The population of barred galaxies in the local universe. I. Detection and characterisation of bars, A&A, vol.495, pp.491-504, 2009. ,
Exponential bulges in late-type spirals : an improved description of the light distribution, MNRAS, vol.267, pp.283-296, 1994. ,
On the nature of bulges in general and of box/peanut bulges in particular : input from N-body simulations, MNRAS, vol.358, pp.1477-1488, 2005. ,
URL : https://hal.archives-ouvertes.fr/hal-00008346
On the nature of the barlens component in barred galaxies : what do boxy/peanut bulges look like when viewed face-on ?, MNRAS, vol.454, pp.3843-3863, 2015. ,
URL : https://hal.archives-ouvertes.fr/hal-01439828
Forming Disk Galaxies in Wet Major Mergers. I. Three Fiducial Examples, ApJ, vol.821, p.90, 2016. ,
URL : https://hal.archives-ouvertes.fr/hal-01428078
, Bars in Disk-dominated and Bulge-dominated Galaxies at z ? 0 : New Insights from?3600from?3600 SDSS Galaxies, vol.675, pp.1194-1212, 2008.
, The morphologies of massive galaxies at 1 z 3 in the CANDELS-UDS field : compact bulges, and the rise and fall of massive discs, vol.427, pp.1666-1701, 2012.
, Bar Diagnostics in Edge-On Spiral Galaxies. III. N-Body Simulations of Disks, vol.626, pp.159-173, 2005.
URL : https://hal.archives-ouvertes.fr/hal-00013766
Formation and properties of persisting stellar bars, A&A, vol.96, pp.164-173, 1981. ,
,
, The Structure of Classical Bulges and Pseudobulges : the Link Between Pseudobulges and SÉRSIC Index, vol.136, pp.773-839, 2008.
, Bulges of Nearby Galaxies with Spitzer : Scaling Relations in Pseudobulges and Classical Bulges, vol.716, pp.942-969, 2010.
, An Observational Guide to Identifying Pseudobulges and Classical Bulges in Disc Galaxies. Galactic Bulges, vol.418, p.41, 2016.
The effects of Boxy/Peanut bulges on galaxy models, MNRAS, vol.450, pp.229-245, 2015. ,
URL : https://hal.archives-ouvertes.fr/hal-01439786
Structural properties of pseudo-bulges, classical bulges and elliptical galaxies : a Sloan Digital Sky Survey perspective, MNRAS, vol.393, pp.1531-1552, 2009. ,
Secular evolution and structural properties of stellar bars in galaxies, MNRAS, vol.415, pp.3308-3318, 2011. ,
, The Milky Way, an Exceptionally Quiet Galaxy : Implications for the Formation of Spiral Galaxies, vol.662, pp.322-334, 2007.
, The Formation of Large Galactic Disks Through the Hierarchical Scenario : Further Consequences. Modern Physics Letters A, vol.27, p.1230034, 2012.
How Do Disks Survive Mergers ?, éditeurs : Galaxy Evolution : Emerging Insights and Future Challenges, vol.419, 2009. ,
A Relation between Distance and Radial Velocity among Extra-Galactic Nebulae, Proceedings of the National Academy of Science, vol.15, pp.168-173, 1929. ,
, Realm of the Nebulae, 1936.
Peletier : A Subarcsecond Resolution Near-Infrared Study of Seyfert and, Normal" Galaxies. II. Morphology. ApJ, vol.529, pp.93-100, 2000. ,
Kinematics of extragalactic bulges : evidence that some bulges are really disks, éditeurs : Galactic Bulges, vol.153, p.209, 1993. ,
, Bulgeless Giant Galaxies Challenge Our Picture of Galaxy Formation by Hierarchical Clustering, vol.723, pp.54-80, 2010.
Secular Evolution and the Formation of Pseudobulges in Disk Galaxies, ARAA, vol.42, pp.603-683, 2004. ,
,
, Comparison of Bar Strengths and Fractions of Bars in Active and Nonactive Galaxies, vol.607, pp.103-124, 2004.
Box-and peanut-shaped bulges, I. Statistics. A&AS, vol.145, pp.405-414, 2000. ,
Scoville : A Near-Infrared Study of 2MASS Bars in Local Galaxies : An Anchor for HighRedshift Studies, ApJ, vol.657, pp.790-804, 2007. ,
Survival of Pure Disk Galaxies over the Last 8 Billion Years, ApJL, vol.820, p.4, 2016. ,
Sersic : Influence of the atmospheric and instrumental dispersion on the brightness distribution in a galaxy, vol.6, p.41, 1963. ,
Sersic : Atlas de galaxias australes, 1968. ,
, Galaxy Zoo : bulgeless galaxies with growing black holes, vol.429, pp.2199-2211, 2013.
Athanassoula : Morphology of bar orbits, MNRAS, vol.259, pp.328-344, 1992. ,
On the nature of bulges in general and of box/peanut bulges in particular : input from N-body simulations, MNRAS, vol.358, pp.1477-1488, 2005. ,
URL : https://hal.archives-ouvertes.fr/hal-00008346
Forming Disk Galaxies in Wet Major Mergers. I. Three Fiducial Examples, ApJ, vol.821, p.90, 2016. ,
URL : https://hal.archives-ouvertes.fr/hal-01428078
, The Merger Rate of Massive Galaxies, vol.652, pp.270-276, 2006.
Formation of galaxies and large-scale structure with cold dark matter, Nature, vol.311, pp.517-525, 1984. ,
Box and peanut shapes generated by stellar bars, A&A, vol.233, pp.82-95, 1990. ,
Evidence for a Major Merger Origin of High-Redshift Submillimeter Galaxies, ApJL, vol.596, pp.5-8, 2003. ,
, The structures of distant galaxies-I. Galaxy structures and the merger rate to z ? 3 in the Hubble Ultra-Deep Field. MNRAS, vol.386, pp.909-927, 2008.
The structures of distant galaxies-III. The merger history of over 20000 massive galaxies at z 1.2, MNRAS, vol.394, 1956. ,
, The VIMOS VLT Deep Survey. Evolution of the major merger rate since z ? 1 from spectroscopically confirmed galaxy pairs, vol.498, pp.379-397, 2009.
URL : https://hal.archives-ouvertes.fr/hal-00391109
, Galaxy bimodality due to cold flows and shock heating, vol.368, pp.2-20, 2006.
Rodrigues : How was the Hubble sequence 6 Gyr ago ?, A&A, vol.509, p.78, 2010. ,
Sandage : Evidence from the motions of old stars that the Galaxy collapsed, ApJ, vol.136, p.748, 1962. ,
Did most present-day spirals form during the last 8 Gyr ?. A formation history with violent episodes revealed by panchromatic observations, A&A, vol.430, pp.115-128, 2005. ,
The Hubble sequence : just a vestige of merger events ?, A&A, vol.507, pp.1313-1326, 2009. ,
The Hubble sequence : just a vestige of merger events ?, A&A, vol.507, pp.1313-1326, 2009. ,
Does M31 Result from an Ancient Major Merger ?, ApJ, vol.725, pp.542-555, 2010. ,
, Mergers and Bulge Formation in ?CDM : Which Mergers Matter, vol.715, pp.202-229, 2010.
, Bulgeless Giant Galaxies Challenge Our Picture of Galaxy Formation by Hierarchical Clustering, vol.723, pp.54-80, 2010.
Secular Evolution and the Formation of Pseudobulges in Disk Galaxies, ARAA, vol.42, pp.603-683, 2004. ,
MASSIV : Mass Assembly Survey with SINFONI in VVDS. V. The major merger rate of star-forming galaxies at 0.9 z 1.8 from IFS-based close pairs, A&A, vol.553, p.78, 2013. ,
, The Rest-Frame Far-Ultraviolet Morphologies of Star-forming Galaxies at z ? 1.5 and 4, vol.636, pp.592-609, 2006.
Statistical mechanics of violent relaxation in stellar systems, MNRAS, vol.136, p.101, 1967. ,
, Stellar Tidal Streams in Spiral Galaxies of the Local Volume : A Pilot Survey with Modest Aperture Telescopes, vol.140, pp.962-967, 2010.
,
, The Ghost of a Dwarf Galaxy : Fossils of the Hierarchical Formation of the Nearby Spiral Galaxy NGC 5907, vol.689, pp.184-193, 2008.
, Discovery of a Giant Stellar Tidal Stream Around The Disk Galaxy NGC 4013, vol.692, pp.955-963, 2009.
Dark Halo and Disk Galaxy Scaling Laws in Hierarchical Universes, ApJ, vol.538, pp.477-488, 2000. ,
A surprisingly low fraction of undisturbed rotating spiral disks at z ? 0.6 The morpho-kinematical relation 6 Gyr ago, IMAGES. II, vol.484, pp.159-172, 2008. ,
URL : https://hal.archives-ouvertes.fr/hal-00325345
, Gravitationseffekte bei der Begegnung zweier Galaxien. Mit 5 Textabbildungen, vol.58, p.12, 1963.
, Spiralstrukturen durch Gezeiteneffekte bei der Begegnung zweier Galaxien. Mit 7 Textabbildungen, vol.51, p.201, 1961.
, The Tully-Fisher Relation and its Residuals for a Broadly Selected Sample of Galaxies, vol.134, pp.945-972, 2007.
Galaxy Disks Do Not Need to Survive in the ?CDM Paradigm : The Galaxy Merger Rate Out to z ? 1.5 from Morpho-kinematic Data, ApJ, vol.753, p.128 ,
URL : https://hal.archives-ouvertes.fr/hal-01442417
Heated disc stars in the stellar halo, MNRAS, vol.404, pp.1711-1718, 2010. ,
, Constraining the Age of the NGC 4565 H I Disk Warp : Determining the Origin of Gas Warps, vol.780, p.105, 2014.
, PAndAS' Progeny : Extending the M31 Dwarf Galaxy Cabal, vol.732, p.76, 2011.
Morphokinematics of z 1 galaxies probe the hierarchical scenario, MNRAS, vol.465, pp.1157-1180, 2017. ,
URL : https://hal.archives-ouvertes.fr/hal-02167715
A decrease of the gas exchanges between galaxies and the intergalactic medium, from 12 to 6 billion years ago, MNRAS, vol.421, pp.2888-2903, 2012. ,
Compositions of halo clusters and the formation of the galactic halo, ApJ, vol.225, pp.357-379, 1978. ,
, Merger Histories of Galaxy Halos and Implications for Disk Survival, vol.683, pp.597-610, 2008.
, Galactic Bridges and Tails, vol.178, pp.623-666
Galactic disks, infall, and the global value of Omega, ApJ, vol.389, pp.5-26, 1992. ,
Evolution Of The Galaxy Major Merger Rate Since Z 6 In The Muse Hubble Ultra Deep Field Survey, Galaxy Evolution Across Time, pp.12-16, 2017. ,
Loops formed by tidal tails as fossil records of a major merger, A&A, vol.538, p.121, 2012. ,
URL : https://hal.archives-ouvertes.fr/hal-01442393
The NGC 4013 tale : a pseudobulged, late-type spiral shaped by a major merger, MNRAS, vol.452, pp.3551-3560, 2015. ,
Core condensation in heavy halos-A two-stage theory for galaxy formation and clustering, MNRAS, vol.183, pp.341-358, 1978. ,
, IMAGES. I. Strong evolution of galaxy kinematics since z = 1. A&A, vol.477, pp.789-805, 2008.
, The Evolution of the Galaxy Size-Mass Distribution since z = 3, vol.788, p.28, 2014.
Loops formed by tidal tails as fossil records of a major merger, A&A, vol.538, p.121, 2012. ,
URL : https://hal.archives-ouvertes.fr/hal-01442393
, The COS-Halos Survey : Physical Conditions and Baryonic Mass in the Low-redshift Circumgalactic Medium, vol.792, 2014.
, A&A, vol.495, p.491, 2009.
, ApJS, vol.219, p.12, 2015.
, MNRAS, vol.267, p.283, 1994.
, MNRAS, vol.358, p.1477, 2005.
, MNRAS, vol.429, p.1949, 2013.
, ApJ, vol.821, p.90, 2016.
, Publ. Astron. Soc. Aust, vol.33, p.26, 2016.
, ApJ, vol.675, p.1194, 2008.
, ApJ, vol.635, p.959, 2005.
, ApJ, vol.393, p.484, 1992.
, MNRAS, vol.333, p.481, 2002.
, ApJ, vol.471, p.115, 1996.
Galactic Dynamics, 2nd edn, 2008. ,
, ApJ, vol.658, p.60, 2007.
, ApJ, vol.739, p.20, 2011.
, MNRAS, vol.373, p.1013, 2006.
, MNRAS, vol.384, p.386, 2008.
, MNRAS, vol.389, p.63, 2008.
, ApJ, vol.645, p.209, 2006.
, A&A, vol.509, p.78, 2010.
, MNRAS, vol.396, p.141, 2009.
, ApJ, vol.674, p.151, 2008.
, AJ, vol.119, p.536, 2000.
, ApJ, vol.754, p.67, 2012.
, AJ, vol.136, p.773, 2008.
, ApJ, vol.716, p.942, 2010.
, ApJ, vol.733, p.47, 2011.
, Galactic Bulges, vol.418, p.41, 2016.
, MNRAS, vol.393, p.1531, 2009.
, MNRAS, vol.415, p.3308, 2011.
, A&A, vol.430, p.115, 2005.
, ApJ, vol.662, p.322, 2007.
, Most pseudo-bulges can be formed after mergers 2531
, A&A, vol.507, p.1313, 2009.
, ApJ, vol.725, p.542, 2010.
, ApJ, vol.671, p.226, 2007.
Galaxy Evolution: Emerging Insights and Future Challenges, Astron. Soc. Pac, vol.419, p.228, 2009. ,
, MNRAS, vol.450, p.53, 2015.
, ApJ, vol.715, p.202, 2010.
, MNRAS, vol.369, p.25, 2006.
, AJ, vol.145, p.101, 2013.
, MNRAS, vol.424, p.1232, 2012.
, ApJ, vol.529, p.93, 2000.
, Proc. IAU Symp. 153, Galactic Bulges. Kluwer, p.209, 1993.
, ARA&A, vol.42, p.603, 2004.
, ApJ, vol.723, p.54, 2010.
, ApJ, vol.607, p.103, 2004.
, MNRAS, vol.311, p.565, 2000.
, MNRAS, vol.391, p.1137, 2008.
, MNRAS, vol.136, p.101, 1967.
, ApJ, vol.657, p.790, 2007.
, AJ, vol.139, p.2097, 2010.
, MNRAS, vol.468, p.994, 2017.
, AJ, vol.134, p.945, 2007.
, A&A, vol.510, p.68, 2010.
, ApJ, vol.753, p.128, 2012.
, ApJ, vol.681, p.1089, 2008.
, ApJ, vol.645, p.986, 2006.
, MNRAS, vol.421, p.2888, 2012.
, MNRAS, vol.465, p.1157, 2017.
, Bol. Asoc. Argentina Astron. La Plata Argentina, vol.6, p.41, 1963.
Atlas de galaxias australes, Observatorio Astronomico, 1968. ,
, ApJ, vol.302, p.564, 1986.
, MNRAS, vol.364, p.1105, 2005.
, ApJ, vol.683, p.597, 2008.
, ApJ, vol.650, p.28, 2006.
, A&A, vol.538, p.121, 2012.
, MNRAS, vol.452, p.3551, 2015.
, ApJ, vol.696, p.411, 2009.
, ApJ, vol.841, p.32, 2017.
Forming Disk Galaxies in Wet Major Mergers. I. Three Fiducial Examples, ApJ, vol.821, p.90, 2016. ,
, The Outer Disks of Early-Type Galaxies. I. Surface-Brightness Profiles of Barred Galaxies, vol.135, pp.20-54, 2008.
, On the Disks of Spiral and S0 Galaxies, vol.160, p.811
, The Outer Disks of Early-type Galaxies. II. Surface-brightness Profiles of Unbarred Galaxies and Trends with Hubble Type, vol.142, p.145, 2011.
Does M31 Result from an Ancient Major Merger ?, ApJ, vol.725, pp.542-555, 2010. ,
How Do Disks Survive Mergers ?, éditeurs : Galaxy Evolution : Emerging Insights and Future Challenges, vol.419, 2009. ,
Forming disc galaxies in major mergers III. The effect of angular momentum on the radial density profiles of disc galaxies, MNRAS, vol.468, pp.994-1004, 2017. ,
URL : https://hal.archives-ouvertes.fr/hal-01678378
The structure of galactic disks. Studying late-type spiral galaxies using SDSS, A&A, vol.454, pp.759-772, 2006. ,
Optical surface photometry of eight spiral galaxies studied in Westerbork, A&AS, vol.38, pp.15-38, 1979. ,
Surface photometry of edge-on spiral galaxies. I-A model for the three-dimensional distribution of light in galactic disks, A&A, vol.95, pp.105-115, 1981. ,
Surface Photometry of Edge-On Spiral Galaxies. IIthe Distribution of Light and Colour in the Disk and Spheroid of NGC891, A&A, vol.95, p.116 ,
Surface photometry of edge-on spiral galaxies. IIIProperties of the three-dimensional distribution of light and mass in disks of spiral galaxies, A&A, vol.110, pp.61-78, 1982. ,
Surface photometry of edge-on spiral galaxies. IVThe distribution of light, colour, and mass in the disk and spheroid of NGC 7814, A&A, vol.110, pp.79-94, 1982. ,
, Annexe D Liste des publications et colloques
Most pseudo-bulges can be formed at later stages of major mergers, MNRAS, 2017. ,
, Galaxy clusters in the SDSS Stripe 82 based on photometric redshifts, vol.578, p.79, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01439765
What shapes galaxies ?" au Space Telescope Science Institute (STScI) à Baltimore du 25 au 28 avril 2016 : Bulge formation in spiral galaxies via gas-rich major mergers ,
Annexe E Demande de temps de calcul sur le cluster MESOPSL (acceptée), A&A, vol.496, p.381387, 2009. ,
Hopkins et al, ApJ, vol.715, pp.202-229, 2010. ,
,
, A&A, p.78, 2010.
,
GADGET-2, hydrosolveur & N-corps NbCoeursJob, p.2560 ,
,
,
, Votre demande vient d'être envoyée aux responsables allocations de ressources MesoPSL qui vous recontacteront très prochainement. Merci de votre intérêt pour MesoPSL