Abstract: This atomic clock comprises means for applying two mutually perpendicular oscillating magnetic fields (9, 10), governed by a control device (5) that makes them apply a static or nearly static magnetic field for compensating the ambient magnetic field in order to cancel sub-level energy variations of the matter, which disrupt the frequency of the returned photons and the reference provided by the clock. Traditional magnetic shielding may be omitted. Said device can also operate as a magnetometer.

Abstract: The invention relates to an electrostatic actuation micro-switch of capacitor type composed of two plates, the first of which is a flexible membrane and the second of which comprises at least one control electrode, the two plates being separated by a thickness of vacuum or gas and at least one layer of at least one electrical insulating material situated on the control electrode characterized in that it furthermore comprises a charge drain consisting of oriented conducting nanotubes on the surface of the said electrode, the said drain being overlaid with the said layer of electrical insulating material. The subject of the invention is also a method for fabricating the micro-switch according to the invention.

Abstract: An IC has cells placed in a cell row having a UTBOX-FDSOI pMOSFET including a ground beneath the pMOS, and an n-doped well beneath it and configured to apply a potential thereto, and a UTBOX-FDSOI nMOSFET including a ground beneath the nMOS, and a p-doped well beneath the ground and configured to apply a potential thereto, and cells, each including a UTBOX-FDSOI pMOSFET including a ground beneath the pMOS, and a p-doped well beneath the ground and configured to apply an electrical potential to the ground, and a UTBOX-FDSOI nMOSFET including a ground beneath the nMOS, and an n-doped well beneath the ground and configured to apply a potential thereto. The cells are placed so that pMOS's of standard cells belonging to a row align along it and a transition cell including a another well and contiguous with first row standard cells thus ensuring continuity with wells of those cells.

Abstract: Methods of fabrication of electronic modules comprise, on the one hand, power electronic components fabricated on a substrate made of gallium nitride (GaN) and, on the other hand, micro-switches using electrostatic activation of the MEMS (Micro Electro Mechanical System) type. The electronic components and the micro-switches are fabricated on a single gallium nitride substrate and the fabrication method comprises at least the following steps: fabrication of the power components on the gallium nitride substrate; deposition of a first common passivation layer on said components and on the substrate; fabrication of the micro-switches on said substrate.

Abstract: A method of deblocking an ophthalmic lens component (100) blocked on a thermoplastic layer (310) arranged on the holding surface (210) of a lens holding block (200) comprising the step of applying a pushing force on the thermoplastic layer (310), wherein the pushing force is greater or equal to 100 N and smaller or equal to 1000 N and wherein the pushing force is applied in a region of the thermoplastic layer (310) situated at a distance of at least 17.5 mm from the fitting point or prism reference point of the ophthalmic lens component (100).

Abstract: An atomic clock comprises helium 3 plasma as measurement medium, which is taken to the plasma state to exploit the metastable state of the material and the levels of the hyperfine structure, the lifetime of which is long and which thus enable an easier measurement than the excitations of gaseous atoms.

Abstract: An atomic clock including a mechanism applying both a static magnetic field and two oscillating magnetic fields, all mutually perpendicular, in a magnetic shield. The amplitudes and frequencies of the oscillating magnetic fields may be chosen so as to annihilate energy variations between sub-transition levels of excited atoms and to reinforce a clock output signal, and with low sensitivity to defects in regulation.

Abstract: The invention relates to an RF circulator device with n ports allowing an RF signal to circulate in a single direction, where the circulator has at least three ports, an input port for receiving a radio frequency signal to be transmitted to a second port designed to be connected to an antenna port, an output port capable of being connected to a receiving device or a load, comprising a first and a second microswitches each comprising two armatures of which the first is a flexible membrane and the second comprises at least one zone of a signal line, both armatures being separated by a thickness of void or of gas, the device making it possible to connect the main line to ground planes by self-actuation of the membrane under the effect of an input signal power.

Abstract: The turbomachine blade has ribs formed in the vicinity of the trailing edge. Over the major fraction of the trailing edge (42), in zones where the temperature in operation is particularly high, the ends (53) of the ribs are closer to the trailing edge and/or the sections of the ribs (F) are greater. Thereby, the design of the blade is optimized and the lifetime thereof is increased.

Abstract: A method for blocking an optical lens (100) on a holding unit (200) thanks to a thermoplastic material layer (310) comprising the steps of: a) providing around the holding unit (200) a removable part (500) comprising an upper part surface (510) which is arranged so as to extend the upper assembling surface (210) of the holding unit and not to contact the bottom lens surface (120); b) providing a predetermined volume of a thermoplastic material; c) orientating the lens (100) in a desired spatial configuration; d) positioning the lens (100) contacting the thermoplastic material of step b) at a soften or melted state and pressing the lens (100) so as to keep the lens spatial configuration constant and to let the thermoplastic material flow from the upper assembling surface (210) of the holding unit to at least a part of the upper part surface (510) of the removable part (500); e) removing the removable part.

Abstract: This method makes it possible to carry out the auto-calibration of the electromagnetic coils (6, 7, 8) of an apparatus such as an atomic clock, a magnetometer or a gyroscope by injecting successive currents into the coils and measuring the magnetic fields induced in order to calculate the transfer coefficients (field/current) of each of the coils and the real angles that they form with very great precision.

Abstract: A method for producing an epitaxial layer. First, a structure is fabricated by: formation of an intermediate layer on a donor substrate; and formation of the epitaxial layer on the intermediate layer by epitaxy; with the melting temperature of the intermediate layer being lower than the melting temperature of the epitaxial layer; and then a detachment step for transferring the epitaxial layer from the donor substrate. The detachment step includes applying at least one thermal treatment performed at a temperature of between the melting temperature of the intermediate layer and the melting temperature of the epitaxial layer.

Abstract: A method for blocking and/or deblocking an optical lens (100) on a heat conducting holding unit (200) comprising an upper assembling surface (210) comprising the steps of: a) providing first layer consisting of an adhesive tape (330) on the upper assembling surface (210) of the holding unit; b) providing a second layer consisting of a layer (310 comprising a thermoplastic material arranged on said adhesive tape (330); c) providing the optical lens (100) with a third layer consisting of an adhesive tape (320) arranged on the bottom surface (120) of said optical lens; d) placing the optical lens (100) with the third layer (320) on the second layer (310) consisting of a layer comprising a thermoplastic material when the thermoplastic material is soften or melted. A method for deblocking said optical lens (100) thanks to heating the holding unit (200).

Abstract: The invention relates to an electrostatic actuation micro-switch of capacitor type composed of two plates, the first of which is a flexible membrane and the second of which comprises at least one control electrode, the two plates being separated by a thickness of vacuum or gas and at least one layer of at least one electrical insulating material situated on the control electrode characterized in that it furthermore comprises a charge drain consisting of oriented conducting nanotubes on the surface of the said electrode, the said drain being overlaid with the said layer of electrical insulating material. The subject of the invention is also a method for fabricating the micro-switch according to the invention.

Abstract: A process for reducing defects during formation of a transfer layer on a composite support having a central layer with a first thermal expansion coefficient. The method includes providing the composite support with at least one pair of lateral layers about the central layer, with the layers of each pair having second thermal expansion coefficients and thicknesses that are substantially identical to one another to thus provide the composite support with an overall thermal expansion coefficient that is sufficiently close to that of the transfer layer; conducting crystalline growth of the transfer layer on a growth substrate; bonding the transfer layer to the composite support; and removing the growth substrate to provide the transfer layer on the composite support without generating an excessive number of defects in the transfer layer due to the matching of the overall thermal expansion coefficients of the composite substrate and transfer layer.

Abstract: A composite support designed to successfully receive a transfer layer made of a crystalline material so that the assembly forms an epitaxy substrate, with the support having a longitudinal plane of symmetry parallel to its principal surfaces and a plurality of layers. The support includes a central first layer having a first thermal expansion coefficient at a specified temperature T and extending transversely on either side of the plane of symmetry and at least one pair of lateral layers. The layers of each pair, one with respect to the other, have arrangements in the composite support that are substantially symmetrical with respect to the plane of symmetry; second thermal expansion coefficients at the temperature T that are substantially identical to one another; and thicknesses that are substantially identical to one another.

Abstract: A method of deblocking a lens component (1) fixed on a thermoplastic block (2) of an ophthalmic lens block comprising the steps of: a) applying a pushing strain on the surface (14) of the lens component fixed on the thermoplastic block; b) providing a warm gas flow at the interface between the lens component (1) and the thermoplastic block; and maintaining the pushing strain during the step of providing the warm gas flow at the interface between the lens component and the thermoplastic block, wherein the stress applied to obtain the pushing strain of step a) is greater or equal to 0.1 MPa and/or less or equal to 1 Mpa, and wherein the temperature of the warm gas flow of step b) is greater or equal to 30° and/or less or equal to 70° C.

Abstract: A method for producing an epitaxial layer. First, a structure is fabricated by: formation of an intermediate layer on a donor substrate; and formation of the epitaxial layer on the intermediate layer by epitaxy; with the melting temperature of the intermediate layer being lower than the melting temperature of the epitaxial layer; and then a detachment step for transferring the epitaxial layer from the donor substrate. The detachment step includes applying at least one thermal treatment performed at a temperature of between the melting temperature of the intermediate layer and the melting temperature of the epitaxial layer.

Abstract: An atomic clock comprises helium 3 plasma as measurement medium, which is taken to the plasma state to exploit the metastable state of the material and the levels of the hyperfine structure, the lifetime of which is long and which thus enable an easier measurement than the excitations of gaseous atoms.

Abstract: A method for blocking an optical lens (10) comprising a moving step in which the optical lens (10) is moved from a first reference position (P1) to a second reference position (P2), so as to be in contact with a blocking material (14), the blocking material (14) being in a molding block (16), the second reference position (P2) being a function of the first reference position (P1), wherein the method further comprises an orienting step in which the optical lens (10) is oriented in the first reference position (P1) and placed on a plurality of pre-located pins (18) which are vertically translated into a preset position (Z1, Z2, Z3), so that, when the optical lens (10) is placed on the plurality of pre-located pins (18), the optical lens (10) is oriented in the first reference position (P1) where the prism of the optical lens (10) corresponds to a desired prism (?f, ?f, Zf).