(:title Polarization of quasars and Active Galactic Nucleii:)

I worked on the determination of the optical polarisation properties of about 200 quasars, increasing by more than 30% the number of quasars with measured optical polarisation ([[ http://adsabs.harvard.edu/abs/2005A%26A...433..757S | Sluse et al. 2005]]). I also tracked systematic errors that could contaminate the measurement of the intrinsic polarization degree of the quasars (such as polarization produced by aligned dust in our galaxy). This work enabled us ([[ http://adsabs.harvard.edu/abs/2005A%26A...441..915H | Hutsemékers et al. 2005]]) to confirm the existence of a correlation in the oritentation of the polarization vector quasars over scales of 1 Gpc and to characterize the properties of this effect. This surprising effect was thought to be caused by weak interactions between dark matter and polarized light. However, we obtained for the first time systematic circular polarization measurement for about 20 objects ([[http://adsabs.harvard.edu/abs/2010A%26A...520L...7H| Hutsemékers et al. 2010]]). The low level of circular polarization (generally V < 0.05 %) observed in those objects disfavour the above mentioned scenario, at least in its simplest formulation. \\

%cframe width=600px% Attach:Pola.png | Maps of quasar polarization vectors in the NGP region, together with the corresponding distributions of polarization degree and angle. ([[http://adsabs.harvard.edu/abs/2005A%26A...441..915H | Hutsemékers, Cabanac, Lamy et Sluse 2005]]).

More recently, I performed the first ground based measurement of the optical polarisation of the individual images of a lensed quasar, H1413+117 in imaging ([[ http://adsabs.harvard.edu/abs/2010A%26A...519A.103H | Hutsemékers et al. 2010]]) and spectropolarimetric mode (in. prep). These new data enabled us to show that the polarization degree (and angle) of the most micro-lensed image is different from the one of the other images, suggesting that microlensing affects the scattering region where the quasar intrinsic polarization is produced.

%cframe width=600px% Attach:Pola.png | Maps of quasar polarization vectors in the NGP region, together
with the corresponding distributions of polarization degree and angle. ([[http://adsabs.harvard.edu/abs/2005A%26A...441..915H | Hutsemékers, Cabanac, Lamy et Sluse 2005]]).

%cframe width=300px% Attach:Pola.png | Maps of quasar polarization vectors in the NGP region, together
with the corresponding distributions of polarization degree and angle. ([[http://adsabs.harvard.edu/abs/2005A%26A...441..915H | Hutsemékers, Cabanac, Lamy et Sluse 2005]])

%cframe width=300px% Attach:pola.png | Maps of quasar polarization vectors in the NGP region, together

More recently, I performed the first ground based measurement of the optical polarisation of the individual images of a lensed quasar, H1413+117 in imaging ([[ http://adsabs.harvard.edu/abs/2010A%26A...519A.103H | Hutsemékers et al. 2010]]) and spectropolarimetric mode (in. prep). These new data enabled us to show that the polarization degree (and angle) of the most micro-lensed image is different from the one of the other images, suggesting that microlensing affects the scattering region where the quasar intrinsic polarization is produced.

I worked on the determination of the optical polarisation properties of about 200 quasars, increasing by more than 30% the number of quasars with measured optical polarisation (Sluse et al. 2005). I also tracked systematic errors that could contaminate the measurement of the intrinsic polarization degree of the quasars (such as polarization produced by aligned dust in our galaxy). This work enabled us (Hutsemékers et al. 2005) to confirm the existence of a correlation in the oritentation of the polarization vector quasars over scales of 1 Gpc and to characterize the properties of this effect. This surprising effect was thought to be caused by weak interactions between dark matter and polarized light. However, we obtained for the first time systematic circular polarization measurement for about 20 objects. The low level of circular polarization (generally V < 0.05 %) observed in those objects disfavour the above mentioned scenario, at least in its simplest formulation. \\

More recently, I performed the first ground based measurement of the optical polarisation of the individual images of a lensed quasar, H1413+117 in imaging (Hutsemékers et al. 2010) and spectropolarimetric mode (in. prep). These new data enabled us to show that the polarization degree (and angle) of the most micro-lensed image is different from the one of the other images, suggesting that microlensing affects the scattering region where the quasar intrinsic polarization is produced.