We compare, using single-particle optical imaging, trajectories of rotation and translation for micron-sized spheres in index-matched colloidal suspensions near their glass transition. Rotational trajectories, while they show intermittent caged behavior associated with supercooled and glassy behavior, explore a sufficiently wider phase space such that in the averaged mean-square angular displacement there appears no plateau regime, but instead sub-Fickian angular diffusion that follows an apparent power law in time. We infer translation and rotation time constants, the former being the time to diffuse a particle diameter and the latter being the time to rotate a full revolution. Correlation between time constants increases with increasing v...
10 pages, 15 figuresInternational audienceIn a dense colloidal suspension at a volume fraction sligh...
Confocal scanning laser microscopy has been used to quantitatively analyze the structure and dynamic...
Recent experiments show a strong rotational diffusion enhancement for self-propelled microrheologica...
12 pages, 7 figuresInternational audienceWe study the rotational diffusion of aging Laponite suspens...
We report an experimental method to measure the translational and rotational dynamics of colloidal s...
We study the dynamics of translational and rotational diffusion during the ageing of a colloidal gla...
This thesis reports results from a study of particle dynamics in colloidal glasses in the absence an...
We have computed the rotational diffusion coefficient for a suspension of hard spheres. We find exce...
Glasses behave as solids due to their long relaxation time; however the origin of this slow response...
Understanding the mechanical properties of glasses is a great scientific challenge. A powerful techn...
textSingle molecule spectroscopy is used to investigate the spatial heterogeneities that cause the ...
Single-particle tracking was used to measure the diffusion in aqueous suspension of dilute colloidal...
We introduce the time-resolved phosphorescence anisotropy (TPA) method to study rotational diffusion...
Glass formers constitute of anisotropic particles was mainly studied by simulations in three dimensi...
Glass-forming materials are characterized by an intermittent motion at the microscopic scale. Partic...
10 pages, 15 figuresInternational audienceIn a dense colloidal suspension at a volume fraction sligh...
Confocal scanning laser microscopy has been used to quantitatively analyze the structure and dynamic...
Recent experiments show a strong rotational diffusion enhancement for self-propelled microrheologica...
12 pages, 7 figuresInternational audienceWe study the rotational diffusion of aging Laponite suspens...
We report an experimental method to measure the translational and rotational dynamics of colloidal s...
We study the dynamics of translational and rotational diffusion during the ageing of a colloidal gla...
This thesis reports results from a study of particle dynamics in colloidal glasses in the absence an...
We have computed the rotational diffusion coefficient for a suspension of hard spheres. We find exce...
Glasses behave as solids due to their long relaxation time; however the origin of this slow response...
Understanding the mechanical properties of glasses is a great scientific challenge. A powerful techn...
textSingle molecule spectroscopy is used to investigate the spatial heterogeneities that cause the ...
Single-particle tracking was used to measure the diffusion in aqueous suspension of dilute colloidal...
We introduce the time-resolved phosphorescence anisotropy (TPA) method to study rotational diffusion...
Glass formers constitute of anisotropic particles was mainly studied by simulations in three dimensi...
Glass-forming materials are characterized by an intermittent motion at the microscopic scale. Partic...
10 pages, 15 figuresInternational audienceIn a dense colloidal suspension at a volume fraction sligh...
Confocal scanning laser microscopy has been used to quantitatively analyze the structure and dynamic...
Recent experiments show a strong rotational diffusion enhancement for self-propelled microrheologica...