Patents by Inventor Paul P. Nguyen
Paul P. Nguyen 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).
-
Patent number: 6948231Abstract: The present invention presents a method for fabricating coil elements for magnetic write heads. A coil pattern is formed on a substrate using photolithographic techniques. The substrate is etched using reactive ion etching, creating a coil-shaped trench in the substrate. Thin film seed layers are deposited using ion beam deposition. The substrate is electroplated with metal filling the trenches with metal. The substrate is chemical mechanical polished to remove excess metal and planarize the air bearing surface of the write head.Type: GrantFiled: May 21, 2002Date of Patent: September 27, 2005Assignee: International Business Machines CorporationInventors: Richard Hsiao, Quang Le, Paul P. Nguyen, Son Van Nguyen, Mustafa Pinarbasi, Patrick R. Webb, Howard G. Zolla
-
Patent number: 6933155Abstract: A method for providing a magnetic element is disclosed. The method includes providing at least one magnetic element layer and providing a hard mask structure for masking a portion of the at least one magnetic element layer. The hard mask structure is made from hard mask material(s) that are etchable for defining the hard mask structure. The hard mask structure also acts as a mask during definition of a width of the magnetic element. The method also includes defining the width of the magnetic element by removing a portion of the at least one magnetic element layer using the hard mask structure as a mask. The hard mask structure preferably acts as a polishing stop for a planarization step, such as a chemical mechanical polish, polishing resistant structures might be provided to improve planarization of a magnetic memory incorporating the magnetic element.Type: GrantFiled: May 21, 2003Date of Patent: August 23, 2005Assignee: Grandis, Inc.Inventors: Frank Albert, Yiming Huai, Paul P. Nguyen
-
Patent number: 6920063Abstract: A method and system for providing a magnetic element capable of being written using spin-transfer effect while generating a high output signal and a magnetic memory using the magnetic element are disclosed. The magnetic element includes a first ferromagnetic pinned layer, a nonmagnetic spacer layer, a ferromagnetic free layer, an insulating barrier layer and a second ferromagnetic pinned layer. The pinned layer has a magnetization pinned in a first direction. The nonmagnetic spacer layer is conductive and is between the first pinned layer and the free layer. The barrier layer resides between the free layer and the second pinned layer and is an insulator having a thickness allowing electron tunneling through the barrier layer. The second pinned layer has a magnetization pinned in a second direction. The magnetic element is configured to allow the magnetization of the free layer to change direction due to spin transfer when a write current is passed through the magnetic element.Type: GrantFiled: December 18, 2003Date of Patent: July 19, 2005Assignee: Grandis, Inc.Inventors: Yiming Huai, Paul P. Nguyen
-
Patent number: 6888742Abstract: A method and system for providing a magnetic element capable of being written in a reduced time using the spin-transfer effect while generating a high output signal and a magnetic memory using the magnetic element are disclosed. The magnetic element includes a ferromagnetic pinned layer, a nonmagnetic intermediate layer, and a ferromagnetic free layer. The pinned layer has a magnetization pinned in a first direction. The nonmagnetic intermediate layer resides between the pinned layer and the free layer. The free layer has a magnetization with an easy axis in a second direction. The first direction is in the same plane as the second direction and is oriented at an angle with respect to the second direction. This angle is different from zero and ? radians. The magnetic element is also configured to allow the magnetization of the free layer to change direction due to spin transfer when a write current is passed through the magnetic element.Type: GrantFiled: August 28, 2002Date of Patent: May 3, 2005Assignee: Grandis, Inc.Inventors: Paul P. Nguyen, Yiming Huai
-
Patent number: 6847547Abstract: A method and system for providing a magnetic element and a corresponding memory are disclosed. In one aspect, the method and system include providing a dual spin tunnel/valve structure and at least one spin valve. The dual spin tunnel/valve structure includes a nonmagnetic spacer layer between a pinned layer and a free layer, another pinned layer and a barrier layer between the free layer and the other pinned layer. The free layers of the dual spin tunnel/valve structure and the spin valve are magnetostatically coupled. In one embodiment a separation layer resides between the dual spin tunnel/valve structure and the spin valve. In another aspect, the method and system include providing two dual spin valves, a spin tunneling junction there between and, in one embodiment, the separation layer. In both aspects, the magnetic element is configured to write to the free layers using spin transfer when a write current is passed through the magnetic element.Type: GrantFiled: February 28, 2003Date of Patent: January 25, 2005Assignee: Grandis, Inc.Inventors: Frank Albert, Yiming Huai, Paul P. Nguyen
-
Patent number: 6838740Abstract: A method and system for providing a magnetic element capable of being written using spin-transfer effect while being thermally stable and a magnetic memory using the magnetic element are disclosed. The magnetic element includes a first, second and third pinned layers, first and second nonmagnetic layers, a free layer and a nonmagnetic spacer layers. The first, second and third pinned layers are ferromagnetic and have first, second and third magnetizations pinned in first, second and third directions. The first and second nonmagnetic layers include first and second diffusion barriers, respectively. The first and second nonmagnetic layers are between the first and second pinned layers and the second and third pinned layers, respectively. The first and second pinned layers and the second and third pinned layers are antiferromagnetically coupled. The nonmagnetic spacer layer is conductive and resides between the free layer and the third pinned layer.Type: GrantFiled: September 27, 2002Date of Patent: January 4, 2005Assignee: Grandis, Inc.Inventors: Yiming Huai, Paul P. Nguyen
-
Patent number: 6829161Abstract: A method and system for providing a magnetic element capable of being written using the spin-transfer effect and a magnetic memory using the magnetic element are disclosed. The magnetic element includes a spin tunneling junction, a separation layer and a spin valve. In an alternate embodiment, the spin tunneling junction and/or spin valve may be dual. The separation layer is between a first free layer of the spin tunneling junction and a second free layer of the spin valve. The separation layer is configured so that the two free layers are magnetostatically coupled, preferably with their magnetizations antiparallel. In an alternate embodiment, having a dual spin valve and a dual spin tunneling junction, the separation layer may be omitted, and the appropriate distance provided using an antiferromagnetic layer. Another embodiment includes shaping the element such that the spin valve has a smaller lateral dimension than the spin tunneling junction.Type: GrantFiled: January 10, 2003Date of Patent: December 7, 2004Assignee: Grandis, Inc.Inventors: Yiming Huai, Frank Albert, Paul P. Nguyen
-
Publication number: 20040235201Abstract: A method and system for providing a magnetic element is disclosed. The method and system include providing at least one magnetic element layer and providing a hard mask structure for masking a portion of the at least one magnetic element layer. The hard mask structure is made from hard mask material(s) that are etchable for defining the hard mask structure. The hard mask structure also acts as a mask during definition of a width of the magnetic element. The method and system also include defining the width of the magnetic element by removing a portion of the at least one magnetic element layer using the hard mask structure as a mask. The hard mask structure preferably acts as a polishing stop for a planarization step, such as a chemical mechanical polish. Polishing resistant structures might be provided to improve planarization of a magnetic memory incorporating the magnetic element.Type: ApplicationFiled: May 21, 2003Publication date: November 25, 2004Inventors: Frank Albert, Yiming Huai, Paul P. Nguyen
-
Publication number: 20040170055Abstract: A method and system for providing a magnetic element and a corresponding memory are disclosed. In one aspect, the method and system include providing a dual spin tunnel/valve structure and at least one spin valve. The dual spin tunnel/valve structure includes a nonmagnetic spacer layer between a pinned layer and a free layer, another pinned layer and a barrier layer between the free layer and the other pinned layer. The free layers of the dual spin tunnel/valve structure and the spin valve are magnetostatically coupled. In one embodiment a separation layer resides between the dual spin tunnel/valve structure and the spin valve. In another aspect, the method and system include providing two dual spin valves, a spin tunneling junction there between and, in one embodiment, the separation layer. In both aspects, the magnetic element is configured to write to the free layers using spin transfer when a write current is passed through the magnetic element.Type: ApplicationFiled: February 28, 2003Publication date: September 2, 2004Inventors: Frank Albert, Yiming Huai, Paul P. Nguyen
-
Publication number: 20040136231Abstract: A method and system for providing a magnetic element capable of being written using the spin-transfer effect and a magnetic memory using the magnetic element are disclosed. The magnetic element includes a spin tunneling junction, a separation layer and a spin valve. In an alternate embodiment, the spin tunneling junction and/or spin valve may be dual. The separation layer is between a first free layer of the spin tunneling junction and a second free layer of the spin valve. The separation layer is configured so that the two free layers are magnetostatically coupled, preferably with their magnetizations antiparallel. In an alternate embodiment, having a dual spin valve and a dual spin tunneling junction, the separation layer may be omitted, and the appropriate distance provided using an antiferromagnetic layer. Another embodiment includes shaping the element such that the spin valve has a smaller lateral dimension than the spin tunneling junction.Type: ApplicationFiled: January 10, 2003Publication date: July 15, 2004Inventors: Yiming Huai, Frank Albert, Paul P. Nguyen
-
Publication number: 20040130940Abstract: A method and system for providing a magnetic element capable of being written using spin-transfer effect while generating a high output signal and a magnetic memory using the magnetic element are disclosed. The magnetic element includes a first ferromagnetic pinned layer, a nonmagnetic spacer layer, a ferromagnetic free layer, an insulating barrier layer and a second ferromagnetic pinned layer. The pinned layer has a magnetization pinned in a first direction. The nonmagnetic spacer layer is conductive and is between the first pinned layer and the free layer. The barrier layer resides between the free layer and the second pinned layer and is an insulator having a thickness allowing electron tunneling through the barrier layer. The second pinned layer has a magnetization pinned in a second direction. The magnetic element is configured to allow the magnetization of the free layer to change direction due to spin transfer when a write current is passed through the magnetic element.Type: ApplicationFiled: December 18, 2003Publication date: July 8, 2004Inventors: Yiming Huai, Paul P. Nguyen
-
Publication number: 20040130936Abstract: A magnetic element for a high-density memory array includes a resettable layer and a storage layer. The resettable layer has a magnetization that is set in a selected direction by at least one externally generated magnetic field. The storage layer has at least one magnetic easy axis and a magnetization that changes direction based on the spin-transfer effect when a write current passes through the magnetic element. An alternative embodiment of the magnetic element includes an additional multilayer structure formed from a tunneling barrier layer, a pinned magnetic layer and an antiferromagnetic layer that pins the magnetization of the pinned layer in a predetermined direction. Another alternative embodiment of the magnetic element includes an additional multilayer structure that is formed from a tunneling barrier layer and a second resettable layer having a magnetic moment that is different from the magnetic moment of the resettable layer of the basic embodiment.Type: ApplicationFiled: January 7, 2003Publication date: July 8, 2004Applicant: Grandis Inc.Inventors: Paul P. Nguyen, Yiming Huai
-
Publication number: 20040061154Abstract: A method and system for providing a magnetic element capable of being written using spin-transfer effect while being thermally stable and a magnetic memory using the magnetic element are disclosed. The magnetic element includes a first, second and third pinned layers, first and second nonmagnetic layers, a free layer and a nonmagnetic spacer layers. The first, second and third pinned layers are ferromagnetic and have first, second and third magnetizations pinned in first, second and third directions. The first and second nonmagnetic layers include first and second diffusion barriers, respectively. The first and second nonmagnetic layers are between the first and second pinned layers and the second and third pinned layers, respectively. The first and second pinned layers and the second and third pinned layers are antiferromagnetically coupled. The nonmagnetic spacer layer is conductive and resides between the free layer and the third pinned layer.Type: ApplicationFiled: September 27, 2002Publication date: April 1, 2004Inventors: Yiming Huai, Paul P. Nguyen
-
Patent number: 6714444Abstract: A method and system for providing a magnetic element capable of being written using spin-transfer effect while generating a high output signal and a magnetic memory using the magnetic element are disclosed. The magnetic element includes a first ferromagnetic pinned layer, a nonmagnetic spacer layer, a ferromagnetic free layer, an insulating barrier layer and a second ferromagnetic pinned layer. The pinned layer has a magnetization pinned in a first direction. The nonmagnetic spacer layer is conductive and is between the first pinned layer and the free layer. The barrier layer resides between the free layer and the second pinned layer and is an insulator having a thickness allowing electron tunneling through the barrier layer. The second pinned layer has a magnetization pinned in a second direction. The magnetic element is configured to allow the magnetization of the free layer to change direction due to spin transfer when a write current is passed through the magnetic element.Type: GrantFiled: August 6, 2002Date of Patent: March 30, 2004Assignee: Grandis, Inc.Inventors: Yiming Huai, Paul P. Nguyen
-
Publication number: 20040027853Abstract: A method and system for providing a magnetic element capable of being written using spin-transfer effect while generating a high output signal and a magnetic memory using the magnetic element are disclosed. The magnetic element includes a first ferromagnetic pinned layer, a nonmagnetic spacer layer, a ferromagnetic free layer, an insulating barrier layer and a second ferromagnetic pinned layer. The pinned layer has a magnetization pinned in a first direction. The nonmagnetic spacer layer is conductive and is between the first pinned layer and the free layer. The barrier layer resides between the free layer and the second pinned layer and is an insulator having a thickness allowing electron tunneling through the barrier layer. The second pinned layer has a magnetization pinned in a second direction. The magnetic element is configured to allow the magnetization of the free layer to change direction due to spin transfer when a write current is passed through the magnetic element.Type: ApplicationFiled: August 6, 2002Publication date: February 12, 2004Inventors: Yiming Huai, Paul P. Nguyen
-
Publication number: 20030218835Abstract: The present invention presents a method for fabricating coil elements for magnetic write heads. A coil pattern is formed on a substrate using photolithographic techniques. The substrate is etched using reactive ion etching, creating a coil-shaped trench in the substrate. Thin film seed layers are deposited using ion beam deposition. The substrate is electroplated with metal filling the trenches with metal. The substrate is chemical mechanical polished to remove excess metal and planarize the air bearing surface of the write head.Type: ApplicationFiled: May 21, 2002Publication date: November 27, 2003Applicant: International Business Machines CorporationInventors: Richard Hsiao, Quang Le, Paul P. Nguyen, Son Van Nguyen, Mustafa Pinarbasi, Patrick R. Webb, Howard G. Zolla
-
Patent number: 6185961Abstract: A nanopost glass array contains up to 1012/cm2 of magnetizable nanoposts having diameter of 10-1000 nm that are straight and parallel to each other and are typically of a uniform diameter relative to each other and along the post length. The array is made using a reference electrode and a nanochannel glass template structure connected to each other electrically through an electrical source and both disposed in a plating solution. A magnetizable material is electroplated from the plating solution into the channels of the template structure.Type: GrantFiled: January 27, 1999Date of Patent: February 13, 2001Assignee: The United States of America as represented by the Secretary of the NavyInventors: Ronald J. Tonucci, Paul P. Nguyen