Patents by Inventor Joe Smyth
Joe Smyth has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 8416649Abstract: Improved spatial resolution during TAMR has been achieved by shaping the write pole to have a lower surface that slopes away from the surface of the recording medium, starting at, or near, the pole's leading edge. The approach may be used for simple or compound (stitched) poles.Type: GrantFiled: May 11, 2010Date of Patent: April 9, 2013Assignee: Headway Technologies, Inc.Inventors: Kenichi Takano, Joe Smyth, Erhard Schreck
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Publication number: 20130069626Abstract: A method for measuring the frequency in a spin torque oscillator having at least a magnetic oscillation layer (MOL), junction layer, and magnetic reference layer (MRL) is disclosed. In a first embodiment, a small in-plane magnetic field is applied to the STO after a DC current is applied to excite the MOL into an oscillation state. The MRL has a perpendicular magnetization that is tilted slightly to give an in-plane magnetization component to serve as a reference layer for measuring the oscillation frequency of the MOL in-plane magnetization component. An AC voltage change is produced in the DC current as a result of variable STO resistance and directly correlates to MOL oscillation frequency. Alternatively, a field having both perpendicular and in-plane components may be applied externally or by forming the STO between two magnetic poles thereby producing an in-plane magnetization reference component in the MRL.Type: ApplicationFiled: September 19, 2011Publication date: March 21, 2013Inventors: Yuchen Zhou, Kunliang Zhang, Min Li, Kenichi Takano, Joe Smyth, Moris Dovek, Akihiko Takeo, Tomomi Funayama, Masahiro Takashita, Masayuki Takagishi
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Publication number: 20130049747Abstract: An MR sensor, and a method for making it, is described. Part of the MR stack, from the free layer on up, is removed and then replaced by a flux guide. Additional stabilizing means for this flux guide are provided, either as hard bias or through exchange coupling.Type: ApplicationFiled: August 22, 2011Publication date: February 28, 2013Inventors: Yuchen Zhou, Joe Smyth, Min Li, Glen Garfunkel
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Patent number: 8379347Abstract: A PMR writer with a tapered main pole layer and tapered non-magnetic top-shaping layer is disclosed that minimizes trailing shield saturation. A second non-magnetic top shaping layer may be employed to reduce the effective TH size while the bulk of the trailing shield is thicker to allow a larger process window for back end processing. A sloped surface with one end at the ABS and a second end 0.05 to 0.3 microns from the ABS is formed at a 10 to 80 degree angle to the ABS and includes a sloped surface on the upper portion of the main pole layer and on the non-magnetic top shaping layer. An end is formed on the second non-magnetic top shaping layer at the second end of the sloped surface followed by forming a conformal write gap layer and then depositing the trailing shield on the write gap layer and along the ABS.Type: GrantFiled: July 20, 2012Date of Patent: February 19, 2013Assignee: Headway Technologies, Inc.Inventors: Lijie Guan, Joe Smyth, Moris Dovek, Yoshitaka Sasaki, Cherng-Chyi Han
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Patent number: 8369189Abstract: A TAMR (Thermal Assisted Magnetic Recording) writer has a narrow pole tip with a trailing edge magnetic shield. The narrow pole tipped write head uses the energy of laser generated edge plasmons, formed in a plasmon generating layer, to locally heat a PMR magnetic recording medium below its Curie temperature, Tc. When combined with the effects of the narrow tip, this local heating to a temperature below Tc is sufficient to create good transitions and narrow track widths in the magnetic medium. The write head is capable of writing effectively on state-of-the-art PMR recording media having Hk of 20 kOe or more.Type: GrantFiled: April 14, 2011Date of Patent: February 5, 2013Assignee: Headway Technologies, Inc.Inventors: Xuhui Jin, Yuchen Zhou, Kenichi Takano, Joe Smyth
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Publication number: 20120281313Abstract: A PMR writer with a tapered main pole layer and tapered non-magnetic top-shaping layer is disclosed that minimizes trailing shield saturation. A second non-magnetic top shaping layer may be employed to reduce the effective TH size while the bulk of the trailing shield is thicker to allow a larger process window for back end processing. A sloped surface with one end at the ABS and a second end 0.05 to 0.3 microns from the ABS is formed at a 10 to 80 degree angle to the ABS and includes a sloped surface on the upper portion of the main pole layer and on the non-magnetic top shaping layer. An end is formed on the second non-magnetic top shaping layer at the second end of the sloped surface followed by forming a conformal write gap layer and then depositing the trailing shield on the write gap layer and along the ABS.Type: ApplicationFiled: July 20, 2012Publication date: November 8, 2012Applicant: HEADWAY TECHNOLOGIES, INC.Inventors: Liejie Guan, Joe Smyth, Moris Dovek, Yoshitaka Sasaki, Cherng-Chyi Han
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Publication number: 20120279051Abstract: A method of forming a TAMR (Thermal Assisted Magnetic Recording) write head that uses the energy of optical-laser generated edge plasmons in a plasmon antenna to locally heat a magnetic recording medium and reduce its coercivity and magnetic anisotropy. The method incorporates forming a magnetic core within the plasmon antenna, so the antenna effectively becomes an extension of the magnetic pole and produces a magnetic field whose maximum gradient overlaps the region being heated by the edge plasmons generated in the conducting layer of the antenna surrounding the antenna's magnetic core.Type: ApplicationFiled: July 18, 2012Publication date: November 8, 2012Applicant: HEADWAY TECHNOLOGIES, INC.Inventors: Yuchen Zhou, Kenichi Takano, Xuhui Jin, Erhard Schreck, Moris Dovek, Joe Smyth
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Patent number: 8305711Abstract: A microwave assisted magnetic recording writer is disclosed with an octagonal write pole having a top portion including a trailing edge that is self aligned to a spin transfer oscillator (STO). Leading and trailing edges are connected by two sidewalls each having three sections. A first section on each side is coplanar with the STO sidewalls and is connected to a sloped second section at a first corner. Each second section is connected to a third section at a second corner where the distance between second corners is greater than the distance between first corners. A method of forming the writer begins with a trapezoidal shaped write pole in an insulation layer. Two ion beam etch (IBE) steps are used to shape top and middle portions of the write pole and narrow the pole width to <50 nm without breakage. Finally, a trailing shield is formed on the STO.Type: GrantFiled: March 3, 2010Date of Patent: November 6, 2012Assignee: Headway Technologies, Inc.Inventors: Min Li, Cherng-Chyi Han, Kenichi Takano, Joe Smyth
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Patent number: 8295132Abstract: A TAMR head is disclosed with a triangular shaped plasmon antenna covered on two sides with a plasmon layer that generates an edge plasmon mode along a vertex of the two plasmon sides formed opposite a main pole layer. A plasmon shield (PS) is formed along the ABS and opposite the vertex to confine an electric field from the edge plasmon mode within a small radius of the edge plasmon tip thereby reducing the optical spot size on the magnetic medium and enhancing writability. An end of a waveguide used to direct input electromagnetic radiation to the plasmon antenna adjoins a PS side opposite the ABS. In one embodiment, a magnetic shield may be formed along the ABS and adjoins the PS so that a first PS section terminates at the ABS and faces the vertex while a second PS section is formed between the magnetic shield and waveguide end.Type: GrantFiled: September 23, 2011Date of Patent: October 23, 2012Assignee: Headway Technologies, Inc.Inventors: Xuhui Jin, Yuchen Zhou, Joe Smyth, Tobias Maletzky, Kenichi Takano, Erhard Schreck
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Publication number: 20120263024Abstract: A TAMR (Thermal Assisted Magnetic Recording) writer has a narrow pole tip with a trailing edge magnetic shield. The narrow pole tipped write head uses the energy of laser generated edge plasmons, formed in a plasmon generating layer, to locally heat a PMR magnetic recording medium below its Curie temperature, Tc. When combined with the effects of the narrow tip, this local heating to a temperature below Tc is sufficient to create good transitions and narrow track widths in the magnetic medium. The write head is capable of writing effectively on state-of-the-art PMR recording media having Hk of 20 kOe or more.Type: ApplicationFiled: April 14, 2011Publication date: October 18, 2012Inventors: Xuhui Jin, Yuchen Zhou, Kenichi Takano, Joe Smyth
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Patent number: 8284637Abstract: A TAMR (Thermal Assisted Magnetic Recording) write head uses the energy of optical-laser generated plasmons in a plasmon generator to locally heat a magnetic recording medium and reduce its coercivity and magnetic anisotropy. To enable the TAMR head to operate most effectively, the antenna is formed in three portions, a wide portion of uniform horizontal area, a tapered portion tapering towards the ABS of the write head and a narrow tip extending from the tapered portion to the ABS. The wide portion enhances coupling of optical radiation from a waveguide to surface plasmons generated within the generator, the tapered portion condenses and focuses the plasmons as they propagate towards the ABS and the narrow tip further focuses the surface plasmon field at the medium surface.Type: GrantFiled: January 25, 2010Date of Patent: October 9, 2012Assignee: Headway Technologies, Inc.Inventors: Xuhui Jin, Kenichi Takano, Yuchen Zhou, Erhard Schreck, Joe Smyth, Moris Dovek
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Patent number: 8248898Abstract: A waveguide structure for aligning a light source to a center waveguide (CWG) in a TAMR head is disclosed and includes two alignment waveguides (AWVG) symmetrically formed about a plane that bisects the CWG lengthwise dimension. Each AWVG has a light coupling section formed parallel to a side of the CWG and captures 0.5% to 10% of the light in the CWG. Each AWVG has an outlet that directs light to a photo detector or camera so that light intensity measurements lAWVG1 and lAWVG2 for first and second AWVG, respectively, can be taken at various positions of the light source. Optimum alignment occurs when (lAWVG1+lAWVG2) reaches a maximum value and |lAWVG1?lAWVG2| has a minimum value. AWVG outlets may be at the ABS, or at the side or back end of a slider. Measurement sensitivity is increased by decreasing the width of the AWVG.Type: GrantFiled: October 18, 2010Date of Patent: August 21, 2012Assignee: Headway Technologies, Inc.Inventors: Erhard Schreck, Xuhui Jin, Tobias Maletzky, Joe Smyth, Dayu Zhou, Yuchen Zhou, Kenichi Takano
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Patent number: 8238202Abstract: A waveguide structure for a TAMR head is disclosed wherein at least one detection waveguide is formed parallel to a main waveguide and located a gap distance therefrom. A light source transmits light into the main waveguide and towards an ABS/medium interface. A plasmon generator converts light from the waveguide into plasmon waves that are directed onto a magnetic medium. Back reflected light is captured by the main waveguide, partially diverted into a detection waveguide, and transmitted to a photo detector that measures light intensity (IB) which correlates closely to the plasmon wave intensity at the ABS/medium interface. A controller linked to the photo detector is employed to calculate IB as a function of ABS/medium spacing in a non-write condition and this relationship can be used to control and maintain a constant plasmon wave intensity at the ABS during a series of TAMR write processes with a plurality of media.Type: GrantFiled: December 16, 2010Date of Patent: August 7, 2012Assignee: Headway Technologies, Inc.Inventors: Erhard Schreck, Tobias Maletzky, Xuhui Jin, Yuchen Zhou, Kenichi Takano, Joe Smyth
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Patent number: 8238056Abstract: A PMR writer with a tapered main pole layer and tapered non-magnetic top-shaping layer is disclosed that minimizes trailing shield saturation. A second non-magnetic top shaping layer may be employed to reduce the effective TH size while the bulk of the trailing shield is thicker to allow a larger process window for back end processing. A sloped surface with one end at the ABS and a second end 0.05 to 0.3 microns from the ABS is formed at a 10 to 80 degree angle to the ABS and includes a sloped surface on the upper portion of the main pole layer and on the non-magnetic top shaping layer. An end is formed on the second non-magnetic top shaping layer at the second end of the sloped surface followed by forming a conformal write gap layer and then depositing the trailing shield on the write gap layer and along the ABS.Type: GrantFiled: November 2, 2007Date of Patent: August 7, 2012Assignee: Headway Technologies, Inc.Inventors: Liejie Guan, Joe Smyth, Moris Dovek, Yoshitaka Sasaki, Cherng-Chyi Han
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Patent number: 8233358Abstract: A TAMR (Thermal Assisted Magnetic Recording) write head uses the energy of optical-laser generated plasmons in a plasmon antenna to locally heat a magnetic recording medium and reduce its coercivity and magnetic anisotropy. To enable the TAMR head to operate most effectively, the maximum gradient of the magnetic recording field should be concentrated in the small region being heated. Typically this does not occur because the spot being heated by the antenna is offset from the position at which the magnetic pole concentrates its magnetic field. The present invention incorporates a magnetic core within a plasmon antenna, so the antenna effectively becomes an extension of the magnetic pole and produces a magnetic field whose maximum gradient overlaps the region being heated by edge plasmons being generated in a conducting layer surrounding the antenna's magnetic core.Type: GrantFiled: June 15, 2009Date of Patent: July 31, 2012Assignee: Headway Technologies, Inc.Inventors: Yuchen Zhou, Kenichi Takano, Xuhui Jin, Erhard Schreck, Moris Dovek, Joe Smyth
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Patent number: 8228634Abstract: A device to facilitate Thermally Assisted Magnetic Recording (TAMR), and a method for its manufacture, are described. One or more cylindrical lenses are used to focus light from a laser diode onto a wave-guide and a nearby plasmon antenna. Five embodiments of the invention are described, each one featuring a different way to couple the laser light to the optical wave-guide.Type: GrantFiled: January 7, 2010Date of Patent: July 24, 2012Assignee: Headway Technologies, Inc.Inventors: Xuhui Jin, Erhard Schreck, Joe Smyth, Moris Dovek
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Publication number: 20120155232Abstract: A waveguide structure for a TAMR head is disclosed wherein at least one detection waveguide is formed parallel to a main waveguide and located a gap distance therefrom. A light source transmits light into the main waveguide and towards an ABS/medium interface. A plasmon generator converts light from the waveguide into plasmon waves that are directed onto a magnetic medium. Back reflected light is captured by the main waveguide, partially diverted into a detection waveguide, and transmitted to a photo detector that measures light intensity (IB) which correlates closely to the plasmon wave intensity at the ABS/medium interface. A controller linked to the photo detector is employed to calculate IB as a function of ABS/medium spacing in a non-write condition and this relationship can be used to control and maintain a constant plasmon wave intensity at the ABS during a series of TAMR write processes with a plurality of media.Type: ApplicationFiled: December 16, 2010Publication date: June 21, 2012Inventors: Erhard Schreck, Tobias Maletzky, Xuhui Jin, Yuchun Zhou, Kenichi Takano, Joe Smyth
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Patent number: 8203389Abstract: A spin transfer oscillator (STO) device is disclosed with a giant magnetoresistive (GMR) junction comprising a magnetic resistance layer (MRL)/spacer/magnetic oscillation layer (MOL) configuration, and a MR sensor including a sensing layer/junction layer/reference layer configuration. MOL and sensing layer are magnetostatically coupled and separated by a conductive spacer. MRL has perpendicular magnetic anisotropy while MOL and sensing layer have a Mst (saturation magnetization×thickness) value within ±50% of each other. When a magnetic field is applied perpendicular to the planes of the MOL and a high density current flows from the conductive spacer to the MRL, a MOL oscillation state with a certain frequency is induced. Consequently, the sensing layer oscillates with a similar RF frequency and when a low density current flows across the MR sensor, an AC voltage signal is generated to determine the sensing layer frequency that can be varied by adjusting the applied field.Type: GrantFiled: December 6, 2010Date of Patent: June 19, 2012Assignee: Headway Technologies, Inc.Inventors: Yuchen Zhou, Kunliang Zhang, Pokang Wang, Joe Smyth
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Publication number: 20120147504Abstract: A CPP MR read head and its method of fabrication includes a patterned CPP MR sensor stack having a SAF 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: ApplicationFiled: December 13, 2010Publication date: June 14, 2012Inventors: Yuchen Zhou, Wenyu Chen, Joe Smyth
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Publication number: 20120139649Abstract: A spin transfer oscillator (STO) device is disclosed with a giant magnetoresistive (GMR) junction comprising a magnetic resistance layer (MRL)/spacer/magnetic oscillation layer (MOL) configuration, and a MR sensor including a sensing layer/junction layer/reference layer configuration. MOL and sensing layer are magnetostatically coupled and separated by a conductive spacer. MRL has perpendicular magnetic anisotropy while MOL and sensing layer have a Mst (saturation magnetization×thickness) value within ±50% of each other. When a magnetic field is applied perpendicular to the planes of the MOL and a high density current flows from the conductive spacer to the MRL, a MOL oscillation state with a certain frequency is induced. Consequently, the sensing layer oscillates with a similar RF frequency and when a low density current flows across the MR sensor, an AC voltage signal is generated to determine the sensing layer frequency that can be varied by adjusting the applied field.Type: ApplicationFiled: December 6, 2010Publication date: June 7, 2012Inventors: Yuchen Zhou, Kunliang Zhang, Pokang Wang, Joe Smyth