Abstract: A method for manufacturing a biocompatible fluid including a powder of magnetic particles of elongated shape having a magnetic shape anisotropy and having a final granulometry, the final granulometry being defined by a first average size of the particles in a first direction and a second average size in a second direction different from the first direction, the final granulometry further being defined by a first distribution width of the first sizes and a second distribution width of the second sizes, the method including from a powder of magnetic particles having an initial granulometry different from the final granulometry, modification of the initial granulometry by milling and/or by sintering of the powder until the final granulometry is obtained; introduction of the powder of magnetic particles into a biocompatible fluid.

Abstract: A magnetic field sensor includes first and second sensors for detecting first and second magnetic components according to first and second directions. Each sensor includes a flux concentrator including first and second magnetic parts, an air gap between the parts, and a magnetoresistive element in the air gap. Each magnetoresistive element includes a reference layer having a fixed magnetization direction, the fixed magnetization direction of the first and second sensors being substantially identical, and a sensitive layer having a variable magnetization direction, the variable magnetization direction of the first sensor when the first sensor is in a state of rest being substantially identical to the variable magnetization direction of the second sensor when the second sensor is in the state of rest. The air gaps of first and second sensor are oriented parallel to a direction XY which is, at ±15°, the bisector of the first and second directions.

Abstract: A magnetic field sensor includes first and second sensors for detecting first and second magnetic components according to first and second directions. Each sensor includes a flux concentrator including first and second magnetic parts, an air gap between the parts, and a magnetoresistive element in the air gap. Each magnetoresistive element includes a reference layer having a fixed magnetisation direction, the fixed magnetisation direction of the first and second sensors being substantially identical, and a sensitive layer having a variable magnetisation direction, the variable magnetisation direction of the first sensor when the first sensor is in a state of rest being substantially identical to the variable magnetisation direction of the second sensor when the second sensor is in the state of rest. The air gaps of first and second sensor are oriented parallel to a direction XY which is, at ±15°, the bisector of the first and second directions.

Abstract: Magnetic tweezers have two jaws formed by thin magnetic films connected together via a hinge. The magnetic tweezers include a nanoparticle formed by a stack of thin magnetic films. A process for fabricating the magnetic tweezers by techniques used in the fabrication of microelectronic components is presented.

Abstract: A magneto-optic surface includes a support; at least two moving elements; each of the moving elements including at least one anchoring point to the support and at least one moving part movable with respect to the support, the moving part including at least one magnetic part; the support and the moving elements being laid out in such a way that under the effect of an external magnetic field, at least one of the moving elements moves with respect to the support such that the optical properties of the magneto-optic surface are modified.

Abstract: A magneto-optic surface includes a support; at least two moving elements; each of the moving elements including at least one anchoring point to the support and at least one moving part movable with respect to the support, the moving part including at least one magnetic part; the support and the moving elements being laid out in such a way that under the effect of an external magnetic field, at least one of the moving elements moves with respect to the support such that the optical properties of the magneto-optic surface are modified.

Abstract: Magnetic tweezers have two jaws formed by thin magnetic films connected together via a hinge. The magnetic tweezers include a nanoparticle formed by a stack of thin magnetic films. A process for fabricating the magnetic tweezers by techniques used in the fabrication of microelectronic components is presented.

Abstract: A miniature magnetic core includes at least one bar magnet having, in the demagnetized state, a plurality of magnetic domains separated by magnetic walls, the bar magnet having permanent discontinuities placed at least approximately at the probable locations of at least some of these magnetic walls in the absence of these permanent discontinuities. A miniature sensor includes a miniature core that cooperates with at least one excitation coil and at least one detection coil. A method for manufacturing the magnetic core includes identifying the probable location of the magnetic walls, depositing at least a thin film of magnetic material on a support in order to form the core and producing, in said core, discontinuities approximately at the identified locations of the walls.

Abstract: A microparticle includes an oblong flexible tail able to propel the microparticle in a solution along a trajectory using beats transverse to the trajectory, the tail including at least one magnetic element such that the magnetic element causes beats of the tail under the action of an external alternating magnetic field non-collinear with the trajectory and a head mechanically connected to a proximal end of the tail. The microparticle includes at least one layer of material formed from one piece and including the tail and the head, the dimensions and/or shape of the head being selected such that the beats of the proximal end of the tail are limited with respect to the beats of the distal end of the tail and such that the head does not perform a complete revolution around an axis parallel to the trajectory under the effect of the external alternating magnetic field.

Abstract: A miniature magnetic core includes at least one bar magnet having, in the demagnetized state, a plurality of magnetic domains separated by magnetic walls, the bar magnet having permanent discontinuities placed at least approximately at the probable locations of at least some of these magnetic walls in the absence of these permanent discontinuities. A miniature sensor includes a miniature core that cooperates with at least one excitation coil and at least one detection coil. A method for manufacturing the magnetic core includes identifying the probable location of the magnetic walls, depositing at least a thin film of magnetic material on a support in order to form the core and producing, in said core, discontinuities approximately at the identified locations of the walls.

Abstract: The invention relates to a method for producing a component with a first face of a plate-shaped structure involving the following steps: engraving a second face of the structure, which is opposite the first face, on a portion of its surface in order to define an area of reduced thickness, and; inclining the area of reduced thickness with regard to said structure. A component of this type has a recess between the plate-shaped structure and the inclined area of reduced thickness. The inclined area can support active elements that function according to a direction defined by the inclination.

Abstract: The invention relates to an improved micro-fluxgate magnetometer capable of reducing noise phenomena that can occur when measuring a magnetic field, in a simple manner, and a method for manufacturing such a magnetometer in thin layers.

Abstract: A miniature magnetic field sensor including a magnetic core which co-operates with at least one excitation coil and a detection coil. In the magnetic field sensor, the core is open and includes at least one bar having tapered ends. A method of fabricating the sensor is provided using microtechnology techniques.

Abstract: A miniature magnetic field sensor including a magnetic core which co-operates with at least one excitation coil and a detection coil. In the magnetic field sensor, the core is open and includes at least one bar having tapered ends. A method of fabricating the sensor is provided using microtechnology techniques.