Publications en lien avec l’action Gphys :


  1. Global numerical simulations of the rise of vortex-mediated pulsar glitches in full general relativity, Sourie et al, MNRAS 464 (2017) 4641


  1. 21 year timing of the black-widow pulsar J2051-0827, Shaifullah, G. et al 2016, MNRAS 462, 1029
  2. On the maximum mass of magnetised white dwarfs, Chatterjee et al, arxiv:1610.03987
  3. Numerical models for stationary superfluid neutron stars in general relativity with realistic equations of state, Sourie et al, Phys. Rev. D 93 (2016) no.8, 083004
  4. A glitch in the millisecond pulsar J0613-0200, McKee, J. et al 2016, MNRAS 461, 2809
  5. A millisecond pulsar in an extremely wide binary system, Bassa, C. et al 2016, MNRAS 460, 2207
  6. The noise properties of 42 millisecond pulsars from the European Pulsar Timing Array and their impact on gravitational-wave searches, Caballero et al 2016, MNRAS 457, 4421
  7. High-precision timing of 42 millisecond pulsars with the European Pulsar Timing Array, Desvignes et al 2016, MNRAS in press, arXiv:1602.08511
  8. From Spin Noise to Systematics : Stochastic Processes in the First International Pulsar Timing Array Data Release, Lentati et al 2016, MNRAS 458, 2161
  9. The International Pulsar Timing Array : First Data Release, Verbiest et al 2016, MNRAS 458, 1267
  10. European Pulsar Timing Array limits on continuous gravitational waves from individual supermassive black hole binaries, Babak et al 2016, MNRAS 455, 1665
  11. Single-Source Gravitational Wave Limits From the J1713+0747 24-hr Global Campaign, Dolch et al 2016, Journal of Physics : Conference Series, Volume 716, Issue 1, article id. 012014
  12. Nonperturbative renormalization group for scalar fields in de Sitter space : beyond
    the local potential approximation
    , M. Guilleux and J. Serreau, arxiv : 1611.08106
  13. The nonperturbative renormalization group for quantum field theory in de Sitter
    space, M. Guilleux, PhD Thesis, HAL Id : tel-01399798
  14. Neutrino flavor evolution in a binary neutron star merger remnants, Frensel et al, arXiv:1607.05938.
  15. Helicity coherence in binary neutron star mergers and non-linear feedback, Chatelain and Volpe, arXiv:1611.01862.
  16. Lorentz symmetry and Very Long Baseline Interferometry, Le Poncin-Lafitte et al, arxiv:1604.01663.
  17. Testing Lorentz symmetry with Lunar Laser Ranging, Bourgoin et al Phys. Rev. Lett. 117 (2016) 241301
  18. Tests of Lorentz symmetry in the gravitational sector, Hees et al, Universe 2016, 2(4), 30 ; doi:10.3390/universe2040030
  19. Constraints on SME Coefficients from Lunar Laser Ranging, Very Long Baseline Interferometry, and Asteroid Orbital Dynamics, Le Poincin-Lafitte et al, arxiv:1607.07394
  20. Constraints on the location of a
    possible 9th planet derived from the Cassini data
    , Fienga et al , 2016, Astronomy and Astrophysics 587, L8


  1. Consistent neutron star models with magnetic field dependent equations of state D. Chatterjee et al., MNRAS 447 (2015) 3785
  2. Test of the gravitational redshift with
    stable clocks in eccentric orbits : application to Galileo satellites 5 and 6.
    , P. Delva et al., Class. Quantum Grav. 32, 232003 (2015).
  3. Testing Lorentz symmetry with planetary orbital dynamics, A. Hees et al., Phys. Rev. D 92 (2015)
  4. Quantum scalar fields in de Sitter space from the nonperturbative
    renormalization group
    , M. Guilleux and J. Serreau, Phys. Rev. D92 (2015) 084010.
  5. Scalar field correlator in de Sitter space at next-to-leading order in a
    1/N expansion
    , F. Gautier and J. Serreau, Phys. Rev. D92 (2015) 105035.
  6. European Pulsar Timing Array limits on an isotropic stochastic gravitational- wave background, L. Lentati et al, MNRAS 453 (2015) 2576.
  7. Limits on Anisotropy in the Nanohertz Stochastic Gravitational Wave Background,R.S. Taylor et al, Phys. Rev. Lett. 115 (2015) 041101.


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