Dominique Sluse : Main - Research diff

Main.Research History

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December 06, 2012, at 08:33 PM by D Sluse -

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AGN structure via microlensing: Study of the accretion disc, broad-line region, intrinsic absorbers in AGNs using gravitational microlensing
Main Collaborators: D. Hutsemékers, L. Braibant (Uni. Liege), M. Kishimoto (MPIfR), T. Anguita (Pontifica Universidad de Chile), R. Schmidt, J. Wambsganss (ARI, Uni. Heidelberg), A. Yonehara (Kyoto Sangyo Uni.), F. Courbin, M. Tewes, G. Meylan (EPFL) \\

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AGN structure via microlensing: Study of the accretion disc, broad-line region, intrinsic absorbers in AGNs using gravitational microlensing.
Main Collaborators: D. Hutsemékers, L. Braibant (Uni. Liège), M. Kishimoto (MPIfR), T. Anguita (Pontifica Universidad de Chile), R. Schmidt, J. Wambsganss (ARI, Uni. Heidelberg), A. Yonehara (Kyoto Sangyo Uni.), F. Courbin, M. Tewes, G. Meylan (EPFL) \\

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Dark Matter substructures: Search for massive substructures in galaxies using astrometric and photometric anomalies in strongly lensed quasars
Main Collaborators: O. Wucknitz (MPIfR), Dandan Xu (Uni. Bonn), P. Magain, V. Chantry (Uni. Liege), F. Courbin, G. Meylan (EPFL), N. Jackson (U. Manchester), D. Leier (Uni. Bologna) \\

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Dark Matter substructures: Search for massive substructures in galaxies using astrometric and photometric anomalies in strongly lensed quasars.
Main Collaborators: O. Wucknitz (MPIfR), Dandan Xu (Uni. Bonn), P. Magain, V. Chantry (Uni. Liège), F. Courbin, G. Meylan (EPFL), N. Jackson (Uni. Manchester), D. Leier (Uni. Bologna) \\

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Strong lensing: Characterisation of the properties of strongly lensed systems
Main Collaborators: F. Courbin, M. Tewes, Y. Revaz, G. Meylan (EPFL), E. Rusu (Uni. Tokyo), G. Djorgovski (Caltech), J. Surdej, P. Magain, V. Chantry (Uni. Liege) \\

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Strong lensing: Characterisation of the properties of strongly lensed systems.
Main Collaborators: F. Courbin, M. Tewes, Y. Revaz, G. Meylan (EPFL), E. Rusu (Uni. Tokyo), G. Djorgovski (Caltech), J. Surdej, P. Magain, V. Chantry (Uni. Liège) \\

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Cosmology: Study of cosmological parameters via time-delay measurement of strongly lensed quasars (with COSMOGRAIL and the cosmology task force)
Main collaborators: F. Courbin, G. Meylan, M. Tewes (EPFL), S. Suyu, T. Treu (U. Santa Barbara)\\

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Cosmology: Study of cosmological parameters via time-delay measurement of strongly lensed quasars (with COSMOGRAIL and the cosmology task force).
Main collaborators: F. Courbin, G. Meylan, M. Tewes (EPFL), S. Suyu, T. Treu (Uni. Santa Barbara)\\

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Polarisation in quasars: Photometric and spectropolarimetric study of the linear (and circular) optical polarisation in quasars. Characterisation of their large-scale alignement properties.
Main Collaborators: D. Hutsemékers, A. Payez, J.R. Cudell (Uni. Liege), R. Cabanac (Uni. Toulouse), H. Lamy (Institut d'aéronomie Spatiale, Brussels) \\

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Polarisation in quasars: Photometric and spectropolarimetric study of the linear (and circular) optical polarisation in quasars. Characterisation of the large-scale alignement properties of quasars' linear polarisation vector.
Main Collaborators: D. Hutsemékers, A. Payez, J.R. Cudell (Uni. Liège), R. Cabanac (Uni. Toulouse), H. Lamy (Institut d'aéronomie Spatiale, Brussels) \\

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November 19, 2012, at 09:35 PM by D Sluse -

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AGN structure via microlensing ?: Study of the accretion disc, broad-line region, intrinsic absorbers in AGNs using gravitational microlensing \\

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AGN structure via microlensing: Study of the accretion disc, broad-line region, intrinsic absorbers in AGNs using gravitational microlensing \\

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Dark Matter substructures ?: Search for massive substructures in galaxies using astrometric and photometric anomalies in strongly lensed quasars \\

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Dark Matter substructures: Search for massive substructures in galaxies using astrometric and photometric anomalies in strongly lensed quasars \\

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Strong lensing ?: Characterisation of the properties of strongly lensed systems \\

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Strong lensing: Characterisation of the properties of strongly lensed systems \\

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Cosmology ?: Study of cosmological parameters via time-delay measurement of strongly lensed quasars (with COSMOGRAIL and the cosmology task force) \\

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Cosmology: Study of cosmological parameters via time-delay measurement of strongly lensed quasars (with COSMOGRAIL and the cosmology task force) \\

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Polarisation in quasars ?: Photometric and spectropolarimetric study of the linear (and circular) optical polarisation in quasars. Characterisation of their large-scale alignement properties. \\

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Polarisation in quasars: Photometric and spectropolarimetric study of the linear (and circular) optical polarisation in quasars. Characterisation of their large-scale alignement properties. \\

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November 19, 2012, at 09:28 PM by D Sluse -

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November 19, 2012, at 09:27 PM by D Sluse -

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AGN structure via microlensing: Study of the accretion disc, broad-line region, intrinsic absorbers in AGNs using gravitational microlensing \\

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AGN structure via microlensing ?: Study of the accretion disc, broad-line region, intrinsic absorbers in AGNs using gravitational microlensing \\

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Dark Matter substructures: Search for massive substructures in galaxies using astrometric and photometric anomalies in strongly lensed quasars \\

to:

Dark Matter substructures ?: Search for massive substructures in galaxies using astrometric and photometric anomalies in strongly lensed quasars \\

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Strong lensing: Characterisation of the properties of strongly lensed systems \\

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Strong lensing ?: Characterisation of the properties of strongly lensed systems \\

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Cosmology: Study of cosmological parameters via time-delay measurement of strongly lensed quasars (with COSMOGRAIL and the cosmology task force) \\

to:

Cosmology ?: Study of cosmological parameters via time-delay measurement of strongly lensed quasars (with COSMOGRAIL and the cosmology task force) \\

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Polarisation in quasars: Photometric and spectropolarimetric study of the linear (and circular) optical polarisation in quasars. Characterisation of their large-scale alignement properties. \\

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Polarisation in quasars ?: Photometric and spectropolarimetric study of the linear (and circular) optical polarisation in quasars. Characterisation of their large-scale alignement properties. \\

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November 19, 2012, at 09:22 PM by D Sluse -

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November 12, 2012, at 10:33 PM by D Sluse -

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November 12, 2012, at 10:32 PM by D Sluse -

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Research topics

AGN structure via microlensing: Study of the accretion disc, broad-line region, intrinsic absorbers in AGNs using gravitational microlensing \\

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(:Title Research:)

Research topics

AGN structure via microlensing: Study of the accretion disc, broad-line region, intrinsic absorbers in AGNs using gravitational microlensing \\

Changed line 7 from:

Dark Matter substructures: Search for massive substructures in galaxies using astrometric and photometric anomalies in strongly lensed quasars \\

to:

Dark Matter substructures: Search for massive substructures in galaxies using astrometric and photometric anomalies in strongly lensed quasars \\

Changed lines 10-13 from:

Strong lensing: Characterisation of the properties of strongly lensed systems
Main Collaborators: F. Courbin, M. Tewes, Y. Revaz, G. Meylan (EPFL), E. Rusu (Uni. Tokyo), J. Surdej, P. Magain, V. Chantry (Uni. Liege)
Cosmology: Study of cosmological parameters via time-delay measurement of strongly lensed quasars (with COSMOGRAIL and the cosmology task force) \\

to:

Strong lensing: Characterisation of the properties of strongly lensed systems
Main Collaborators: F. Courbin, M. Tewes, Y. Revaz, G. Meylan (EPFL), E. Rusu (Uni. Tokyo), G. Djorgovski (Caltech), J. Surdej, P. Magain, V. Chantry (Uni. Liege)
Cosmology: Study of cosmological parameters via time-delay measurement of strongly lensed quasars (with COSMOGRAIL and the cosmology task force) \\

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Polarisation in quasars: Photometric and spectropolarimetric study of the linear (and circular) optical polarisation in quasars. Characterisation of their large-scale alignement properties. \\

to:

Polarisation in quasars: Photometric and spectropolarimetric study of the linear (and circular) optical polarisation in quasars. Characterisation of their large-scale alignement properties. \\

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November 12, 2012, at 08:42 PM by D Sluse -

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Research topics

AGN structure via microlensing: Study of the accretion disc, broad-line region, intrinsic absorbers in AGNs using gravitational microlensing
Main Collaborators: D. Hutsemékers, L. Braibant (Uni. Liege), M. Kishimoto (MPIfR), T. Anguita (Pontifica Universidad de Chile), R. Schmidt, J. Wambsganss (ARI, Uni. Heidelberg), A. Yonehara (Kyoto Sangyo Uni.), F. Courbin, M. Tewes, G. Meylan (EPFL)
Dark Matter substructures: Search for massive substructures in galaxies using astrometric and photometric anomalies in strongly lensed quasars
Main Collaborators: O. Wucknitz (MPIfR), Dandan Xu (Uni. Bonn), P. Magain, V. Chantry (Uni. Liege), F. Courbin, G. Meylan (EPFL), N. Jackson (U. Manchester), D. Leier (Uni. Bologna)
Strong lensing: Characterisation of the properties of strongly lensed systems
Main Collaborators: F. Courbin, M. Tewes, Y. Revaz, G. Meylan (EPFL), E. Rusu (Uni. Tokyo), J. Surdej, P. Magain, V. Chantry (Uni. Liege)
Cosmology: Study of cosmological parameters via time-delay measurement of strongly lensed quasars (with COSMOGRAIL and the cosmology task force)
Main collaborators: F. Courbin, G. Meylan, M. Tewes (EPFL), S. Suyu, T. Treu (U. Santa Barbara)
Polarisation in quasars: Photometric and spectropolarimetric study of the linear (and circular) optical polarisation in quasars. Characterisation of their large-scale alignement properties.
Main Collaborators: D. Hutsemékers, A. Payez, J.R. Cudell (Uni. Liege), R. Cabanac (Uni. Toulouse), H. Lamy (Institut d'aéronomie Spatiale, Brussels)

Restore