Abstract: Device for shaping a laser beam for an atomic sensor, comprising a retroreflector prism with an entrance area, an exit area and two reflection surfaces forming a right angle therebetween. The device for shaping includes a linear polarizer disposed upstream from the entrance area of the retroreflector prism for linearly polarizing a laser beam entering into the retroreflector prism by the entrance area, and a form birefringence plate disposed downstream from the exit area of the retroreflector prism to circularly polarize a laser beam exiting from the retroreflector prism by the exit area.

Abstract: The invention relates to a gas cell for an atomic sensor, comprising an optical cavity provided with at least one optical window (9) and fillable with a gas. The cell also comprises a sealing cup comprising a cavity mouth, a channel mouth, and a sealing access, as well as a membrane which hermetically closes the sealing access of the sealing cup. The membrane can be plastically deformed by heating so as to hermetically close the cavity mouth and/or the channel mouth, in such a way as to hermetically separate the optical cavity from the gas inflow channel.

Abstract: Device for shaping a laser beam for an atomic sensor, comprising a retroreflector prism with an entrance area, an exit area and two reflection surfaces forming a right angle therebetween. The device for shaping includes a linear polarizer disposed upstream from the entrance area of the retroreflector prism for linearly polarizing a laser beam entering into the retroreflector prism by the entrance area, and a form birefringence plate disposed downstream from the exit area of the retroreflector prism to circularly polarize a laser beam exiting from the retroreflector prism by the exit area.

Abstract: The invention relates to a gas cell for an atomic sensor, comprising an optical cavity provided with at least one optical window (9) and fillable with a gas. The cell also comprises a sealing cup comprising a cavity mouth, a channel mouth, and a sealing access, as well as a membrane which hermetically closes the sealing access of the sealing cup. The membrane can be plastically deformed by heating so as to hermetically close the cavity mouth and/or the channel mouth, in such a way as to hermetically separate the optical cavity from the gas inflow channel.

Abstract: The invention relates to a process for fabricating a microcell for a caesium atomic micro-clock having an inversion temperature above 80° C., comprising a step of generating a caesium vapor by heating a caesium-containing pellet, the buffer gas used containing neon and helium.

Abstract: The invention relates to an alkali-metal vapor cell, especially for an atomic clock, and to its manufacturing process.

Abstract: The invention relates to a process for fabricating a microcell for a caesium atomic micro-clock having an inversion temperature above 80° C., comprising a step of generating a caesium vapour by heating a caesium-containing pellet, the buffer gas used containing neon and helium.

Abstract: The invention relates to an alkali-metal vapour cell, especially for an atomic clock, and to its manufacturing process.

Abstract: The sensor measures diffusion of a fluorescent marker in cavities. The sensor has a Mach-Zehnder micro-interferometer having a reference arm and a measurement arm. The reference arm has a deposit of a sensitive layer whose refractive index is modified when the sensitive layer is in contact with the fluorescent marker. In one embodiment, the micro-interferometer has a diode laser configured to generate a source beam, a substrate of silicon micro-machined with two Y junctions, where a first Y junction is configured to divide the source beam into a measurement beam along the measurement arm and a reference beam along the reference arm, a piezo-electric transducer configured to shift the frequency of the reference beam in phase by an acoustic modulation, wherein a second Y junction combines the measurement bean and the shifted reference beam to generate a combined beam; and a photo-detector configured to detect the combined beam.