Detail Of Free Layer Or Additional Film For Affecting Or Biasing The Free Layer Patents (Class 360/324.12)
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Patent number: 8630069Abstract: In one embodiment, a magnetic head includes a magnetoresistance effect sensor including a free layer, a hard bias magnetic film adapted for performing magnetic domain control of the free layer by biasing a magnetization direction of the free layer towards a predefined direction that is positioned on both sides of the free layer in a track-width direction, an upper shield positioned above the hard bias magnetic film and the magnetoresistance effect sensor; and an antiferromagnetic (AFM) layer positioned above the upper shield. The upper shield includes first and second upper shield layers, and an AFM coupling layer positioned between the first upper shield layer and the second upper shield layer that is adapted for antiferromagnetically coupling the first upper shield layer and the second upper shield layer, wherein a magnetization of the first upper shield layer is antiparallel with a magnetization of the hard magnetic bias layer.Type: GrantFiled: October 4, 2012Date of Patent: January 14, 2014Assignee: HGST Netherlands B.V.Inventors: Norihiro Okawa, Kouji Okazaki, Yoshibumi Matsuda, Hiroshi Akiyama
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Patent number: 8630070Abstract: According to one embodiment, there is provided a magnetic head for a three-dimensional magnetic recording/reproducing apparatus, the head executing reading from or writing to a recording medium, utilizing a magnetic resonance, the medium including stacked layers formed of magnetic substances having different resonance frequencies, the head comprising a spin torque oscillation unit and auxiliary magnetic poles. The unit is operable to simultaneously oscillate at a plurality of frequencies to cause the magnetic resonance, when reading or writing. The magnetic poles assist the unit, when reading or writing. Further, according to another embodiment, there is provided a recording magnetic head using a high-frequency assist method and comprising a microwave magnetic field applying unit and a recording magnetic pole. The unit executes writing to a recording medium, and is formed of a plurality of spin torque oscillation elements having phases thereof synchronized. The magnetic pole assists the writing.Type: GrantFiled: August 11, 2011Date of Patent: January 14, 2014Assignee: Kabushiki Kaisha ToshibaInventors: Rie Sato, Koichi Mizushima
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Patent number: 8619393Abstract: In certain embodiments, a magnetic had includes a top shield and a bottom shield positioned at an air bearing surface. A polarizer and a nonmagnetic layer are positioned between the top and bottom shields. An analyzer is positioned adjacent the nonmagnetic layer at a distance recessed from the air bearing surface. Current travels through the top shield, polarizer, nonmagnetic layer, and first analyzer.Type: GrantFiled: December 21, 2011Date of Patent: December 31, 2013Assignee: Seagate Technology LLCInventor: Scott Stokes
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Patent number: 8619394Abstract: The present invention generally relates to a magnetic head having a thinner intermixing layer between a barrier layer and a magnetic layer. The method of making the magnetic head is also disclosed. The thinner intermixing layer in the magnetic head is formed by cooling the barrier layer in an atmosphere having a temperature of below 0 degrees Celsius prior to depositing the magnetic layer on the barrier layer. The thinner intermixing layer leads to a sharp interface between the barrier layer and the magnetic layer, which leads to an increased MR.Type: GrantFiled: November 29, 2012Date of Patent: December 31, 2013Assignee: HGST Netherlands B.V.Inventors: Chando Park, Sangmun Oh, Zheng Gao
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Patent number: 8615868Abstract: A method for manufacturing a magnetic sensor that includes depositing a plurality of mask layers, then forming a stripe height defining mask over the sensor layers. A first ion milling is performed just sufficiently to remove portions of the free layer that are not protected by the stripe height defining mask, the first ion milling being terminated at the non-magnetic barrier or spacer layer. A dielectric layer is then deposited, preferably by ion beam deposition. A second ion milling is then performed to remove portions of the pinned layer structure that are not protected by the mask, the free layer being protected during the second ion milling by the dielectric layer.Type: GrantFiled: November 29, 2011Date of Patent: December 31, 2013Assignee: HGST Netherlands B.V.Inventors: Yongchul Ahn, Xiaozhong Dang, Quang Le, Simon H. Liao
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Patent number: 8614864Abstract: A magnetoresistive device is provided. The device includes at least one magnetoresistive element having at least one side, at least one hard bias layer in proximity to the at least one side of the at least one magnetic element, and a hard bias capping structure on the at least one hard bias layer. The hard bias capping structure includes a protective layer covering at least a first portion of the at least one hard bias layer and a planarization stop layer covering a second portion of the at least one hard bias layer. A portion of the protective layer resides between the planarization stop layer and the at least one hard bias layer.Type: GrantFiled: May 9, 2012Date of Patent: December 24, 2013Assignee: Western Digital (Fremont), LLCInventors: Liubo Hong, Honglin Zhu
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Antiferromagnetically-coupled soft bias magnetoresistive read head, and fabrication method therefore
Patent number: 8611054Abstract: A magnetic read transducer is described with a magnetoresistive sensor that has a free layer, and an antiferromagnetically-coupled (AFC) soft bias layer for magnetically biasing the free layer. The free layer has a first edge in a track width direction along an air-bearing surface (ABS). At least a portion of the AFC soft bias layer is conformal to at least a portion of a second edge of the free layer, and situated to form a magnetic moment at an angle with respect to a center line of the free layer. The center line of the free layer extends in the same direction as the free layer first edge that is in the track width direction along the ABS.Type: GrantFiled: April 11, 2012Date of Patent: December 17, 2013Assignee: Western Digital (Fremont), LLCInventors: Changhe Shang, Daniele Mauri, Kuok San Ho, Anup G. Roy, Ming Mao -
Patent number: 8607438Abstract: A read sensor for a transducer is fabricated. The transducer has a field region and a sensor region corresponding to the sensor. A sensor stack is deposited. A hybrid mask including hard and field masks is provided. The hard mask includes a sensor portion covering the sensor region and a field portion covering the field region. The field mask covers the field portion of the hard mask. The field mask exposes the sensor portion of the hard mask and part of the sensor stack between the sensor and field regions. The sensor is defined from the sensor stack in a track width direction. Hard bias layer(s) are deposited. Part of the hard bias layer(s) resides on the field mask. Part of the hard bias layer(s) adjoining the sensor region is sealed. The field mask is lifted off. The transducer is planarized.Type: GrantFiled: December 1, 2011Date of Patent: December 17, 2013Assignee: Western Digital (Fremont), LLCInventors: Wei Gao, Guanxiong Li, Ming Mao, Chih-Ching Hu, Guanghong Luo, Miao Wang, Zhihong Zhang, Anup G. Roy
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Patent number: 8610512Abstract: A synthesizer includes a second frequency-synthesizing stage comprising a radiofrequency oscillator configured to oscillate at a frequency ?fo when it is synchronized with a signal s0(t), where ? is a rational number different from one such that ?f0=ft. The radiofrequency oscillator has a magnetoresistive device within which there flows a spin-polarized electrical current to generate a signal st(t) oscillating at the frequency ft on an output electrode connected to the rendering terminal. This device is formed by a stack of magnetic and non-magnetic layers, a synchronization terminal for synchronizing the frequency of the oscillating signal st(t) with the frequency of the signal received at the synchronization terminal. The synchronization terminal being connected to the output terminal of the first stage to receive the signal s0(t).Type: GrantFiled: April 20, 2012Date of Patent: December 17, 2013Assignee: Commissariat a l'Energie Atomique et aux Energies AlternativesInventors: Jean-Philippe Michel, Michaël Quinsat
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Patent number: 8598957Abstract: Oscillators and methods of manufacturing and operating an oscillator are provided, the oscillators include a base free layer having a variable magnetization direction, and at least one oscillation unit on the base free layer. The oscillation unit may include a free layer element contacting the base free layer and having a width less than a width of the base free layer, a pinned layer element separated from the free layer element, and a separation layer element between the free layer element and the pinned layer element. A plurality of oscillation units may be arranged on the base free layer.Type: GrantFiled: August 11, 2011Date of Patent: December 3, 2013Assignee: Samsung Electronics Co., Ltd.Inventors: Sung-chul Lee, Ung-hwan Pi, Kee-won Kim, Kwang-seok Kim
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Patent number: 8582250Abstract: A trilayer magnetoresistive sensor has at least first and second ferromagnetic layers separated by a nonmagnetic layer. A high coercivity permanent magnet bias element biases the first ferromagnetic layer in a first direction. A high moment permanent magnet bias element biases the second ferromagnetic layer in a second direction substantially orthogonal to the first direction.Type: GrantFiled: December 4, 2009Date of Patent: November 12, 2013Assignee: Seagate Technology LLCInventors: Jiaoming Qiu, Yonghua Chen, Kaizhong Gao
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Patent number: 8582252Abstract: A magnetic sensor includes a magnetic layer comprising magnetic material and a grain refining agent. The magnetic layer having a grain-refined magnetic layer surface. A layer adjacent the magnetic layer has a layer surface that conforms to the grain-refined magnetic layer surface.Type: GrantFiled: November 2, 2005Date of Patent: November 12, 2013Assignee: Seagate Technology LLCInventors: Brian William Karr, Eric Walter Singleton, Qing He
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Patent number: 8582249Abstract: A magnetic element has a magnetically responsive lamination with a ferromagnetic free layer separated from a synthetic antiferromagnetic (SAF) layer by a spacer layer and from a sensed data bit stored in an adjacent medium by an air bearing surface (ABS). The lamination is coupled to at least one antiferromagnetic (AFM) tab a predetermined offset distance from the ABS.Type: GrantFiled: April 26, 2011Date of Patent: November 12, 2013Assignee: Seagate Technology LLCInventors: Victor Boris Sapozhnikov, Eric Walter Singleton, Mark William Covington
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Patent number: 8582251Abstract: Various embodiments generally relate to a magnetic sensor, and more specifically to a magnetoresistive read head sensor. In one such exemplary embodiment, a magnetic sensor comprises a sensor stack and magnetic bias elements positioned adjacent opposite sides of the sensor stack. At least one of the bias elements has a non-rectangular shape, such as substantially trapezoidal or parallelogram shapes having non-perpendicular corners.Type: GrantFiled: March 19, 2010Date of Patent: November 12, 2013Assignee: Seagate Technology LLCInventors: Kaizhong Gao, Lei Wang, Jiaoming Qiu, Yonghua Chen
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Patent number: 8582248Abstract: A MR sensor comprises a first shielding layer, a second shielding layer, a MR element and a pair of hard magnet layers sandwiched therebetween, and a non-magnetic insulating layer formed at a side of the MR element far from an air bearing surface of a slider. The MR sensor further comprises a first non-magnetic conducting layer formed between the first shielding layer and the MR element, and the first non-magnetic conducting layer is embedded in the first shielding layer and kept separate from the ABS. The MR sensor of the invention can obtain a narrower read gap to increase the resolution power and improve the reading performance, and obtain a strong longitudinal bias field to stabilize the MR sensor so as to increase the total sensor area and, in turn, get an improved reliability and performance. The present invention also discloses a magnetic head, a HGA and a disk drive unit.Type: GrantFiled: January 6, 2011Date of Patent: November 12, 2013Assignees: SAE Magnetics (H.K.) Ltd., TDK CorporationInventors: Chiuming Lueng, Kazuki Sato, Yohei Koyanagi, Cheukwing Leung, Juren Ding, Rongkwang Ni, Wanyin Kwan, Siuman Mok
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Patent number: 8570690Abstract: A magnetic sensor having a novel hard bias structure that provides reduced gap spacing for increased data density. The magnetic sensor includes a sensor stack with first and second sides formed on a magnetic shield. A thin insulation layer is formed over the sides of the sensor stack and over the bottom shield. An under-layer comprising Cu—O is formed over the insulation layer and a hard magnetic bias layer is formed over the under-layer. The use of Cu—O as the under-layer allows the under-layer to be made thinner while still maintaining excellent magnetic properties in the hard bias layers formed there-over. This reduced thickness of the under-layer allows the gap spacing (spacing between the top and bottom magnetic shields) to be reduced, which in turn provides increased data density.Type: GrantFiled: June 20, 2011Date of Patent: October 29, 2013Assignee: HGST Netherlands B.V.Inventors: Susumu Okamura, Hiroyuki Hoshiya, Takahiro Ibusuki
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Patent number: 8563147Abstract: A hard bias (HB) structure for producing longitudinal bias to stabilize a free layer in an adjacent spin valve is disclosed and includes a composite seed layer made of at least Ta and a metal layer having a fcc(111) or hcp(001) texture to enhance perpendicular magnetic anisotropy (PMA) in an overlying (Co/Ni)X laminated layer. The (Co/Ni)X HB layer deposition involves low power and high Ar pressure to avoid damaging Co/Ni interfaces and thereby preserves PMA. A capping layer is formed on the HB layer to protect against etchants in subsequent process steps. After initialization, magnetization direction in the HB layer is perpendicular to the sidewalls of the spin valve and generates an Mrt value that is greater than from an equivalent thickness of CoPt. A non-magnetic metal separation layer may be formed on the capping layer and spin valve to provide an electrical connection between top and bottom shields.Type: GrantFiled: June 24, 2009Date of Patent: October 22, 2013Assignee: Headway Technologies, Inc.Inventors: Kunliang Zhang, Min Li, Yuchen Zhou, Min Zheng
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Patent number: 8559140Abstract: A magnetically responsive magnetic stack with a first stripe height is positioned laterally adjacent first and second side stacks that respectively extend a second and third distance from an air bearing surface (ABS). The second distance is greater than the third distance capable of biasing the magnetic stack to a predetermined magnetization.Type: GrantFiled: April 26, 2011Date of Patent: October 15, 2013Assignee: Seagate Technology LLCInventor: Kaizhong Gao
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Patent number: 8555486Abstract: A method for fabricating a magnetic recording transducer is described. The transducer has an ABS location and a nonmagnetic intermediate layer having a pole trench. The method includes depositing at least one magnetic pole layer having a top surface and a pole tip portion proximate to the ABS location. A first portion of the magnetic pole layer(s) resides in the pole trench. The magnetic pole layer(s) have a seam in the pole tip portion that extends to the top surface. The method also includes cathodically etching a second portion of the magnetic pole layer(s) from the seam at a rate of not more than 0.1 nanometers/second, thereby forming a seam trench in the magnetic pole layer(s). The method also includes refilling the seam trench with at least one magnetic refill layer. At least an additional magnetic pole layer is deposited on the top surface and the magnetic refill layer(s).Type: GrantFiled: December 6, 2011Date of Patent: October 15, 2013Assignee: Western Digital (Fremont), LLCInventors: Jose A. Medina, Tiffany Yun Wen Jiang, Ming Jiang
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Patent number: 8553369Abstract: A magnetic element capable of detecting changes in magnetic states, such as for use as a read sensor in a data transducing head or as a solid-state non-volatile memory element. In accordance with various embodiments, the magnetic element includes a magnetically responsive stack or lamination with a first areal extent. The stack includes a spacer layer positioned between first and second ferromagnetic free layers. At least one antiferromagnetic (AFM) tab is connected to the first free layer on a surface thereof opposite the spacer layer, the AFM tab having a second areal extent that is less than the first areal extent.Type: GrantFiled: November 30, 2010Date of Patent: October 8, 2013Assignee: Seagate Technology LLCInventors: Dion Song, Mark William Covington, Qing He, Dimitar Velikov Dimitrov, Wei Tian, Wonjoon Jung, Sunita Bhardwaj Gangopadhyay
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Patent number: 8545999Abstract: A method and system for providing a magnetoresistive structure are described. The magnetoresistive structure includes a first electrode, an insertion layer, a crystalline tunneling barrier layer, and a second electrode. The first electrode includes at least a first magnetic material and boron. The crystalline tunneling barrier layer includes at least one constituent. The insertion layer has a first boron affinity. The at least one constituent of the crystalline tunneling barrier layer has at least a second boron affinity that is less than the first boron affinity. The second electrode includes at least a second magnetic material.Type: GrantFiled: February 21, 2008Date of Patent: October 1, 2013Assignee: Western Digital (Fremont), LLCInventors: Qunwen Leng, Mahendra Pakala, Yong Shen
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Patent number: 8547667Abstract: A method and system for providing a magnetic transducer is described. The method and system include providing a seed layer and providing at least one adjustment layer on the seed layer. The method and system also include providing a hard bias structure on the at least one adjustment layer. The seed layer has a first template including a first template dimension and a first texture. The at least one adjustment layer has a second template including a second template dimension and a second texture. The hard bias structure has a third template including a third template dimension and a third texture. The second template is between the first template and the third template.Type: GrantFiled: November 26, 2008Date of Patent: October 1, 2013Assignee: Western Digital (Fremont), LLCInventors: Anup Ghosh Roy, Ming Mao, Mahendra Pakala
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Patent number: 8547666Abstract: Embodiments of the present invention aim suppress the generation of spin torque noise in a current perpendicular to plane magnetoresistive head. According to one embodiment, when sensing current is applied to a current perpendicular to plane magnetoresistive head from a free layer toward a first pinned layer, a configuration wherein the relative angle between the magnetization of a second pinned layer and the magnetization of the free layer is in the range of 70 to 80 degrees is used. Further, when sensing current is applied to a current perpendicular to plane magnetoresistive head from a first pinned layer toward a free layer, a configuration wherein the relative angle between the magnetization of a second pinned layer and the magnetization of the free layer is in the range of 100 to 110 degrees is used.Type: GrantFiled: August 3, 2007Date of Patent: October 1, 2013Assignee: HGST Netherlands BVInventors: Hiroyuki Katada, Hiroyuki Hoshiya
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Patent number: 8542466Abstract: A magneto-resistance effect element, including a fixed magnetization layer of which a magnetization is substantially fixed in one direction, a free magnetization layer of which a magnetization is rotated in accordance with an external magnetic field and which is formed opposite to the fixed magnetization layer, a spacer layer including a current confining layer with an insulating layer and a conductor to pass a current through the insulating layer in a thickness direction thereof, a thin film layer, and a functional layer.Type: GrantFiled: January 14, 2013Date of Patent: September 24, 2013Assignees: Kabushiki Kaisha Toshiba, TDK CorporationInventors: Yoshihiko Fuji, Hideaki Fukuzawa, Hiromi Yuasa, Kunliang Zhang, Min Li, Michiko Hara, Yoshinari Kurosaki
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Patent number: 8537505Abstract: According to one embodiment, a magnetoresistive effect head includes a lower magnetic shield provided on a substrate, a magnetoresistive effect film laminated from a pinned layer with a pinned direction of magnetization, an intermediate layer, a free layer having a varying direction of magnetization controlled by an applied external magnetic field, a magnetic domain control layer formed with an intervening insulation layer on both sides in a track width direction of the magnetoresistive effect film, an upper magnetic shield, and electrodes for directing sense current flow in a direction perpendicular to a film surface of the magnetoresistive effect film, wherein a magnetic field applied by the magnetic domain control layer to a region away from an ABS of the free layer is at least 1.4 times larger than a magnetic field applied by the magnetic domain control layer to a region near the ABS of the free layer.Type: GrantFiled: May 20, 2010Date of Patent: September 17, 2013Assignee: HGST Netherlands B.V.Inventors: Masato Shiimoto, Kan Yasui, Nobuo Yoshida, Hiroyuki Takazawa
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Patent number: 8537506Abstract: An information storage device includes a magnetic track and a magnetic domain wall moving unit. The magnetic track has a plurality of magnetic domains and a magnetic domain wall between each pair of adjacent magnetic domains. The magnetic domain wall moving unit is configured to move at least the magnetic domain wall. The information storage device further includes a magneto-resistive device configured to read information recorded on the magnetic track. The magneto-resistive device includes a pinned layer, a free layer and a separation layer arranged there between. The pinned layer has a fixed magnetization direction. The free layer is disposed between the pinned layer and the magnetic track, and has a magnetization easy axis, which is non-parallel to the magnetization direction of the pinned layer.Type: GrantFiled: June 22, 2010Date of Patent: September 17, 2013Assignee: Samsung Electronics Co., Ltd.Inventors: Ji-young Bae, Sung-chul Lee, Sun-ae Seo, Young-jin Cho, Ung-hwan Pi, Jin-seong Heo
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Patent number: 8531802Abstract: A magnetic layered structure is presently disclosed comprising a pinned layer, a first anti-ferromagnetic layer that defines a magnetic orientation of the pinned layer, a free layer, a second anti-ferromagnetic layer that biases the free layer to a magnetic orientation approximately perpendicular to the magnetic orientation of the pinned layer, and a tuning layer positioned between and in contact with the second anti-ferromagnetic layer and the free layer that tunes free layer bias to a desired level.Type: GrantFiled: December 17, 2010Date of Patent: September 10, 2013Assignee: Seagate Technology LLCInventors: Antonia Tsoukatos, Eric Walter Singleton
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Patent number: 8525601Abstract: An oscillator generates a signal using precession of a magnetic moment of a magnetic domain wall. The oscillator includes a free layer having the magnetic domain wall and a fixed layer corresponding to the magnetic domain wall. A non-magnetic separation layer is interposed between the free layer and the fixed layer.Type: GrantFiled: December 29, 2009Date of Patent: September 3, 2013Assignee: Samsung Electronics Co., Ltd.Inventors: Sung-chul Lee, Mathias Klaui, Sun-ae Seo, Young-jin Cho, Ung-hwan Pi, Ji-young Bae, Jin-seong Heo
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Patent number: 8514525Abstract: A current-perpendicular-to-the-plane magnetoresistive (CPP MR) sensor has a shield layers that also functions as the sensor's reference layer. In a CPP MR disk drive read head, the shield layer has a fixed magnetization oriented substantially parallel to the air-bearing surface (ABS) of the slider that supports the read head. The quiescent magnetization of the sensor free layer is oriented at an angle relative to the magnetization of the shield layer, preferably between 120 and 150 degrees, to optimize the sensor response to magnetic fields from the recorded data bits on the disk. The magnetization of the free layer is biased by a biasing structure that includes a ferromagnetic side biasing layer formed near the side edges of the free layer and a ferromagnetic back biasing layer that is recessed from the ABS and has a magnetization oriented generally orthogonal to the ABS.Type: GrantFiled: September 13, 2010Date of Patent: August 20, 2013Assignee: HGST Netherlands B.V.Inventors: Jeffrey R. Childress, Jordan Asher Katine, Manfred Ernst Schabes
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Patent number: 8514527Abstract: According to one embodiment, a magnetoresistive effect head includes a magnetically pinned layer having a direction of magnetization that is pinned, a free magnetic layer positioned above the magnetically pinned layer, the free magnetic layer having a direction of magnetization that is free to vary, and a barrier layer comprising an insulator positioned between the magnetically pinned layer and the free magnetic layer, wherein at least one of the magnetically pinned layer and the free magnetic layer has a layered structure, the layered structure including a crystal layer comprising one of: a CoFe magnetic layer or a CoFeB magnetic layer and an amorphous magnetic layer comprising CoFeB and an element selected from: Ta, Hf, Zr, and Nb, wherein the crystal layer is positioned closer to a tunnel barrier layer than the amorphous magnetic layer. In another embodiment, a magnetic data storage system includes the magnetoresistive effect head described above.Type: GrantFiled: November 29, 2010Date of Patent: August 20, 2013Assignee: HGST Netherlands B.V.Inventors: Kojiro Komagaki, Katsumi Hoshino, Masashige Sato, Hiroyuki Hoshiya
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Patent number: 8507113Abstract: The present invention is directed to align crystal c-axes in magnetic layers near two opposed junction wall surfaces of a magnetoresistive element so as to be almost perpendicular to the junction wall surfaces. A magnetic sensor stack body has, on sides of opposed junction wall surfaces of a magnetoresistive element, field regions for applying a bias magnetic field to the element. The field region has first and second magnetic layers having magnetic particles having crystal c-axes, the first magnetic layer is disposed adjacent to the junction wall surface in the field region, the crystal c-axes in the first magnetic layer are aligned and oriented along an ABS in a film plane, the second magnetic layer is disposed adjacent to the first magnetic layer in the field region, and the crystal c-axis directions in the second magnetic layer are distributed at random in a plane.Type: GrantFiled: May 28, 2010Date of Patent: August 13, 2013Assignee: Canon Anelva CorporationInventors: Einstein Noel Abarra, Tetsuya Endo
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Patent number: 8491799Abstract: A method for forming a magnetic tunnel junction cell includes forming a pinning layer, a pinned layer, a dielectric layer and a free layer over a first electrode, forming a second electrode on the free layer, etching the free layer and the dielectric layer using the second electrode as an etch barrier to form a first pattern, forming a prevention layer on a sidewall of the first pattern, and etching the pinned layer and the pinning layer using the second electrode and the prevention layer as an etch barrier to form a second pattern.Type: GrantFiled: June 30, 2008Date of Patent: July 23, 2013Assignee: Hynix Semiconductor Inc.Inventor: Jin-Ki Jung
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Patent number: 8493694Abstract: The free layer of a CPP-TMR sensor is biased by laterally disposed hard bias (HB) layers that include a seedlayer structure, a magnetic layer structure of high coercivity material and a capping layer structure. The magnetic layer structure is a layer of FePt-containing material, such as FePtCu, while the seedlayers and capping layers include layers of Cr, CrTi, Fe, FeCo or FeCoMo. These combinations enable the promotion of the L10 phase of the FePt-containing material which provides a high coercivity magnetic layer structure at much lower annealing temperatures than in the prior art.Type: GrantFiled: November 22, 2010Date of Patent: July 23, 2013Assignee: Headway Technologies, Inc.Inventors: Min Zheng, Kunliang Zhang, Min Li
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Patent number: 8493695Abstract: A method and system for providing a magnetic read transducer is described. The magnetic read transducer includes a magnetoresistive sensor a shield, and a spin pumping barrier layer. The magnetoresistive sensor includes a pinned layer, a spacer layer, and a free layer. The spacer layer is nonmagnetic and resides between the pinned layer and the free layer. The free layer is between the pinned layer and the shield. The spin pumping barrier layer is between the shield and the free layer.Type: GrantFiled: June 28, 2011Date of Patent: July 23, 2013Assignee: Western Digital (Fremont), LLCInventors: Christian Kaiser, Qunwen Leng, Mahendra Pakala, Daniele Mauri
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Patent number: 8477461Abstract: A thin film magnetic head including an MR laminated body composed of a first and second MR magnetic layers, first and second shield layers, and a bias magnetic field application layer provided on an opposite side of an air bearing surface (ABS) of the MR laminated body in order to apply a bias magnetic field orthogonal relative to the ABS. The first shield layer includes a first exchange coupling magnetic field application layer and a first antiferromagnetic layer; and the second shield layer includes a second exchange coupling magnetic field application layer and a second antiferromagnetic layer.Type: GrantFiled: July 29, 2008Date of Patent: July 2, 2013Assignee: TDK CorporationInventors: Tsutomu Chou, Yoshihiro Tsuchiya, Shinji Hara, Daisuke Miyauchi, Takahiko Machita
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Patent number: 8472151Abstract: A high performance TMR sensor is fabricated by employing a free layer with a trilayer configurations represented by FeCo/CoFeB/CoB, FeCo/CoB/CoFeB, FeCo/CoFe/CoB, or FeCo/FeB/CoB may also be employed. Alternatively, CoNiFeB or CoNiFeBM formed by co-sputtering CoB with CoNiFe or CoNiFeM, respectively, where M is V, Ti, Zr, Nb, Hf, Ta, or Mo may be included in a composite free layer or as a single free layer in the case of CoNiFeBM. A 15 to 30% in improvement in TMR ratio over a conventional CoFe/NiFe free layer is achieved while maintaining low Hc and RA<3 ohm-um2. In bilayer or trilayer embodiments, magnetostriction (?) between ?5×10?6 and 5×10?6 is achieved by combining CoB (??) and one or more layers having a positive ?.Type: GrantFiled: April 11, 2012Date of Patent: June 25, 2013Assignee: Headway Technologies, Inc.Inventors: Hui-Chuan Wang, Tong Zhao, Min Li, Kunliang Zhang
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Patent number: 8472147Abstract: A magnetic shield for a magnetoresistive (MR) reader has one or more lateral hard magnets and a ferromagnetic shielding layer with at least one hard sub-magnet in a lateral notch in the shielding layer. The notch allows the shielding layer to contact the sub-magnet on surfaces along multiple normal planes.Type: GrantFiled: May 6, 2011Date of Patent: June 25, 2013Assignee: Seagate Technology LLCInventors: Eric W. Singleton, Junjie Quan, Jae-Young Yi
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Patent number: 8472150Abstract: A giant magneto-resistive effect device (CPP-GMR device) having the CPP (current perpendicular to plane) structure comprising a spacer layer, and a first ferromagnetic layer and a second ferromagnetic layer stacked one upon another with the spacer layer interposed between them, with a sense current applied in a stacking direction, wherein the spacer layer comprises a first nonmagnetic metal layer and a second nonmagnetic metal layer, each made of a nonmagnetic metal material, and a semiconductor oxide layer interposed between the first nonmagnetic metal layer and the second nonmagnetic metal layer, the semiconductor oxide layer that forms a part of the spacer layer contains zinc oxide as its main component wherein the main component zinc oxide contains an additive metal, and the additive metal is less likely to be oxidized than zinc.Type: GrantFiled: January 3, 2008Date of Patent: June 25, 2013Assignee: TDK CorporationInventors: Yoshihiro Tsuchiya, Tomohito Mizuno, Kei Hirata, Koji Shimazawa, Shinji Hara
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Patent number: 8462469Abstract: A magneto-resistive effect (MR) element includes a magneto-resistive (MR) stack with a magnetization free layer, a bias magnetic field application layer positioned on a side of the MR stack, and an insulation film insulating the bias magnetic field application layer. The bias magnetic field application layer includes hard magnetic layer positioned on the side of the magnetization free layer and formed of iron-platinum (FePt) alloy and Pt seed layer provided between the MR stack and the hard magnetic layer and on a lower surface of the hard magnetic layer in contact manner with the hard magnetic layer and formed of platinum (Pt). The insulation film is a MgO insulation film formed of oxide magnesium (MgO), provided on a surface of the Pt seed layer in contact manner with the Pt seed layer, the surface being opposite to another surface of the Pt seed layer contacting the hard magnetic layer.Type: GrantFiled: May 4, 2012Date of Patent: June 11, 2013Assignee: TDK CorporationInventors: Takayasu Kanaya, Masashi Sano
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Patent number: 8462467Abstract: A thin film magnetic head includes: a magneto resistance effect film of which electrical resistance varies corresponding to an external magnetic field; a pair of shields provided on both sides in a manner of sandwiching the MR film in a direction that is orthogonal to a film surface of the MR film; an anisotropy providing layer that provides exchange anisotropy to a first shield of the pair of shields in order to magnetize the first shield in a desired direction, and that is disposed on the opposite side from the MR film with respect to the first shield; and side shields that are disposed on both sides of the MR film in a track width direction and that include soft magnetic layers magnetically connected with the first shield.Type: GrantFiled: October 8, 2010Date of Patent: June 11, 2013Assignee: TDK CorporationInventors: Takumi Yanagisawa, Yasushi Nishioka, Takahiko Machita, Satoshi Miura, Takayasu Kanaya, Kenzo Makino, Yoshikazu Sawada, Takekazu Yamane, Naomichi Degawa, Kosuke Tanaka, Soji Koide, Daisuke Miyauchi
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Patent number: 8456781Abstract: A composite free layer having a FL1/insertion/FL2 configuration where a top surface of FL1 is treated with a weak plasma etch is disclosed for achieving enhanced dR/R while maintaining low RA, and low ? in TMR or GMR sensors. The weak plasma etch removes less than about 0.2 Angstroms of FL1 and is believed to modify surface structure and possibly increase surface energy. FL1 may be CoFe, CoFe/CoFeB, or alloys thereof having a (+) ? value. FL2 may be CoFe, NiFe, or alloys thereof having a (?) ? value. The thin insertion layer includes at least one magnetic element such as Co, Fe, and Ni, and at least one non-magnetic element. When CoFeBTa is selected as insertion layer, the CoFeB:Ta ratio is from 1:1 to 4:1.Type: GrantFiled: July 30, 2012Date of Patent: June 4, 2013Assignee: Headway Technologies, Inc.Inventors: Tong Zhao, Hui-Chuan Wang, Min Li, Kunliang Zhang
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Patent number: 8456898Abstract: Techniques and magnetic devices associated with a magnetic element that includes a fixed layer having a fixed layer magnetization and perpendicular anisotropy, a nonmagnetic spacer layer, and a free layer having a changeable free layer magnetization and perpendicular anisotropy.Type: GrantFiled: December 5, 2011Date of Patent: June 4, 2013Assignee: Grandis Inc.Inventors: Eugene Youjun Chen, Shengyuan Wang
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Patent number: 8449995Abstract: A protecting coating for a copper substrate is disclosed. The coating comprises seed layer comprising titanium ions that forms an “alloy-like” structure with the copper substrate. The coating further comprises a first layer of carbon disposed on the seed layer comprising titanium ions. A second layer comprising titanium is disposed on the first layer of carbon, and a second layer of carbon is disposed on the second layer comprising titanium.Type: GrantFiled: March 31, 2009Date of Patent: May 28, 2013Assignee: Seagate Technology LLCInventors: Yongping Gong, Kristoffer Steven Scheponik
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Patent number: 8451565Abstract: In one embodiment, a magnetic head includes a lower shield layer, a sensor stack positioned above the lower shield layer, the sensor stack including a free layer, a layered hard bias magnet positioned above the lower shield layer and on both sides of the sensor stack in a track width direction, and an upper shield layer positioned above the hard bias magnet and the sensor stack. The hard bias magnet includes a perpendicular anisotropy film positioned above the lower shield layer and aligned with both sides of the sensor stack in the track width direction, wherein the perpendicular anisotropy film directs magnetic fields in a direction perpendicular to planes of formation thereof, and an in-plane anisotropy film positioned above the perpendicular anisotropy film, wherein the in-plane anisotropy film directs magnetic fields in a direction of planes of formation thereof.Type: GrantFiled: November 21, 2011Date of Patent: May 28, 2013Assignee: HGST Netherlands B.V.Inventors: Susumu Okamura, Takahiro Ibusuki
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Patent number: 8451567Abstract: A CPP (Current Perpendicular to Plane) MR (Magnetoresistive) read head and its method of fabrication includes a patterned CPP MR sensor stack having a SAF (Synthetic Antiferromagnetic) free layer structure that is longitudinally biased by the combination of an exchange biasing layer formed over the sensor stack and hard biasing layers that are formed adjacent to the patterned sides of the stack. The combination provides the stack with high resolution reading capabilities without the necessity for a narrow read gap formed by closely spaced top and bottom shields. Sixteen embodiments are described that provide different versions of the exchange biasing layer, different positions of the hard biasing layers and different patternings of the CPP MR sensor stack.Type: GrantFiled: December 13, 2010Date of Patent: May 28, 2013Assignee: Headway Technologies, Inc.Inventors: Yuchen Zhou, Wenyu Chen, Joe Smyth
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Publication number: 20130128391Abstract: A magneto-resistance effect element, including: a fixed magnetization layer of which a magnetization is substantially fixed in one direction; a free magnetization layer of which a magnetization is rotated in accordance with an external magnetic field and which is formed opposite to the fixed magnetization layer; a spacer layer including a current confining layer with an insulating layer and a conductor to pass a current through the insulating layer in a thickness direction thereof and which is located between the fixed magnetization layer and the free magnetization layer; a thin film layer which is located in a side opposite to the spacer layer relative to the free magnetization layer; and a functional layer containing at least one element selected from the group consisting of Si, Mg, B, Al which is formed in or on at least one of the fixed magnetization layer, the free magnetization layer and the thin film layer.Type: ApplicationFiled: January 14, 2013Publication date: May 23, 2013Applicants: TDK CORPORATION, KABUSHIKI KAISHA TOSHIBAInventors: KABUSHIKI KAISHA TOSHIBA, TDK CORPORATION
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Patent number: 8440330Abstract: Magnetic tunnel junction cells and methods of making magnetic tunnel junction cells that include a radially protective layer extending proximate at least the ferromagnetic free layer of the cell. The radially protective layer can be specifically chosen in thickness, deposition method, material composition, and/or extent along the cell layers to enhance the effective magnetic properties of the free layer, including the effective coercivity, effective magnetic anisotropy, effective dispersion in magnetic moment, or effective spin polarization.Type: GrantFiled: October 21, 2011Date of Patent: May 14, 2013Assignee: Seagate Technology, LLCInventors: Paul E. Anderson, Song S. Xue
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Thin film magnetic head including spin-valve film with free layer magnetically connected with shield
Patent number: 8437106Abstract: A thin film magnetic head includes; an MR film that includes a pinned layer of which a magnetization direction is pinned, a free layer of which a magnetization direction varies, and a spacer that is disposed therebetween; a pair of shields that are disposed on both sides sandwiching the MR film in a direction orthogonal to a film surface of the MR film; and an anisotropy providing layer that provides anisotropy to a first shield so that the first shield is magnetized in a desired direction, and that is disposed on an opposite side from the MR film with respect to the first shield. The MR film includes a magnetic coupling layer that is disposed between the first shield and the free layer and that magnetically couples the first shield with the free layer.Type: GrantFiled: October 8, 2010Date of Patent: May 7, 2013Assignee: TDK CorporationInventors: Takumi Yanagisawa, Yasushi Nishioka, Takahiko Machita, Satoshi Miura, Takayasu Kanaya, Kenzo Makino, Yoshikazu Sawada, Takekazu Yamane, Naomichi Degawa, Kosuke Tanaka, Soji Koide, Daisuke Miyauchi -
Patent number: 8432646Abstract: Embodiments of the present invention help to reduce etching damage at end parts of a magnetoresistive sensor in ion beam etching. According to one embodiment, ion beam etching (IBE) is used in a magnetoresistive sensor track width forming step. This IBE irradiates Ar ion beam to a substrate in a state that the substrate is inclined and further rotates the substrate about its normal as a rotational axis. In a conventional track width forming step, the IBE irradiates the Ar ion beam to the substrate all the time while the IBE is rotating the substrate. By contrast, the IBE according to embodiments of the present invention irradiates the Ar ion beam to the substrate only in a predetermined specific angular range.Type: GrantFiled: February 4, 2008Date of Patent: April 30, 2013Assignee: HGST Netherlands B.V.Inventors: Shuuichi Kojima, Satoru Okamoto, Nobuo Yoshida, Katsuro Watanabe
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Patent number: 8427791Abstract: According to one embodiment, a magnetic head includes a barrier layer having a crystalline structure, a first magnetic layer above the barrier layer, a magnetic insertion layer above the first magnetic layer, and a second magnetic layer above the magnetic insertion layer, the second magnetic layer having a textured face-centered cubic (fcc) structure. The first magnetic layer comprises a high spin polarization magnetic material having a crystalline structure and a characteristic of crystallization being more similar to the crystalline structure of the barrier layer than a crystalline structure of the second magnetic layer and the magnetic insertion layer comprises a magnetic material having a crystalline structure and a characteristic of crystallization being more similar to the crystalline structure of the second magnetic layer than the crystalline structure of the barrier layer. Additional magnetic head structures and methods of producing magnetic heads are described according to more embodiments.Type: GrantFiled: November 23, 2010Date of Patent: April 23, 2013Assignee: HGST Netherlands B.V.Inventors: Zheng Gao, Liubo Hong, Richard Hsiao, Sangmun Oh, Chando Park, Chang-Man Park