摘要:
A trench metal oxide semiconductor transistor device and a manufacturing method thereof are described. The trench metal oxide semiconductor transistor device includes a substrate of a first conductivity type, a drift region of the first conductivity type, a deep trench doped region of a second conductivity type, an epitaxial region of the second conductivity type, a trench gate, a gate insulating layer, a source region, a drain electrode and a source electrode. The drift region has at least one deep trench therein, and the deep trench doped region is disposed in the deep trench. The trench gate passes through the epitaxial region, and a distance between a bottom of the trench gate and a bottom of the deep trench doped region is 0.5˜3 μm.
摘要:
A trench metal oxide semiconductor transistor device and a manufacturing method thereof are described. The trench metal oxide semiconductor transistor device includes a substrate of a first conductivity type, a drift region of the first conductivity type, a deep trench doped region of a second conductivity type, an epitaxial region of the second conductivity type, a trench gate, a gate insulating layer, a source region, a drain electrode and a source electrode. The drift region has at least one deep trench therein, and the deep trench doped region is disposed in the deep trench. The trench gate passes through the epitaxial region, and a distance between a bottom of the trench gate and a bottom of the deep trench doped region is 0.5˜3 um.
摘要:
A magnetic sensor for sensing an external magnetic field includes first and second electrodes and first and second magnetic tunneling junctions. The first and second electrodes are disposed over a substrate; and the first and second magnetic tunneling junctions are conductively disposed between the first and second electrodes and connected in parallel between the first and second electrodes. The first and second magnetic tunneling junctions are arranged along a first easy axis of the magnetic sensor. The first magnetic tunneling junction includes a first pinned magnetization and a first free magnetization, and the second magnetic tunneling junction includes a second pinned magnetization and a second free magnetization. The first free magnetization and the second free magnetization are arranged substantially in parallel to the first easy axis and in substantially opposite directions.
摘要:
A structure of TMR includes two magnetic tunneling junction (MTJ) devices with the same pattern and same magnetic film stack on a same conducting bottom electrode and a parallel connection of conducting top electrode. Each MTJ device includes a pinned layer on the bottom electrode, having a pinned magnetization; a non-magnetic tunneling on the pinned layer; and a free layer on the tunneling layer, having a free magnetization. These two MTJ devices have a collinear of easy-axis and their pinned magnetizations all are parallel to a same pinned direction which has an angle of 45 degree to easy-axis; their free magnetizations initially are parallel to the easy-axis but directions are mutual anti-parallel by applying a current generated ampere field. The magnetic field sensing direction is perpendicular to the easy-axis on the substrate.
摘要:
A magnetoresistive device with perpendicular magnetization includes a magnetic reference layer, a first magnetic multi-layer film, a tunneling barrier layer, a second magnetic multi-layer film, and a magnetic free layer. The magnetic reference layer has a first magnetization direction, perpendicular to the magnetic reference layer. The first magnetic multi-layer film, having non-magnetic material layer, is disposed in contact on the magnetic reference layer. The tunneling barrier layer is disposed in contact on the first magnetic multi-layer film. The second magnetic multi-layer film, having non-magnetic material layer, is disposed in contact on the tunneling barrier layer. The magnetic free layer is disposed in contact on the second magnetic multi-layer film, having a second magnetization direction capable of being switched to be parallel or anti-parallel to the first magnetization direction.
摘要:
A magnetic memory element includes a pinned layer, a tunneling barrier layer, a free layer and a stabilizing layer. The tunneling barrier layer is disposed on the pinned layer. The free layer is disposed on the tunneling barrier layer. The stabilizing layer is disposed on the free layer.
摘要:
The present invention relates to a process for preparing a precursor solution for polyimide/silica composite material and a process for forming a polyimide/silica composite material film on a substrate, comprising adding a monomer of a silane compound to allow a poly(amic acid) to carry a silica moiety; adding a monomer of formula (R6)xSi(R7)(4-x) to allow the silica moiety to carry a photo-polymerizable unsaturated group; and adding a monomer of formula R8N(R9)2 to allow the poly(amic acid) to carry a photo-polymerizable unsaturated group, where R6, R7, R8, R9, and x are as defined in the specification.The present invention also relates to a precursor solution for polyimide/silica composite material and a polyimide/silica composite material. The composite material of the present invention is useful in microelectronic devices, semiconductor elements, and photoelectric elements.
摘要:
A magnetic memory element utilizing spin transfer switching includes a pinned layer, a tunneling barrier layer and a free layer structure. The tunneling barrier layer is disposed on the pinned layer. The free layer structure includes a composite free layer. The composite free layer includes a first free layer, an insert layer and a second free layer. The first free layer is disposed on the tunneling barrier layer and has a first spin polarization factor and a first saturation magnetization. The insert layer is disposed on the first free layer. The second free layer is disposed on the insert layer and has a second spin polarization factor smaller than the first spin polarization factor and a second saturation magnetization smaller than the first saturation magnetization. Magnetization vectors of the first free layer and the second free layer are arranged as parallel-coupled.
摘要:
A magnetic random access memory (MRAM) has a perpendicular magnetization direction. The MRAM includes a first magnetic layer, a second magnetic layer, a first polarization enhancement layer, a second polarization enhancement layer, a barrier layer, a spacer, and a free assisting layer. A pinned layer formed by the first magnetic layer and the first polarization enhancement layer has a first magnetization direction and a first perpendicular magnetic anisotropy. A free layer formed by the second magnetic layer and the second polarization enhancement layer has a second magnetization direction and a second perpendicular magnetic anisotropy. The barrier layer is disposed between the first polarization enhancement layer and the second polarization enhancement layer. The spacer is disposed on the second magnetic layer. The free assisting layer is disposed on the spacer and has an in-plane magnetic anisotropy. The spacer and the barrier layer are on opposite sides of the free layer.
摘要:
A process for preparing a precursor solution for polyimide/silica composite material and a process for forming a polyimide/silica composite material film on a substrate, including adding a monomer of a silane compound to allow a poly(amic acid) to carry a silica moiety; adding a monomer of formula (R6)xSi(R7)4-x to allow the silica moiety to carry a photo-polymerizable unsaturated group; adding a monomer of formula R8N(R9)2 to allow the poly(amic acid) to carry a photo-polymerizable unsaturated group, where R6, R7, R8, R9 and x are as defined in the specification. Also, a precursor solution for polyimide/silica composite material and a polyimide/silica composite material. The composite material is useful in microelectronic devices, semiconductor elements, and photoelectric elements.