Articles publis [liste sur SPIRES]
A148 Lensing-letter
[arXiv:2001.06153]
P. Fleury, J. Larena,
and J.-P. Uzan
A147 Lensing-long
[arXiv:2001.06153]
P. Fleury, J. Larena,
and J.-P. Uzan
A146 MICROSCOPE constraint on a chameleon
fifth force
[arXiv:2001.xxxx]
J. Berge, M. Pernot-Borras,
J.-P. Uzan, et al.
Class. Quant. Grav.
(sublmitted)
A145 MICROSCOPE constraint on a short-range fifth force
[arXiv:2001.xxxx]
J. Berge, M. Pernot-Borras,
J.-P. Uzan, et al.
Class.
Quant. Grav. (submitted)
A144 Climbing up the theories of Nature:
fine tuning and biological molecules
J.-P. Uzan, G.F.R. Ellis, and D. Sloan
in Fine tuning in the physical universe, Eds. D. Sloan, R. Alves Batista,
M. Townsen Hicks and R. Davies, pp. 511-538
(Cambridge University
Press, Cambridge, 2020).
A143 Nuclear physics and its impact on primordial and stellar
nucleosynthesis
J.-P. Uzan
in Fine tuning in the physical universe, Eds. D. Sloan, R. Alves Batista,
M. Townsen Hicks and R. Davies, pp. 237-306
(Cambridge University
Press, Cambridge, 2020).
A142 Effects of a scalar fifth force on the dynamics of a charged particle as a new experimental design to test chameleon
theories
[arXiv:2006.03359]
J.-P. Uzan, J. Berg, and M. Pernot-Borrs,
Phys. Rev. D (submitted)
A141 Consistent black-to-white hole bounces from matter
collapse
J. Ben Achour, S. Brahma, S. Mukhoyama, and J.-P. Uzan
JCAP (in the press)
A140 Fifth force induced by a chameleon field on nested cylinders
M. Pernot-Borras,
J. Berge, P. Brax, and J.-P. Uzan,
Phys. Rev.
D (in the press)
A139 Bouncing compact objects II:
Effective theory of a pulsating
Planck star
J. Ben
Achour, and J.-P. Uzan,
JCAP (submitted)
A138 Bouncing compact objects I :
Quantum extension of the Oppenheimer-Snyder collapse
J. Ben
Achour, S. Brahma and J.-P. Uzan,
JCAP 03, 041
(2020)
A137 A unified view of
anisotropies in the astrophysical gravitational
wave background
C. Pitrou, G. Cusin, and J.-P. Uzan,
Phys. Rev. D 101,
081301 (2020)
A136 The local dark
sector. Probing gravitation's low-acceleration frontier and dark matter in the Solar System neighborhood (White paper ESA voyage 2050 call)
J. Berg et al.
Experimental astronomy (submitted).
A135 General study of chameleon fifth force in gravity space experiments
J. Berg, P.
Brax, M. Pernot-Borras, and
J.-P. Uzan,
Phys. Rev. D 100,
084006 (2019)
A134 Is the universe in a swampland crisis ?
[arXiv:1907.xxxx]
G.F.R. Ellis, J. Silk, and J.-P.
Uzan,
Phys. Today (Submitted)
A133 Properties of the stochastic astrophysical gravitational wave background : astrophysical
sources dependencies
G. Cusin, I. Dvorkin, C. Pitrou, and J.-P. Uzan
Phys. Rev. D 100, 063004 (2019).
A132 Stochastic gravitational wave background anisotropies in the mHz
band : astrophysical dependencies
G. Cusin, I. Dvorkin, C. Pitrou, and J.-P. Uzan
Month. Not. R. Astron. Soc. Lett.
493, L1 (2020)
G. Cusin, I. Dvorkin, C. Pitrou, and J.-P. Uzan
A130 Weak lensing beyond shear
P. Fleury, J. Larena, and J.-P. Uzan
Phys. Rev. D 99,
023526 (2019).
A129 Cosmic
convergence and shear with extended sources
P. Fleury, J. Larena, and J.-P. Uzan
Phys. Rev. D 99,
023525 (2019).
A128 Interpretation of geodesy experiments in non-Newtonian theories of gravity
J. Berg, P.
Brax, M. Pernot-Borras, and
J.-P. Uzan,
Class.
Quant. Grav. 35,
234001 (2018)
A127 Direction and redshift
drifts for general observers
and their applications in cosmology
O. Marconi,
C. Pitrou, J.-P. Uzan, and T. Pereira
Phys. Rev. D 98,
023517 (2018).
A126 First predictions of the angular power spectrum of the astrophysical
gravitational wave
background
G. Cusin, I. Dvorkin, C. Pitrou, and J.-P. Uzan
Phys. Rev. Lett. 120, 231101 (2018)
A125 Precision big bang nucleosynthesis with improved Helium-4 predictions
C.
Pitrou,
A. Coc, J.-P. Uzan, and E. Vangioni,
Phys. Rept 04, 005 (2018)
A124
MICROSCOPE _first constraints on the violation of
the weak equivalence principle by a massless or
massive scalar dilaton
J. Berg, P. Brax,
G. Mtris, M. Pernot-Borras,
P. Touboul, and J.-P. Uzan,
Phys. Rev. Lett. 120, 141101
(2018).
A123 The signal of the stochastic
gravitational wave
background and the angular correlation
of its energy density
G. Cusin, C. Pitrou, and J.-P. Uzan
Phys. Rev. D 97,
123527 (2018)
A122 Exploring stellar evolution with gravitational-wave
observations
I. Dvorkin, J.-P. Uzan, E. Vangioni,
and J. Silk
Month. Not. Astron. Soc. 479,
121 (2018)
A121 Weak gravitational lensing of finite beams
P. Fleury, J. Larena, and J.-P. Uzan
Phys. Rev. Lett. 119, 191101 (2017).
A120 Anisotropy of the astrophysical gravitational wave background I : analytic expression of the angular
power spectrum and correlation
with cosmological
observations
G. Cusin, C. Pitrou, and J.-P. Uzan
Phys. Rev. D 96,
103019 (2017)
A119 Effects of acions on Population III stellar evolution
A. Choplin, A. Coc, G. Meynet, K. Olive, J.-P. Uzan, and E. Vangioni
Astron. Astrophys. 605, A106 (2017).
A118 Modern Cosmology
G.F.R. Ellis and J.-P. Uzan
A117 Extending applicability of bimetric chameleon bigravity
A. de Felice,
S. Mukohyama, and J.-P. Uzan
Gen. Relat. Grav. 50, 19
(2018)
A116 Are we living near the center of a local void ?
G. Cusin, C. Pitrou, and J.-P. Uzan
JCAP 1703, 038(2017)
A115 A synthetic model of the gravitational ave background from
evolving compact objects
I. Dvorkin, J.-P. Uzan, E. Vangioni,
and J. Silk
Phys.Rev. D 94, 103011 (2016)
A114 Metallicity-constrained merger rates of binary black holes and the stochastic gravitational wave background
I. Dvorkin, E. Vangioni, J. Silk, J.-P. Uzan, and K. Olive,
Month. Not. R. Astron. Soc. 461, 3877 (2016).
A113 New reaction
rates for improved primordial D/H calculation
and the cosmic evolution of
deuterium
A.
Coc,
P. Petitjean, J.-P. Uzan, E. Vangioni, P. Descouvemont, C. Iliadis, and R. Longland,
Phys.
Rev. D 92, 123526 (2015).
A112 The theory of stochastic cosmological lensing
P. Fleury, J. Larena, and J.-P. Uzan
JCAP 11 022
(2015).
A111 Inflation in the standard cosmological model
J.-P. Uzan
Compte-Rendus Acadmie des Sciences 16, 875 (2015).
A110 Weak-lensing B-modes as a probe of the isotropy of the universe.
T.S. Pereira, C. Pitrou, and
J.-P. Uzan,
Astron. Astrophys. Lett. 585, L3 (2016).
A109 Weak-lensing by the large scale structure in a sptially
anisotropic universe: theory and predictions
C. Pitrou, T.S. Pereira, and
J.-P. Uzan,
Phys. Rev. D 92,
023501 (2015).
A108 Cosmological evolution of gravitational entropy and backreaction
G. Marozzi, J.-P. Uzan, O. Umeh,
and C. Clarkson
GRG 47, 114
(2015)
A107 Light propagation in a homogeneous and anisotropic universe
P. Fleury, C. Pitrou, and J.-P. Uzan,
Phys. Rev. D 91,
043511 (2015).
A106 Causal structures in inflation
G.F.R. Ellis and J.-P. Uzan
Compte-Rendus Acadmie des Sciences 16,
928 (2015)
A105 The stability
of fundamental constants
J.-P. Uzan
Compte-Rendus Acadmie des Sciences 16, 576
(2015).
A104 On the stability
and causality of scalar-vector
theories
P. Fleury, C. Pitrou, J.-P. Beltran Almeida, and
J.-P. Uzan
JCAP 11,
043 (2014).
A103 Modified Big Bang nucleosynthesis with non-standard
neutron sources
B.
Coc,
M. Pospelov, J.-P. Uzan, and E. Vangioni,
Phys.
Rev. D 90, 085018 (2014).
A102 Standard big-bang nucleosynthesis
and primordial CNO abundances after
Planck
A. Coc, J.-P.
Uzan, and E. Vangioni,
JCAP 10, 050 (2014).
A101 Emergent Lorentz signature, fermions and
the standar model
J.
Kehayias, S. Mukhoyama, and
J.-P. Uzan,
Phys.
Rev. D 89, 105017 (2014).
A100 Non-linear relativistic contributions to the weak
lensing convergence
S. Andrianomena, C.
Clarkson, P. Patel, O. Umeh, and J.-P.
Uzan,
JCAP 1406, 023 (2014).
A99 Inflation and the Higgs
particle: inflationary universe possibilities in the
light of the Planck satellite observations
G.F.R. Ellis and J.-P. Uzan
Astronomy and Geophysics 55, 1.19-1.20 (2014).
A98 Topology beyond the
horizon: how far can it be probed?
O. Fabre, S. Prunet, and J.-P. Uzan,
Phys. Rev. D 92,
043003 (2015).
A97 Planck contsraints
on the variation of fundamental constants
O. Fabre, S. Galli, E. Menegoni, S. Prunet, G. Rocha, J.-P. Uzan, & the Planck
collaboration,
Astron. Astrophys. 580, A22 (2015).
A96 Novel probes of gravity
and dark energy
B. Jain et al.,
Report from
the "Dark Energy and
CMB" working group for the American Physical Society's Division of Particles and Fields long-term
planning exercise ("Snowmass")
A95 Standard big-bang nucleosynthesis
after Planck
A. Coc, J.-P.
Uzan, and E. Vangioni,
unpublished.
A94 Can all cosmological
observations be accurately interpreted with a unique geometry ?
P. Fleury, H. Dupuy, and J.-P. Uzan,
Phys. Rev. Lett. 111, 09102 (2013)
A93 Is the Lorentz signature fundamental ?
S. Mukhoyama and J.-P. Uzan,
Int. J. Mod. Phys. D 22, 1342018 (2013).
A92 Mirror matter can alleviate the cosmological lithium problem
C.
Coc,
J.-P. Uzan, and E. Vangioni,
Phys. Rev. D 87,
123530 (2013).
A91 Interpretation of the Hubble diagram
in a non-homogeneous universe
P. Fleury, H. Dupuy, and J.-P. Uzan,
Phys. Rev. D
87, 103530 (2013).
A90 From configuration to dynamics
- Emergence of the Lorentz signature in classical field theory
S. Mukhoyama and J.-P. Uzan,
Phys. Rev. D 87,
123526 (2013).
A89 The blackness
of the cosmic microwave
background spectrum as a test of the distance duality relation
G. Ellis, R. Poltis, J.-P. Uzan, and A. Weltman,
Phys. Rev. D 87, 06520 (2013).
A88 Late time anisotropy
as an imprint of cosmological
backreaction
G. Marozzi, and J.-P. Uzan,
Phys.
Rev. D 86 (2012) 063528.
A87 The variation of fundamental
constants and the role of A=5 and A=8 nuclei on primordial nucleosynthesis
A. Coc, P. Descouvemont, K. Olive, J.-P. Uzan, and E. Vangioni,
Phys. Rev. D 86, 043529 (2012).
A86 Weak-lensing B-modes on all scales
as a probe of local isotropy
C. Pitrou, J.-P. Uzan,
and T.S. Pereira,
Phys. Rev. D 87, 043003 (2013).
A85 Interpreting supernovae
data in a lumpy universe
C. Clarkson,
G.F.R. Ellis, A. Faltenbacher, R. Maartens,
and J.-P. Uzan
Month. Not.
R. Astron. Soc. 426, 1121 (2012)
A84 Gyromagnetic factors and atomic clock constraints
on the variation of fundamental constants
F. Luo, K. Olive, and J.-P. Uzan,
Phys.
Rev. D 84 (2011) 096004.
A83 The catenary revisited :
from Newtonian string to superstring
D. De Klerk,
J. Murugan, and J.-P. Uzan
Am. J. Phys.
(to appear)
A82 Perturbations of the Kasner
spacetimes and their stability
L. Kofman, J.-P. Uzan,
and C. Pitrou,
JCAP
1105 (2011) 011.
A81 On the trace-free Einstein equations as a viable alternative to general
relativity
G.F.R Ellis,
H. van Elst, J. Murugan,
and J.-P. Uzan,,
Class.
Quant. Grav. 28 (2011) 225007.
A80 CMB spectra
and bispectra calculations : making the flat-sky approximations rigorous
F. Bernardeau, C. Pitrou, and J.-P. Uzan
JCAP
1102 (2011) 15.
A79 The wall of fundamental constants
K.A. Olive,
M. Peloso, and J.-P. Uzan,
Phys.
Rev. D 83 (2011) 043509.
A78 Varying constants, gravitation and cosmology
[arXiv:1009.5514,
online
version]
J.-P.
Uzan,
Living Rev. Relat. 4 (2011)
2
A77 A two-mass
exact expanding solution
J.-P.
Uzan, G.F.R. Ellis, and J. Larena,
Gen. Rel. Grav. 42 (2010) 2219.
A76 The cosmic microwave background bispectrum from the non-linear evolution of the cosmological
perturbations
C. Pitrou, J.-P. Uzan,
and F. Bernardeau,
JCAP
1007 (2010) 003.
A75 How close can an inhomogeneous universe mimic
the concordance model
P. Dunsby, N. Goheer, B. Osano, and J.-P. Uzan,
JCAP
1006 (2010) 017.
A74 The y-sky: the diffuse spectral distortion
of the cosmic microwave background
C. Pitrou, F. Bernardeau, and J.-P. Uzan,
JCAP
1007 (2010) 019.
A73 Vector theories in cosmology
G. Esposito-Farse, C. Pitrou, and J.-P. Uzan,
Phys.
Rev. D 81 (2010) 063519.
A72 Effects of the variation of fundamental
constants on Pop III stellar evolution
S. Ekstrm, A. Coc, P. Descouvemont, G. Meynet, K.
Olive, J.-P. Uzan, et E. Vangioni,
Astron.
Astrophys 514
(2010) A62.
A71 Tests of general relativity on astrophysical
scales
J.-P.
Uzan,
Gen. Rel. Grav. 42 (2010) 2219.
A70 Quantum corrections to the cosmological
evolution of conformally coupled fields
[arXiv:0905.1989, online article]
J.A. Cembrano, K.A. Olive, M. Peloso,
and J.-P. Uzan,
JCAP
0907 (2009) 025.
A69 Non-universal scalar-tensor theories and big
bang nucleosynthesis
A. Coc, K. Olive, J.-P. Uzan, and E. Vangioni,
Phys.
Rev. D 79 (2009) 103512.
A68 Dark energy, gravitation and the Copernican
principle
J.-P.
Uzan,
In ``Dark
energy: observational and theoretical approachesŐŐ, Ed. P. Ruiz-Lapuente,
(Cambridge
University Press, 2010).
A67 CFHTLS weak-lensing constraints on the
neutrino masses
I. Tereno, C. Schimd, J.-P. Uzan, M. Kilbinger,
F. Vincent, and L. Fu,
Astron.
Astrophys 500
(2009) 657.
A66 Cosmic microwave background bispectrum on small angular scales
C. Pitrou, J.-P. Uzan,
and F. Bernardeau,
Phys.
Rev. D 78 (2008) 063526.
A65 Predictions from an anisotropic inflationary
era
[arXiv:0801.3596,online article]
C. Pitrou, T. Pereira, and J.-P. Uzan,
JCAP
04 (2008) 004.
A64 Time drift of cosmological redshifts as a
test of the Copernican principle
J.-P.
Uzan, C. Clarkson, and G.F.R. Ellis,
Phys. Rev. Lett. 100 (2008) 191303.
A63 Time drift of cosmological redshifts and its
variance
J.-P. Uzan,
F. Bernardeau, and Y. Mellier,
Phys.
Rev. D 77 (2008) 021301(R).
A62 Theory and numerics
of gravitational waves from preheating after inflation
J.-F. Dufaux,
A. Bergman, G. Felder, L. Kofman, and
J.-P. Uzan,
Phys.
Rev. D 76 (2007) 123517.
A61 Theory of cosmological perturbations in an
anisotropic universe
[arXiv:0707.0736,online article]
T. Pereira,
C. Pitrou, and J.-P. Uzan,
JCAP
09 (2007) 006.
A60 Coupled variations of fundamental couplings
and primordial nucleosynthesis
A. Coc, K. Olive, N. Nunes, J.-P. Uzan, and E. Vangioni,
Phys.
Rev. D 76 (2007) 023511.
A59 Weak lensing of baryon acoustic oscillations
A. Vallinotto, S. Dodelson, C. Schimd, and J.-P. Uzan,
Phys.
Rev. D 75 (2007) 103509.
A58 Quantization of perturbations during
inflation in the 1+3 covariant formalism
C. Pitrou and J.-P. Uzan,
Phys.
Rev. D 75 (2007) 087302.
A57 Gravitational waves generated by second
order effects during inflation
[gr-qc/0612108, Online article]
B. Osano, C. Pitrou, P. Dunsby, J.-P. Uzan,
and C. Clarkson,
JCAP
004 (2007) 003.
A56 Quantifying organismal complexity
using a population genetic approach
O. Tenaillon, O. Silander, J.-P. Uzan, and L. Chao,
PLOS
One 2(2) (2007) e217.
A55 The acceleration of the universe and the
physics behind it
J.-P. Uzan,
Gen. Relat. Grav. 39 (2007) 307-342.
A54 Tracking quintessence with cosmic shear -
Constraints from VIRMOS-Descart and CFHTLS and future
prospects
C. Schimd,
I. Tereno, J.-P. Uzan, Y. Mellier, L. van Waerbeke, E. Semboloni, H. Hoekstra, L. Fu,
and A. Riazuelo,
Astron. Astrophys. 463 (2007) 405-421.
A53 Big bang nucleosynthesis
constraints on scalar-tensor theories of gravity
A. Coc, K. Olive, J.-P. Uzan and E. Vangioni,
Phys.
Rev. D. 73 (2006) 083525.
A52 Testing w<-1 in the Solar System
J. Martin, C.
Schimd and J.-P. Uzan
Phys. Rev. Lett. 96 (2006) 061303.
A51 Constraining topology in harmonic space
M. Kunz,
N. Aghanim, L. Cayon, O. Forni, A. Riazuelo and J.-P. Uzan
Phys.
Rev. D 73 (2006) 023511.
A50 Stability of six-dimensional hyperstring braneworlds
P. Peter, C.
Ringeval, and J.-P. Uzan
Phys.
Rev. D 71 (2005) 104018.
A49 Radiative corrections to scalar masses in de Sitter
space
T. Brunier, F. Bernardeau, and J.-P. Uzan,
Phys.
Rev. D 71 (2005) 063529.
A48 Weak lensing
in scalar-tensor theories of gravity
C. Schimd, J.-P. Uzan,
and A. Riazuelo,
Phys.
Rev. D 71 (2005) 083512.
A47 Constraints
on mode couplings and modulation of the CMB with WMAP data
S. Prunet,
J.-P. Uzan, F. Bernardeau, and T. Brunier,
Phys.
Rev. D 71 (2005) 083508.
A46 'c' is for the speed of light, isn't it?
G.F.R. Ellis
and J.-P. Uzan,
Am.
J. Phys. 73 (2005) 240.
A45 The distance
duality relation from X-ray and SZ observations of cluster
J.-P.
Uzan, N. Aghanim, et Y. Mellier,
Phys.
Rev. D 70 (2004) 083533.
A44 Modulated fluctuations from hybrid inflation
F. Bernardeau, L. Kofman, and J.-P. Uzan,
Phys.
Rev. D 70 (2004) 083004.
A43 Finite volume effects for non-Gaussian
multi-field inflationary models
F. Bernardeau and J.-P. Uzan,
Phys.
Rev. D 70 (2004) 043533.
A42 Cosmic microwave background anisotropies in
multi-connected flat spaces
A. Riazuelo, J. Weeks, J.-P. Uzan, R. Lehoucq, and J.-P. Luminet,
Phys. Rev. D
69 (2004) 103514
A41 Simulating cosmic microwave background maps
in multi-connected universe
A. Riazuelo J.-P. Uzan,
R. Lehoucq, and J. Weeks,
Phys. Rev. D
69 (2004) 103514
A40 High order correlation functions for self interacting scalar field in de Sitter space
F. Bernardeau, T. Brunier and J.-P. Uzan,
Phys.
Rev. D 69 (2004) 063520.
A39 Cosmic microwave background constraints on
lens spaces
J.-P.
Uzan, A. Riazuelo, R. Lehoucq, and J. Weeks
Phys.
Rev. D 69 (2004) 043003.
A38 Can the CMB unveil
the topology of the universe?
J.-P.
Uzan and A. Riazuelo,
C. R. Acad.
Sciences (Paris) 4 (2003) 945.
A37 Dodecahedral
space topology as an explanation for weak wide-angle temperature correlations
in the cosmic microwave background
J.-P.
Luminet, J. Weeks, A. Riazuelo,
R. lehoucq and J.-P. Uzan,
Nature
(London) 425 (2003) 593.
A36 WMAP data and the curvature of space
J.-P. Uzan,
U. Kirchner, and G.F.R. Ellis
Month. Not. R. Astron. Soc. 344
(2003) L65.
A35 Trans-Planckian
dark energy?
M. Lemoine, J. Martin and J.-P. Uzan,
Phys. Rev.
D. 67 (2003)
A34 Detecting Topology in a Nearly Flat
Spherical Universe
J. Weeks, R.
Lehoucq and J.-P. Uzan,
Class.
Quant. Grav. 20 (2003) 1529.
A33 Inflationary models inducing non-Gaussian
metric fluctuations
F. Bernardeau and J.-P. Uzan,
Phys.
Rev. D 67 (2003) 121301(R).
A32 The gradient formula for linearly
self-interacting branes
B. Carter,
R. Battye, and J-P. Uzan,
Comm. Math. Phys. 235 (2003) 2, 289.
A31 Eigenmodes of Lens and Prism Spaces
R. Lehoucq, J-P. Uzan, and J. Weeks
Kodai
Mathematical Journal 26 (2003) 119.
A30 The fundamental constants and their
variation: observational status and theoretical motivations
J.-P.
Uzan,
Rev. Mod. Phys. 75 (2003) 403.
A29 Non-Gaussianity in
multi-field inflation
F. Bernardeau and J.-P. Uzan,
Phys. Rev. D66 (2002) 103506.
A28 Eigenmodes of 3-dimensional spherical spaces and their
application to cosmology
R. Lehoucq, J. Weeks, J.-P. Uzan, E. Gausmann, and J.-P. Luminet,
Class.
Quant. Grav. 19
(2002) 4683
A27 Dimming of supernovae by photon-pseudoscalar conversion and the intergallactic
plasma
C. Deffayet, D. Harari, J-P. Uzan, and M. Zaldarriaga
Phys. Rev. D66 (2002) 043517.
A26 Cosmological observations in scalar-tensor
quintessence
A. Riazuelo and J-P. Uzan,
Phys. Rev. D66 (2002) 023525.
A25 Twin Paradox and Space Topology
J-P. Uzan, R. Lehoucq, and J-P. Luminet, and P. Peter,
Eur.
J. Phys. 23 (2002) 277.
A24 Localisation of massive fermions on the brane
C. Ringeval, P. Peter, and J-P. Uzan
Phys. Rev. D65 (2002) 044016.
A23 The stress-energy tensor for trans-Planckian cosmology
M. Lemoine, M. Lubo, J. Martin, and
J-P. Uzan,
Phys. Rev. D65 (2002) 023510.
A22 Topological Lensing in spherical spaces
E. Gausmann, R. Lehoucq, J-P. Luminet, J-P. Uzan, and J. Week,
Class.
Quant. Grav. 18 (2001) 5155.
A21 Simulated gravity without true gravity in
asymmetric brane world scemarios
B. Carter,
J-P. Uzan, R. Battye, and
A. Mennim,
Class.
Quant. Grav. 18 (2001) 4871.
A20 Einstein Equations for an asymmetric brane-world
R. Battye, B. Carter, A. Mennim, and
J-P. Uzan,
Phys.
Rev. D 64 (2001) 124007.
A19 A Dynamical Study of the Friedmann
Equations
J-P. Uzan and R. Lehoucq,
Eur.
J. Phys. 22 (2001) 371.
A18 Reflection symmetry breaking scenarios with
minimal gauge coupling in brane world cosmology
B. Carter
and J-P. Uzan,
Nuc.
Phys. B606 (2001) 45.
A17 Lensing at cosmological scales: a test of
higher dimensional gravity
J-P. Uzan and F. Bernardeau,
Phys. Rev. D64 (2001) 083004.
A16 Cosmic Strings Lens Phenomenology: General
Properties of Distortion Fields
J.-P.
Uzan and F. Bernardeau,
Phys. Rev. D63 (2001) 023004.
A15 Cosmic Strings Lens Phenomenology: Model of
Poisson Energy Distribution
F. Bernardeau and J.-P. Uzan,
Phys. Rev. D63 (2001) 023005.
A14 Limits of crystallographic methods for
detecting space topology
R. Lehoucq, J-P. Uzan, and J-P. Luminet,
Astron. Astrophys. 363 (2000) 1.
A13 Quintessence
and Gravitational Waves
A. Riazuelo and J.-P. Uzan,
Phys. Rev. D62 (2000) 083506.
A12 Skewness as a probe of non
Gaussian initial conditions
R. Durrer, R. Juszkiewicz, M. Kunz,
and J.-P. Uzan,
Phys.
Rev. D62 (2000) 021301(R).
A11 Photon mixing in universes with large
extra-dimensions
C. Deffayet and J.-P. Uzan,
Phys. Rev. D62 (2000) 063507.
A10 A new crystallographic method for detecting
space topology
J.-P.
Uzan, R. Lehoucq, and J-P. Luminet,
Astron. Astrophys. 351 (1999) 766.
A9 Cosmological scaling solutions of
non-minimally coupled scalar field
J.-P. Uzan,
Phys. Rev. D59 (1999) 123510.
A8 Topological lens effects in universes with
non Euclidean spatial sections
R. Lehoucq, J.-P. Luminet,
and J.-P. Uzan,
Astron. Astrophys. 344 (1999) 735.
A7 Comment on dynamics of relativistic
interacting gases
J.-P. Uzan,
Class. Quant. Grav.
15 (1998) 3737.
A6 The no-defect conjecture :
cosmological implications
J.-P. Uzan,
Phys. Rev. D58 (1998) 087301.
A5 Dynamics of relativistic interacting gases : from a kinetic to a fluid description
J.-P.
Uzan,
Class.
Quant. Grav. 15 (1998) 1063.
A4 Using
conservation laws to study cosmological perturbations in curved universes
J.-P.
Uzan, N. Deruelle, and N. Turok,
Phys.
Rev. D57 (1998) 7192.
A3 Cosmological perturbations seeded by
``active" sources : setting the initial
conditions
N. Deruelle, D. Langlois, and
J.-P. Uzan,
Phys.
Rev. D56 (1997) 7608.
A2 The no-defect conjecture in cosmic
crystallography
J.-P.
Uzan and P. Peter,
Phys. Lett. B406 (1997) 20.
A1 Integral constraints on cosmological
perturbations and their energy
N. Deruelle,
J. Katz, and J.-P. Uzan,
Class. Quant. Grav.
14 (1997) 421.