Abstract: Method for manufacturing a composite material combining a metal oxide or metalloid based matrix suited for allowing light to pass, and a mineral pigment dispersed in the matrix, the method comprising a step of mixing the mineral pigment in powder form with the matrix in powder form, and a step of sintering of the mixture under sufficient pressure such that the densification temperature of the matrix under said pressure is below the breakdown temperature of the mineral pigment, where the sintering temperature is greater than or equal to the densification temperature of the matrix and below the breakdown temperature of the mineral pigment.

Abstract: The invention relates to equipment comprising an underwater robot (1) and a device (2) for the remote control of the robot, which can communicate with each other, wherein: the robot comprises means for underwater movement and an image-capturing device; and the control device comprises 3D glasses designed so that a user wearing the glasses views the underwater environment of the robot in three dimensions on the basis of the images captured by the robot, and means for remotely guiding the movement of the robot on the basis of the three-dimensional underwater environment viewed.

Abstract: A solid composite material combining: an inorganic pigment in the form of discrete particles each comprising a colored core and a coating adapted to allow light to pass through and a matrix based on metalloid or metal oxide, said matrix being adapted to allow light to pass through.

Abstract: An oscillating regulator for a timepiece includes at least two resonant oscillating systems (20, 30), each one having at least one magnetic component (25, 35) suitable for exchanging magnetic energy between the oscillating systems during their oscillations. The shafts (22, 32) of at least two of the oscillating systems (20, 30) differ substantially from each other in terms of their respective orientation.

Abstract: Method for manufacturing a composite material combining a metal oxide or metalloid based matrix suited for allowing light to pass, and a mineral pigment dispersed in the matrix, the method comprising a step of mixing the mineral pigment in powder form with the matrix in powder form, and a step of sintering of the mixture under sufficient pressure such that the densification temperature of the matrix under said pressure is below the breakdown temperature of the mineral pigment, where the sintering temperature is greater than or equal to the densification temperature of the matrix and below the breakdown temperature of the mineral pigment.

Abstract: The invention relates to an oscillating regulator for a timepiece comprising at least two resonant oscillating systems (20, 30), each one comprising at least one magnetic component (25, 35) suitable for exchanging magnetic energy between the oscillating systems during the oscillations thereof. The shafts (22, 32) of at least two of said oscillating systems (20, 30) differ substantially from each other in terms of the respective orientation thereof.