Abstract: A process is for laser-welding resinous members, and includes the steps of overlapping a transparent resinous member on an absorptive resinous material, and irradiating the transparent resinous member with a laser beam, thereby welding an interface between the transparent resinous member and the absorptive resinous member as a strip shape, wherein the energy of the laser beam acting on a side of a major-curvature-radius curved part of the strip-shaped welded interface and the energy of the laser beam acting on a side of a minor-curvature-radius curved part thereof are averaged.

Abstract: Disclosed herein is a vehicle camera system adapted for easy position matching of an image sensor and a lens assembly, and capable of being reduced in assembling time.

Abstract: Disclosed herein is a vehicle-mounted type of camera capable of being reduced in the space required for installation on the windshield of a vehicle. An imaging unit 15 is provided on a substrate 19 and has an optical axis in a direction perpendicular to the substrate surface. The substrate 19 is set up in parallel with respect to the windshield of the vehicle. A lens 14 is disposed on the optical axis. A mirror 16 is also provided on the optical axis of the imaging unit 15, and is adapted to change a direction of the optical axis to a frontward direction of the vehicle, thus guiding frontward visual field information of the vehicle to the imaging unit 15. The mirror 16 is retained in an attachment 11. The attachment 11 can be engaged with and disengaged from an enclosure 12 that holds the lens 14.

Abstract: A fast and very low-power-consuming nonvolatile memory. A nonvolatile magnetic memory includes a high-output tunnel magnetoresistive device, in which spin-transfer torque is used for writing. A tunnel magnetoresistive device has a structure such that a ferromagnetic film of a body-centered cubic structure containing Co, Fe, and B, a MgO insulator film of a rock-salt structure oriented in (100), and a ferromagnetic film are stacked.

Abstract: A magnetic head is provided with a giant magnetoresistive element, barrier layer, and highly polarized spin injection layer. The barrier layer is inserted between the giant magnetoresistive element and the injection layer. By applying a sensing current to both the magnetoresistive element and the injection layer, an output of the magnetic head can be multiplied significantly. The output of the head is increased by increasing a resistance change rate of a magnetoresistive element used as a reading element. The increasing of the resistance change rate is due to that a band of s electrons in the Cu film grown in the highly polarized spin injection layer is placed in a highly polarized state near the Fermi level and the upward spin current only flows into the giant magnetoresistive element, which has multiplied the output.

Abstract: A magnetic memory cell and a magnetic random access memory that are highly reliable and low-power consuming. An upper electrode having a connecting area smaller than the area of a ferromagnetic free layer of a magnetic memory cell is connected to the ferromagnetic free layer. A current is applied to produce an uneven magnetic field over the magnetic memory cell, whereby spin-transfer torque magnetization reversal can be realized with low current and at small write error rate.

Abstract: A highly integrated magnetic memory with low power consumption is provided. A first element portion which has a free layer, a first pinned layer formed in the film thickness direction of the free layer, and an insulation barrier layer formed between the free layer and the first pinned layer, and a second element portion which has the aforementioned free layer, a second pinned layer formed in the film surface direction of the free layer, and a non-magnetic layer formed between the free layer and the second pinned layer are provided. A current IW flows in the film surface direction of the second element portion for writing the magnetic information and a current IR flows in the film thickness direction of the first element portion for reading the magnetic information.

Abstract: To provide a highly-reliable, low-power-consumption nonvolatile memory. A magnetization reversal of a ferromagnetic free layer is accomplished with a spin transfer torque in a state where an appropriate magnetic field is applied in a direction orthogonal to the direction of the magnetic easy axis of the ferromagnetic free layer of the tunnel magnetoresistance device that the magnetic memory cell includes. Preferably, the magnetic field is applied in a direction forming an angle of 45° with the direction perpendicular to the film plane.

Abstract: Provided is a high-speed, super-low-power-consumption nonvolatile memory with a high thermal stability. A nonvolatile magnetic memory is equipped with high-output tunnel magnetic resistance devices to each of which a free layer with a high thermal stability is applied, while a writing method by spin transfer torque is applied to the memory. The tunnel magnetic resistance device has a free layer including a first ferromagnetic film and the second ferromagnetic film each of which has a body center cubic structure and each of which contains Co, Fe and B. The free layer, additionally, includes a first non-magnetic layer. The tunnel magnetic resistance device has a layered structure formed of the free layer and a pinned layer with a MgO insulating film with a (100) orientation rock-salt structure interposed in between.

Abstract: Provided is a magnetic head having a magnetoresistive device which has high output and is best suited to high-recording-density magnetic recording/reading. A magnetic sensor having large output can be realized by providing a magnetic sensor which comprises: a first ferromagnetic film; a conductor which intersects the first ferromagnetic film via a first intermediate layer; a current circuit structure which is connected so as to cause a current to flow from the first ferromagnetic layer to the conductor; a second ferromagnetic film which is formed on the conductor in an intersecting manner via a second intermediate layer and which generates a signal of voltage changing according to a change in an external magnetic field; a voltage change amplifier film which contains materials whose resistance changes nonlinearly due to voltage; and an electrode which is connected to the voltage change amplifier film.

Abstract: Disclosed is a magnetic memory apparatus which comprises a patterned magnetic recording medium in which multilayered films each having a first magnetic layer, a nonmagnetic metal layer or a nonmagnetic insulating layer and a second magnetic layer deposited discretely on a conductive electrode layer formed on a substrate, and a cantilever array having a plurality of cantilevers each having a conductive chip at its distal end. This provides a magnetic solid memory apparatus that has a large memory capacity and a super fast transfer rate, the merits of a hard disk apparatus, and a nanostructure and low power consumption, which are the merits of a semiconductor memory.

Abstract: The present invention provides a ferromagnetic tunnel magnetoresistive film which is associated with a high output and whose magnetoresistive ratio is less dependent on a bias voltage. In a three-terminal ferromagnetic tunnel magnetoresistive element, a decrease in an output is suppressed by a bias voltage V1 applied to one of the tunnel junctions. By employing half-metallic ferromagnets 11 and 12 in the element, the output can be enhanced and the dependency on the applied bias voltage can be reduced.

Abstract: A magnetic memory is provided with a high-output memory cell capable of switching and magnetization reversal operations by means of two terminals. There is formed an MIS junction laminated layer comprising a diode, a spin transfer torque magnetization reversal induction layer, and a tunnel magnetoresistive device. A bit line and a word line are connected to the laminated layer.

Abstract: A fast and very low-power-consuming nonvolatile memory. A nonvolatile magnetic memory includes a high-output tunnel magnetoresistive device, in which spin-transfer torque is used for writing. A tunnel magnetoresistive device has a structure such that a ferromagnetic film of a body-centered cubic structure containing Co, Fe, and B, a MgO insulator film of a rock-salt structure oriented in (100), and a ferromagnetic film are stacked.

Abstract: The present invention provides a ferromagnetic tunnel magnetoresistive film which is associated with a high output and whose magnetoresistive ratio is less dependent on a bias voltage. In a three-terminal ferromagnetic tunnel magnetoresistive element, a decrease in an output is suppressed by a bias voltage V1 applied to one of the tunnel junctions. By employing half-metallic ferromagnets 11 and 12 in the element, the output can be enhanced and the dependency on the applied bias voltage can be reduced.

Abstract: A magnetic memory is provided with a high-output memory cell capable of switching and magnetization reversal operations by means of two terminals. There is formed an MIS junction laminated layer comprising a diode, a spin transfer torque magnetization reversal induction layer, and a tunnel magnetoresistive device. A bit line and a word line are connected to the laminated layer.

Abstract: A magnetic nonvolatile memory cell includes a C-MOSFET, a spin torque magnetization inversion layer and a tunneling magnetoresistive layer arranged in this order. The memory cell has the function of spin torque magnetization inversion and consumes very low power. A random access memory includes a plurality of the memory cells.

Abstract: A magnetic memory is provided with a high-output memory cell capable of switching and magnetization reversal operations by means of two terminals. There is formed an MIS junction laminated layer comprising a diode, a spin transfer torque magnetization reversal induction layer, and a tunnel magnetoresistive device. A bit line and a word line are connected to the laminated layer.

Abstract: The present invention provides a ferromagnetic tunnel magnetoresistive film which is associated with a high output and whose magnetoresistive ratio is less dependent on a bias voltage. In a three-terminal ferromagnetic tunnel magnetoresistive element, a decrease in an output is suppressed by a bias voltage V1 applied to one of the tunnel junctions. By employing half-metallic ferromagnets 11 and 12 in the element, the output can be enhanced and the dependency on the applied bias voltage can be reduced.

Abstract: The present invention provides a ferromagnetic tunnel magnetoresistive film which is associated with a high output and whose magnetoresistive ratio is less dependent on a bias voltage. In a three-terminal ferromagnetic tunnel magnetoresistive element, a decrease in an output is suppressed by a bias voltage V1 applied to one of the tunnel junctions. By employing half-metallic ferromagnets 11 and 12 in the element, the output can be enhanced and the dependency on the applied bias voltage can be reduced.