Mass-radius relation of Newtonian self-gravitating Bose-Einstein condensates with short-range interactions: I. Analytical results PH Chavanis arXiv preprint arXiv:1103.2050, 2011 | 479 | 2011 |

Statistical mechanics of two-dimensional vortices and collisionless stellar systems PH Chavanis, J Sommeria, R Robert The Astrophysical Journal 471 (1), 385, 1996 | 328 | 1996 |

Mass-radius relation of Newtonian self-gravitating Bose-Einstein condensates with short-range interactions: II. Numerical results PH Chavanis, L Delfini arXiv preprint arXiv:1103.2054, 2011 | 285 | 2011 |

Phase transitions in self-gravitating systems PH Chavanis International Journal of Modern Physics B 20 (22), 3113-3198, 2006 | 260 | 2006 |

Generalized thermodynamics and Fokker-Planck equations: Applications to stellar dynamics and two-dimensional turbulence PH Chavanis Physical review E 68 (3), 036108, 2003 | 248 | 2003 |

Bose-Einstein condensate general relativistic stars PH Chavanis, T Harko Physical Review D 86 (6), 064011, 2012 | 198 | 2012 |

Trapping of dust by coherent vortices in the solar nebula PH Chavanis arXiv preprint astro-ph/9912087, 1999 | 197 | 1999 |

Particle aggregation in a turbulent Keplerian flow A Bracco, PH Chavanis, A Provenzale, EA Spiegel Physics of Fluids 11 (8), 2280-2287, 1999 | 193 | 1999 |

Gravitational instability of finite isothermal spheres PH Chavanis Astronomy & Astrophysics 381 (1), 340-356, 2002 | 185 | 2002 |

Thermodynamics of self-gravitating systems PH Chavanis, C Rosier, C Sire Physical Review E 66 (3), 036105, 2002 | 179 | 2002 |

Cosmology with a stiff matter era PH Chavanis Physical Review D 92 (10), 103004, 2015 | 177 | 2015 |

Phase transitions in self-gravitating systems: Self-gravitating fermions and hard-sphere models PH Chavanis Physical Review E 65 (5), 056123, 2002 | 174 | 2002 |

Nonlinear mean field Fokker-Planck equations. Application to the chemotaxis of biological populations PH Chavanis The European Physical Journal B 62, 179-208, 2008 | 170 | 2008 |

Growth of perturbations in an expanding universe with Bose-Einstein condensate dark matter PH Chavanis Astronomy & Astrophysics 537, A127, 2012 | 167 | 2012 |

Thermodynamics and collapse of self-gravitating Brownian particles in D dimensions C Sire, PH Chavanis Physical Review E 66 (4), 046133, 2002 | 166 | 2002 |

Classification of self-organized vortices in two-dimensional turbulence: the case of a bounded domain PH Chavanis, J Sommeria Journal of Fluid Mechanics 314, 267-297, 1996 | 161 | 1996 |

First star-forming structures in fuzzy cosmic filaments P Mocz, A Fialkov, M Vogelsberger, F Becerra, MA Amin, S Bose, ... Physical review letters 123 (14), 141301, 2019 | 156 | 2019 |

Statistical mechanics of two-dimensional vortices and stellar systems PH Chavanis Dynamics and thermodynamics of systems with long-range interactions, 208-289, 2002 | 146 | 2002 |

Schrödinger-Poisson–Vlasov-Poisson correspondence P Mocz, L Lancaster, A Fialkov, F Becerra, PH Chavanis Physical Review D 97 (8), 083519, 2018 | 145 | 2018 |

Maximum entropy principle explains quasistationary states in systems with long-range interactions: The example of the Hamiltonian mean-field model A Antoniazzi, D Fanelli, J Barré, PH Chavanis, T Dauxois, S Ruffo Physical Review E 75 (1), 011112, 2007 | 136 | 2007 |