TH23076B - The structure of the initial crystal layer with three overlapping layers for the rotary valve receiver. - Google Patents

Abstract

DC60 (25/10/43) The structure of the initial crystal layer with three nested layers is applied between the gap layers. For reading at one and the valve receiver rotating. To improve magnetic properties And properties of extremely high magnetic resistance and thermal stability in the rotary valve receiver. The structure of the initial crystal layer with three nested layers is determined. Its position is between the first reading gap layer and the ferromagnetic free layer. The anti-magnetic fixation layer should be nickel-manganese (Ni-Mn). The structure of the three-layer nested initial crystalline layer incorporates one initial crystalline layer, which is The first metal oxide, the second initial crystalline oxide, and the third initial crystalline layer, the non-magnetic metal. The selected trait will be the initial crystal layer. The first is nickel oxide (NiO), the second initial crystal layer, nickel manganese oxide (NiMnOx), and the third initial crystal layer, copper (Cu). The structure of the initial crystalline layer with three nested layers. Will be used between the gap layers For reading at one and the valve receiver rotating. To improve magnetic properties And properties of extremely high magnetic resistance and thermal stability in the rotary valve receiver. The structure of the initial crystal layer with three nested layers is determined. Its position is between the first reading gap layer and the ferromagnetic free layer. The anti-magnetic fixation layer should be nickel-manganese (Ni-Mn). The structure of the three-layer nested initial crystalline layer incorporates one initial crystalline layer, which is The first metal oxide, the second initial crystalline oxide, and the third initial crystalline layer, the non-magnetic metal. The selected trait will be the initial crystal layer. The first is nickel oxide (NiO), the second initial crystal layer, nickel manganese oxide (Ni MnOx), and the third initial crystal layer - copper (Cu).

Claims (2)

1.Magnetic reading head Which consists of Rotary valve receiver Which includes the part that is A free, ferromagnetic layer, which has a magnetic momentary state that is independent of rotation from First direction in response to the signal field The immobilized layer is a ferromagnetic magnet that has a magnetic momentary condition. Electromagnetic and non-magnetic separators are positioned between the free layers. And the frozen floor A ferromagnetic immobilizer layer in contact with the frozen and spliced layer. Exchanged with immobilized layer for magnetic momentary immobilization of the immobilized layer, the fixing layer was chosen from a group of materials containing nickel-manganese (Ni-Mn), nickel-manganese, chromium (Ni- Mn-Cr), Nickel Manganese Iron (Ni-Mn-Fe), Nickel Manganese Iridium (Ni-Mn-Ir), Palladium Nickel Manganese (Ni-Mn-Pd), Nickel-Manganese Platinum ( Ni-Mn-Pt), nickel-manganese rhodium (Ni-Mn-Rh) and nickel-manganese ruthenium (Ni-Mn-Ru) and the initial crystalline layer structure with three overlapping layers. Which consists of First starting crystal layer The third initial crystal layer, adjacent from the ferromagnetic free layer, and the second initial crystalline layer, positioned between the first initial and third initial crystalline layers, and where the initial crystalline layer began. The first is nickel oxide (NiO), the second initial crystal layer is nickel. Manganese oxide (Ni MnOx) and the third initial crystalline layer is copper (Cu) 2. Magnetic reading head as stated in claim 1, where the first initial crystalline layer has a thickness in the range of 100-400 A ํ 3. The magnetic reading head as specified in claim 1, where the second initial crystal layer has a thickness in the range of 20-40 A ํ 4. Magnetic reading head as specified in claim 1, where the crystal layer begins at Three thicknesses in the range of 10-20 A ํ 5. Head for magnetic reading. Which consists of Rotary valve receiver Which includes the part that is A free, ferromagnetic layer, which has a magnetic momentary state that is independent of rotation from First direction in response to the signal field The immobilized layer is a ferromagnetic magnet that has a magnetic momentary condition. Electromagnetic and non-magnetic separators are positioned between the free layers. And the frozen floor A ferromagnetic immobilizer layer in contact with the frozen and spliced layer. Exchanged with immobilized layer for magnetic momentary immobilization of the immobilized layer, the fixing layer was chosen from a group of materials containing nickel-manganese (Ni-Mn), nickel-manganese, chromium (Ni- Mn-Cr), Nickel Manganese Iron (Ni-Mn-Fe), Nickel Manganese Iridium (Ni-Mn-Ir), Palladium Nickel Manganese (Ni-Mn-Pd), Nickel-Manganese Platinum ( Ni-Mn-Pt), nickel-manganese rhodium (Ni-Mn-Rh) and nickel-manganese ruthenium (Ni-Mn-Ru) and the initial crystalline layer structure with three overlapping layers. Which consists of First starting crystal layer The third initial crystal layer, adjacent from the ferromagnetic free layer, and the second initial crystalline layer, positioned between the first initial and third initial crystalline layers, and where the initial crystalline layer began. The first is nickel oxide (NiO), the second initial crystal layer is nickel. The manganese oxide (Ni MnOx) and the third initial crystalline layer are copper (Cu) and hard bias layers and the first and second leading wires connected to the first and second leading edges of Rotary valve receiver First and second reading gap layers that are non-conductive and non-magnetic. The structure of the initial crystalline layer with three nested layers. In which the receiver, the rotary valve and the floor Solid bias and the first and second leading lines are positioned between the reading gap layers at The first and second and first and second armor layers are ferromagnetic. Which class is the first reading space and which The second is positioned between the first and second armor layers. 6. Magnetic reading heads as stated in claim 5, where the first initial crystal layer has a thickness in the range of 100-400 A ํ. Read the magnet as stated in claim 5, where the second initial crystal layer has a thickness in the range of 20-40 A ํ 8. Magnetic reading head as stated in claim 5, where the third initial crystal layer. Thickness in the range of 10-20 A ํ 9. Head for reading magnets. Which consists of Rotary valve receiver Which includes the part that is A free, ferromagnetic layer, which has a magnetic momentary state that is independent of rotation from First direction in response to the signal field The immobilized layer is a ferromagnetic magnet that has a magnetic momentary condition. Electromagnetic and non-magnetic separators are positioned between the free layers. And the frozen floor A ferromagnetic immobilizer layer in contact with the frozen and spliced layer. Exchanged with immobilized layer for magnetic momentary immobilization of the immobilized layer, the fixing layer was chosen from a group of materials containing nickel-manganese (Ni-Mn), nickel-manganese, chromium (Ni- Mn-Cr), Nickel Manganese Iron (Ni-Mn-Fe), Nickel Manganese Iridium (Ni-Mn-Ir), Palladium Nickel Manganese (Ni-Mn-Pd), Nickel-Manganese Platinum ( Ni-Mn-Pt), nickel-manganese rhodium (Ni-Mn-Rh) and nickel-manganese ruthenium (Ni-Mn-Ru) and the initial crystalline layer structure with three overlapping layers. Which consists of First starting crystal layer The third initial crystal layer, adjacent from the ferromagnetic free layer, and the second initial crystalline layer, positioned between the first initial and third initial crystalline layers, and where the initial crystalline layer began. The first is nickel oxide (NiO), the second initial crystal layer is nickel. The manganese oxide (Ni MnOx) and the third initial crystalline layer are selected from a group of materials consisting of copper (Cu), silver (Ag), gold (Au) and their alloys and hard bias layers and The first and second leading lines are connected to the first and second edges of Rotary valve receiver First and second reading gap layers that are non-conductive and non-magnetic. The structure of the initial crystalline layer with three nested layers. In which the receiver, the rotary valve and the floor Solid bias and the first and second leading lines are positioned between the reading gap layers at The first and second and first and second armor layers are ferromagnetic. Which class is the first reading space and which The second is positioned between the first and second armor layers. 1 0. Magnetic reading head as stated in claim 9, where the ferrous magneted layer consists of a structure of the immobilized layer. Anti-parallelism (AP), which includes the First parallel resistance immobilized layer The second anti-parallel immobilized layer that is aligned from the ferrous anti-parallel fixation layer and the anti-parallel splice layer placed between the anti-parallel immobilized layer at First and second 1 1. Magnetic head assembly consisting of a reading head and a writing head. Which the head for writing will include the part that is The first and second terminal parts. The first and second polar parts layers each have a yoke section positioned between The end of the terminal and the gap at the back. A non-magnetic writing gap layer positioned between the terminal ends. Of the first and second polar parts An insulating layer with at least one winding layer embedded in it that is positioned. Between the yokes of the first and second pole parts and the first and second pole parts are connected at the back gap of these layers and the reading head which contains the receiver. Rotary valve Which includes the part that is A free, ferromagnetic layer, which has a magnetic momentary state that is independent of rotation from First direction in response to the signal field The immobilized layer is a ferromagnetic magnet that has a magnetic momentary condition. Electromagnetic and non-magnetic separators are positioned between the free layers. And the frozen floor A ferromagnetic immobilizer layer in contact with the frozen and spliced layer. Exchanged with immobilized layer for magnetic momentary immobilization of a second-direction fixation layer, where the fixation layer is selected from a group of materials containing nickel-manganese (Ni-Mn), nickel-manganese. Chromium (Ni-Mn-Cr), Nickel Manganese Iron (Ni-Mn-Fe), Nickel Manganese Iridium (Ni-Mn-Ir), Nickel Manganese Palladium (Ni-Mn-Pd), Nickel Manganese Pall. Platinum (Ni-Mn-Pt), nickel-manganese-rhodium (Ni-Mn-Rh) and nickel-manganese ruthenium (Ni-Mn-Ru) and the structure of the initial crystal layer with three layers. Which consists of First starting crystal layer The third initial crystal layer, adjacent from the ferromagnetic free layer, and the second initial crystalline layer, positioned between the first initial and third initial crystalline layers, and where the initial crystalline layer began. The first is nickel oxide (NiO), the second initial crystal layer is nickel. The manganese oxide (Ni MnOx) and the third initial crystalline layer are selected from a group of materials containing copper (Cu), aluminum (Al), rhodium (Rh), platinum (Pt), gold (Au). And alloys of these The reading head also includes a section that is Hard bias layers and first and second leading lines connected to the first and second edges of Rotary valve receiver First and second reading gap layers, electrically insulated and non-magnetic. The structure of the initial crystalline layer with three nested layers. In which the receiver, the rotary valve and the floor Solid bias and the first and second leading lines are positioned between the reading gap layers at First and second The first ferrous magnet layer and the first and second reading gap layers are positioned between the first armor layers. And the first polar parts class 1 2. Magnetic head assembly as specified in claim 11, which includes the parts that are Head for reading Which still includes the A second armor layer that is ferromagnetic and a non-magnetic separation layer. Where a separate layer was positioned between the second and the second armor layer Polar Fragment Fragment 1 3. Magnetic reading head as specified in claim 12, where the pinned layer of a ferromagnetic magnet consists of: The structure of the anti-parallel immobilized layer (AP), including the First anti-parallel immobilized layer The second anti-parallel immobilized layer is aligned from the ferrous magnetically immobilized layer and the anti-parallel coupling layer placed between the anti-parallel immobilized layer at First and second 1. 4. Magnetic record drive device, which has at least one slider with an air-powered support surface (ABS) on which the slider will support at least one magnetic head assembly. head For reading and writing head Which the recording disc drive device consists of Head for writing Which includes the part that is The first and second terminal parts. The first and second polar parts layers each have a yoke section positioned between The end of the terminal and the gap at the back. A non-magnetic writing gap layer positioned between the terminal ends. Of the first and second polar parts An insulating layer with at least one winding layer embedded in it that is positioned. Between the yokes of the first and second pole parts and the first and second pole parts are connected at the back gap of these layers and the reading head which contains the receiver. Rotary valve Which includes the part that is A free, ferromagnetic layer, which has a magnetic momentary state that is independent of rotation from First direction in response to the signal field The immobilized layer is a ferromagnetic magnet that has a magnetic momentary condition. Electromagnetic and non-magnetic separators are positioned between the free layers. And the immobilized layer and the ferrous-resistant fixing layer that are adjacent from the immobilized and attached layer Exchange dovetail with immobilized layer for magnetic momentary fixation of the riveted layer. In the second direction The fixation layer was selected from a group of materials containing nickel-manganese (Ni-Mn), nickel-manganese-chromium (Ni-Mn-Cr), nickel-manganese iron (Ni-Mn-Fe), nickel-manganese. Iridium (Ni-Mn-Ir), nickel-manganese palladium (Ni-Mn-Pd), nickel-manganese platinum (Ni-Mn-Pt), nickel-manganese-rhodium (Ni-Mn-Rh), and Nickel, manganese, ruthenium (Ni-Mn-Ru) and the structure of the initial crystalline layer with three layers. Which consists of First starting crystal layer Third starting crystal layer Adjacent from the ferromagnetic free layer and the second initial crystalline layer positioned between the first initial and third initial crystalline layer, and where the first initial crystalline layer was nickel oxide ( NiO), the second initial crystalline layer is nickel. The manganese oxide (Ni MnOx) and the third initial crystalline layer are selected from a group of materials containing copper (Cu), aluminum (Al), rhodium (Rh), platinum (Pt), gold (Au). And alloys of these The reading head also includes a section that is Hard bias layers and first and second leading lines connected to the first and second edges of Rotary valve receiver First and second reading gap layers, electrically insulated and non-magnetic. The structure of the initial crystalline layer with three nested layers. In which the receiver, the rotary valve and the floor Solid bias and the first and second leading lines are positioned between the reading gap layers at First and second The first ferrous magnet layer and the first and second reading gap layers are positioned between the first armor layers. And the first polar parts layer and the magnetic record plate cover, supported in such a way as to rotate in the casing. Brace built into the shroud to support the magnetic head assembly with facing ABS. Find a magnetic log plate so that the magnetic logging unit is in the conversion relationship with the motor magnetic recording disk. Actuator arm attached to a support for sliding the magnetic head assembly in multiple positions. According to the magnetic record and the processing circuit connected to the magnetic head assembly, connected to the motor for rotating the disk. Record the magnet and connect it to the actuator arm to exchange the signal with the magnetic recording disk assembly for controlling the rotation of the magnetic record plate and for controlling the position of the magnetic recording disk assembly 1 5. The magnetic recording disk drive device as specified in the claim. 14 which includes the Head for reading Which still includes the A second armor layer that is ferromagnetic and a non-magnetic separation layer. Where a separate layer was positioned between the second and the second armor layer 1st class polarized parts 1. 6. Magnetic drive disc drive device as specified in claim 15, where the pinned layer is Ferro magnet contains The structure of the anti-parallel immobilized layer (AP), including the First anti-parallel immobilized layer The second anti-parallel immobilized layer is aligned from the ferrous magnetically immobilized layer and the anti-parallel coupling layer placed between the anti-parallel immobilized layer at One and the second 1 7. Head for magnetic reading Which consists of Rotary valve receiver Which includes the part that is A free, ferromagnetic layer, which has a magnetic momentary state that is independent of rotation from First direction in response to the signal field The immobilized layer is a ferromagnetic magnet that has a magnetic momentary condition. Electromagnetic and non-magnetic separators are positioned between the free layers. And the frozen floor A ferromagnetic immobilizer layer in contact with the frozen and spliced layer. Exchange with immobilized layer for the magnetic momentary fixation of the immobilized layer and the structure of the initial crystal layer with three overlapping layers. Which consists of First starting crystal layer The third initial crystal layer, adjacent from the ferromagnetic free layer, and the second initial crystalline layer, positioned between the first initial and third initial crystalline layers, and where the initial crystalline layer began. The first is nickel oxide (NiO), the second initial crystal layer is nickel. The manganese oxide (Ni MnOx) and the third initial crystalline layer are selected from a group of materials consisting of copper (Cu), silver (Ag), gold (Au) and their alloys. 1 8. Magnetic reading head. As stated in claim 17, where the magnetized layer Ferrero will contain The structure of the anti-parallel immobilized layer (AP), including the First parallel resistance immobilized layer The second anti-parallel immobilized layer that is aligned from the ferrous anti-parallel fixation layer and the anti-parallel splice layer placed between the anti-parallel immobilized layer at First and second 1 9. Magnetic head assembly consisting of a reading head and a writing head. Which the head for writing will include the part that is The first and second terminal parts. The first and second polar parts layers each have a yoke section positioned between The end of the terminal and the gap at the back. A non-magnetic writing gap layer positioned between the terminal ends. Of the first and second polar parts An insulating layer with at least one winding layer embedded in it that is positioned. Between the yokes of the first and second pole parts and the first and second pole parts are connected at the back gap of these layers and the reading head which contains the receiver. Rotary valve Which includes the part that is A free ferromagnetic layer that contributes to a magnetic state that is independent of rotation from First direction in response to the signal field The immobilized layer is a ferromagnetic magnet that contributes to the magnetic state. Electromagnetic and non-magnetic separators are positioned between the free layers. And the frozen floor A ferromagnetic immobilizer layer in contact with the frozen and spliced layer. Exchanged with immobilized layer for immobilization, the magnetization of the second-direction fixed layer, and the structure of the initial crystalline layer with three overlapping layers. Which consists of First starting crystal layer The third initial crystal layer, adjacent from the ferromagnetic free layer, and the second initial crystalline layer, positioned between the first initial and third initial crystalline layers, and where the initial crystalline layer began. The first is nickel oxide (NiO), the second initial crystal layer is nickel. The manganese oxide (Ni MnOx) and the third initial crystalline layer are selected from a group of materials consisting of copper (Cu), silver (Ag), gold (Au) and alloys of these. The reading head also includes a section that is Hard bias layers and first and second leading lines connected to the first and second edges of Rotary valve receiver First and second reading gap layers, electrically insulated and non-magnetic. The structure of the initial crystalline layer with three nested layers. In which the receiver, the rotary valve and the floor Solid bias and the first and second leading lines are positioned between the reading gap layers at First and second The first ferrous magnet layer and the first and second reading gap layers are positioned between the first armor layers. And the first polar parts layer 2 0. Magnetic reading head as stated in claim 19, the pinned layer is magnetic. Ferrero will contain The structure of the anti-parallel immobilized layer (AP), including the First parallel resistance immobilized layer The second anti-parallel immobilized layer that is aligned from the ferrous anti-parallel fixation layer and the anti-parallel splice layer placed between the anti-parallel immobilized layer at One and the second 2 1. A magnetic disk drive device with at least one slider with an air-powered support surface (ABS) that supports at least one magnetic head assembly, including the head. For reading and writing head Which the recording disc drive device consists of Head for writing Which includes the part that is The first and second terminal parts. The first and second polar parts layers each have a yoke section positioned between The end of the terminal and the gap at the back. A non-magnetic writing gap layer positioned between the terminal ends. Of the first and second polar parts An insulating layer with at least one winding layer embedded in it that is positioned. Between the yokes of the first and second pole parts and the first and second pole parts are connected at the back gap of these layers and the reading head which contains the receiver. Rotary valve Which includes the part that is A free ferromagnetic layer that contributes to a magnetic state that is independent of rotation from First direction in response to the signal field The immobilized layer is a ferromagnetic magnet that contributes to the magnetic state. Electromagnetic and non-magnetic separators are positioned between the free layers. And the immobilized layer and the ferrous-resistant fixing layer that are adjacent from the immobilized and bonded layer. Exchange dovetail with fixation layer for fixation, the magnetization of the second-direction fixation layer, and the structure of the initial crystal layer with three overlapping layers. Which consists of First starting crystal layer The third initial crystal layer, adjacent from the ferromagnetic free layer, and the second initial crystalline layer, positioned between the first initial and third initial crystalline layers, and where the initial crystalline layer began. The first is nickel oxide (NiO), the second initial crystal layer is nickel. The manganese oxide (Ni MnOx) and the third initial crystalline layer are selected from a group of materials consisting of copper (Cu), silver (Ag), gold (Au) and alloys of these. The reading head also includes a section that is Hard bias layers and first and second leading lines connected to the first and second edges of Rotary valve receiver First and second reading gap layers, electrically insulated and non-magnetic. The structure of the initial crystalline layer with three nested layers. In which the receiver, the rotary valve and the floor Solid bias and the first and second leading lines are positioned between the reading gap layers at First and second The first ferromagnetic layer and the first and second reading gap layers are positioned between the first armor layers. And the first polar parts layer and the magnetic record plate cover, supported in such a way as to rotate in the casing. Brace built into the shroud to support the magnetic head assembly with facing ABS. Find a magnetic log plate so that the magnetic head attachment is in the power conversion relationship with the magnetic log, the motor for rotating the magnetic log plate. Actuator arm attached to a support for sliding the magnetic head assembly in multiple positions. According to the magnetic record and the processing circuit connected to the magnetic head assembly, connected to the motor for rotating the disk. Record the magnet and connect it to the actuator arm to exchange the signal with the magnetic head assembly for controlling the rotation of the magnetic record plate and for controlling the position of the magnetic head assembly 2. 2. Magnetic reading head as stated in claim 21 where the magnetized layer Ferrero will contain The structure of the anti-parallel immobilized layer (AP), including the First parallel resistance immobilized layer The second anti-parallel immobilized layer that is aligned from the ferrous anti-parallel fixation layer and the anti-parallel splice layer placed between the anti-parallel immobilized layer at First and second