Mon.Not.Astron.Soc. 2010
Quasi-stationary states and the range of pair interactions, Andrea Gabrielli, Michael Joyce, Bruno Marcos, Phys.Rev.Lett.105:210602,2010
Relaxation to thermal equilibrium in the self-gravitating sheet model, Michael Joyce, Tirawut Worrakitpoonpon, J.Stat.Mech.1010:P10012,2010
A dynamical classification of the range of pair interactions, Andrea Gabrielli, Michael Joyce, Bruno Marcos, Francois Sicard, J. Stat. Phys (2010)
Dynamics of finite and infinite self-gravitating systems with cold quasi-uniform initial conditions, M. Joyce, B. Marcos, F. Sylos Labini, Journal of Statistical Mechanics, 2009, P04019
Energy ejection in the collapse of a cold spherical self-gravitating cloud,M. Joyce, B. Marcos, F. Sylos Labini, Mon.Not.R.Astron.Soc. (2008)
1-d gravity in infinite point distributions, Andrea Gabrielli, Michael Joyce, Francois Sicard, Phys.Rev.E (2008)
Gravitational clustering: an overview, Francesco Sylos Labini, Chapter of the volume “Dynamics and Thermodynamics of systems with long range interactions: theory and experiments”, A. Campa, A. Giansanti, G. Morigi, F. Sylos Labini Eds., American Institute of Physics Conference proceedings, 970 (2008).
Cosmological simulations of structure formation and the Vlasov equation
Michael Joyce, Commun.NonlinearSci.Numer.Simul.13:100,2008
Infinite self-gravitating systems and cosmological structure formation, Michael Joyce, American Institute of Physics Conference proceedings, 970 (2008).
Towards quantitative control on discreteness error in the non-linear regime of cosmological N body simulations, Michael Joyce, Bruno Marcos, Thierry Baertschiger, Mon.Not.R.Astron.Soc, 2008
Gravitational dynamics of an infinite shuffled lattice: early time evolution and universality of non-linear correlations, Thierry Baertschiger, Michael Joyce, Francesco Sylos Labini, Bruno Marcos, Phys.Rev.E, 2008
Quantification of discreteness effects in cosmological N-body simulations: II. Evolution up to shell crossing, Michael Joyce, Bruno Marcos, Phys.Rev.D76:103505,2007
Gravitational Dynamics of an Infinite Shuffled Lattice: Particle Coarse-grainings, Non-linear Clustering and the Continuum Limit, T. Baertschiger, M. Joyce, A. Gabrielli, F. Sylos Labini, Phys.Rev.E76:011116,2007
Force distribution in a randomly perturbed lattice of identical particles with 1/r2 pair interaction, A. Gabrielli, T. Baertschiger, M. Joyce, B. Marcos, F. Sylos Labini, Phys.Rev. E74 (2006) 021110
An alternative to grids and glasses: Quaquaversal pre-initial conditions for N-body simulations, Steen H. Hansen, Oscar Agertz, Michael Joyce, Joachim Stadel, Ben Moore, Doug Potter, Astrophys.J.656:631-635,2007
Linear perturbative theory of the discrete cosmological N-body problem, B. Marcos, T. Baertschiger, M. Joyce, A. Gabrielli, F. Sylos Labini, Phys.Rev. D73 (2006) 103507
Gravitational Structure Formation, Francesco Sylos Labini, Thierry Baertschiger, Procedings of the conference “Few-Body Problem: Theory and Computer Simulations
Gravitational evolution of a perturbed lattice and its fluid limit, M. Joyce, B. Marcos, A. Gabrielli, T. Baertschiger, F. Sylos Labini, Phys.Rev.Lett. 95 (2005) 011304
Growth of correlations in gravitational N-body simulations, Thierry Baertschiger, Francesco Sylos Labini, Phys.Rev. D69 (2004) 123001
A method of generating initial conditions for cosmological N body simulations, M. Joyce, D. Levesque, B. Marcos, Phys.Rev. D72 (2005) 103509
Quantification of discreteness effects in cosmological N-body simulations: I. Initial Conditions, Michael Joyce, Bruno Marcos, Mon.Not.R.Acad.Soc (2005)
Causality constraints on fluctuations in cosmology: a study with exactly solvable one dimensional models, A. Gabrielli, M. Joyce, B. Marcos, P. Viot Europhys. Lett (2004)
Reply to the comment on ”On the problem of initial conditions in cosmological N-body simulations”, Thierry Baertschiger, Francesco Sylos Labini, Europhys.Lett.63:633-634,2003
Gravitational force in weakly correlated particle distributions, Andrea Gabrielli, Adolfo Paolo Masucci, Francesco Sylos Labini, Phys.Rev. E69 (2004) 031110
Initial conditions, Discreteness and non-linear structure formation in cosmology, Francesco Sylos Labini, Thierry Baertschiger, Andrea Gabrielli, Michael Joyce, Proceedings of 9th Course on Astrofundamental Physics, International School D. Chalonge, Kluwer, eds N.G. Sanchez and Y.M. Pariiski
Real space statistical properties of standard cosmological models, Andrea Gabrielli, Michael Joyce, Francesco Sylos Labini, proceedings of the 7th Granada Seminar of Computational and Statistical Physics (2002, Spain)
Generation of Primordial Cosmological Perturbations from Statistical Mechanical Models, A. Gabrielli, B. Jancovici, M. Joyce, J. L. Lebowitz, L. Pietronero, F. Sylos Labini, Phys.Rev.D67:043506,2003
Universality of power law correlations in gravitational clustering, Francesco Sylos Labini, Thierry Baertschiger, Michael Joyce, Europhys.Lett. 66 (2004) 171-177
Power-law correlation and discreteness in cosmological N-body simulations, Thierry Baertschiger, Michael Joyce, Francesco Sylos Labini, Astrophys.J. 581 (2002) L63-L66
The Glass-like Universe: Real-space correlation properties of standard cosmological models, Andrea Gabrielli, Michael Joyce, Francesco Sylos Labini, Phys.Rev.D65:083523,2002
On the problem of initial conditions in cosmological N-body simulations, Thierry Baertschiger, Francesco Sylos Labini, Europhys.Lett.57:322-328,2002

Papers

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