Abstract: A monostatic laser rangefinder device including: a laser light source; a photodetector; a double-clad optical fiber coupled to a collimating and focusing device; and an optical fiber diplexer. The diplexer includes a first optical fiber forming an input port and a second, multimode optical fiber forming a first output port. The first fiber is coupled to the laser source, the second fiber is coupled to the photodetector, and the double-clad fiber forms a second output port. A numerical aperture of a light guide formed of an inner and outer cladding of the double-clad fiber is less than or equal to 0.5, and greater than 0.1. The end of the double-clad fiber facing the collimating and focusing device has a face inclined with respect to an axis perpendicular to the axis of the fiber by an angle greater than or equal to half of the arcsine of the numerical aperture.

Abstract: A LIDAR system is adapted for performing differential absorption measurements of a chemical compound between two distinct optical frequencies (?1, ?2), and for measuring a separation distance from an obstacle which is present in a background of a measurement zone where the absorption occurs. An emission optical power value is varied between different time intervals during a radiation emission sequence, in order to allow that the LIDAR system implements an optical fiber technology while having sufficient emission power. The LIDAR system makes it possible to evaluate an amount of the chemical compound which is contained in the measurement zone, as well as a separation distance from an obstacle which is located in the background of the measurement zone.

Abstract: A monostatic laser rangefinder device including: a laser light source; a photodetector; a double-clad optical fiber coupled to a collimating and focusing device; and an optical fiber diplexer. The diplexer includes a first optical fiber forming an input port and a second, multimode optical fiber forming a first output port. The first fiber is coupled to the laser source, the second fiber is coupled to the photodetector, and the double-clad fiber forms a second output port. A numerical aperture of a light guide formed of an inner and outer cladding of the double-clad fiber is less than or equal to 0.5, and greater than 0.1. The end of the double-clad fiber facing the collimating and focusing device has a face inclined with respect to an axis perpendicular to the axis of the fiber by an angle greater than or equal to half of the arcsine of the numerical aperture.

Abstract: According to one aspect, the invention relates to a device comprising an optical fiber having a high Brillouin threshold, said device including an optical fiber (101) suitable for propagating a high-power optical signal beam, means (11) for coupling a signal beam to an entrance end of the optical fiber (101) and a tubular structure (10) comprising at least one first tube (103) and at least one first adhesive material (102). According to the present description, at least one portion of the optical fiber is immobilized in the tubular structure (10) by means of the first adhesive material (102), which adheres both to the internal surface of the first tube (103) and to the external surface of the optical fiber (101).

Abstract: According to one aspect, the invention relates to a device comprising an optical fibre having a high Brillouin threshold, said device including an optical fibre (101) suitable for propagating a high-power optical signal beam, means (11) for coupling a signal beam to an entrance end of the optical fibre (101) and a tubular structure (10) comprising at least one first tube (103) and at least one first adhesive material (102). According to the present description, at least one portion of the optical fibre is immobilized in the tubular structure (10) by means of the first adhesive material (102), which adheres both to the internal surface of the first tube (103) and to the external surface of the optical fibre (101).

Abstract: According to one aspect, the invention relates to an optic fiber amplifier having a high Brillouin threshold, and including: an amplification optic fiber (16) comprising a core and a sheath and suitable for amplifying a signal beam travelling in said core; means for coupling the signal beam in an input end of said amplification optic fiber; means for coupling a pump laser beam for pumping said amplification optic fiber; a structure (330, 340) including a deformable portion around which at least one portion of said amplification optic fiber is wound in the shape of turns, said turns being in contact with a surface of said deformable portion, wherein the friction of said optic fiber on said surface resulting, during the deformation of said deformable portion, in an elongation of said amplification optic fiber according to an elongation profile that varies from one turn to the other.

Abstract: According to one aspect, the invention relates to an optic fiber amplifier having a high Brillouin threshold, and including: an amplification optic fiber (16) comprising a core and a sheath and suitable for amplifying a signal beam travelling in said core; means for coupling the signal beam in an input end of said amplification optic fiber; means for coupling a pump laser beam for pumping said amplification optic fiber; a structure (330, 340) including a deformable portion around which at least one portion of said amplification optic fiber is wound in the shape of turns, said turns being in contact with a surface of said deformable portion, wherein the friction of said optic fiber on said surface resulting, during the deformation of said deformable portion, in an elongation of said amplification optic fiber according to an elongation profile that varies from one turn to the other.