DSSC: 1998–2003 Seminars

Seminar tapes from 1988–2003

The following DSSC seminars are available on videotape. The cost for each tape is $75 for member companies, $175 for non-member companies.

To order tapes, please call the Center at 412-268-6600. Also, DSSC personnel (faculty, staff and students) can sign out these videotapes for temporary use.

You may also choose to download a PDF version of the seminar list from 1988 to 2003.

Jump to: 2003 · 2002 · 2001 · 2000 · 1999 · 1998 · 1997 · 1996 · 1995 · 1994 · 1993 · 1992 · 1991 · 1990 · 1989 · 1988

Date	Lecturer Affiliation	Topic

2003
11/07	Prof. Jian-Gang Zhu Carnegie Mellon University	Current Induced Magnetic Noise in CPP/GMR Read Sensors
10/31	William Egelhoff NIST	Highlights of Magnetism Research at NIST
10/24	Dr. Robert McMichael NIST	Dynamics, Damping and Defects in Thin Ferromagnetic Films
10/10	Dr. Engling Yeo STMicroelectronics	Low Density Parity Check Codes - Are We Maxed Out Yet?
10/03	Prof. Lucy Pao University of Colorado, Boulder	Speed and Tension Control in Tape Systems
09/12	Stanko R. Brankovic Seagate Research	Electrodeposition of HMM CoNiFe Alloys on Nanoscale-Properties and Crystal Structure
09/05	T.W. Clinton Seagate Research	FIB Micro-Machining Of Recording Heads
06/20	Dr. Hiroshi Fujimoto Purdue University	Repetitive and Tracking Control of Hard Disk Drive Based on Multirate Sampling Control
05/02	Dr. Thomas Howell San Jose State University	Characterization of Magnetic Recording Channels: A Historical Perspective
04/17	Dr. John Xiao University of Delaware	Recent Developments in Magnetic Tunnel Junctions
04/03	Yang-Ki Hong University of Idaho	Magnetic Configuration in Pac-man Shaped Submicron Magnets for Spintronics (MRAM) Applications
03/13	Dr. Kevin R. Coffey University of Central Florida	Magnetization Reversal of Thin Film Magnetic Recording Media
03/06	Dr. Horacio Mendez Carnegie Mellon University	The Hard Disk Drive Industry — An Overview
02/27	Timothy J. Klemmer Seagate Research	Self-Organized Magnetic Arrays (SOMA)
02/20	Prof. Gary Friedman Drexel University	Patterning Surfaces by Magnetically Driven Assembly of Colloidal Particles
02/14	Julius Hohlfeld Seagate Research	Fabrication of High-Precision Nanostructures via Laser Focused Atom Deposition
02/06	Dr. Joachim Ahner Seagate Research	The NanoworkBench: Imaging, Manipulation, and Analyzing with Nanometer Precision
01/23	Dr. Michael Seigler Seagate Research	CPP-GMR Multilayer Reader for >100 Gbpsi
2002
12/04	Dr. Harsh Deep Chopra State University of New York at Buffalo	Several Thousand Percent Ballistic Magnetoresistance in Ferromagnetic Nanocontacts at Room Temperature
10/16	Prof. Metin Sitti Carnegie Mellon Mechanical Engineering/Robotics Institute	Nanorobotic Manipulation and Fabrication Using Atomic Force Microscope Probes
10/11	Vladimir L. Safonov Center for Magnetic Recording Research, UCSD	Microscopic Relaxation Mechanisms of Ferromagnetic Resonance Linewidth
10/07	Dr. Roger Wood IBM Storage Technology Division	Fundamental Limits in Magnetic Recording
09/03	Jaap J. M. Ruigrok, Research Fellow Philips Research Laboratories - The Netherlands	Prospects for Thermally-Assisted Recording
08/02	Shiba Panda, Ph.D. Independent	A Generalized State Estimator: Theory and Applications
06/06	Professor Aric K. Menon Technical University of Denmark	Nanotechnology: Business of Today
05/15	Dr. Paul M. Jones Seagate Research	The Head-Disk Interface at 100 GBPSI and Beyond
04/24	Shingo Tamaru Carnegie Mellon University	Measurement of Magnetostatic Mode Excitation and Relaxation in Permalloy Films Using Kerr Imaging
04/19	Professor Josef Fidler, Institute of Solid Physics Vienna University of Technology	Nanostructured Magnetic Materials: Switching and Hysteresis Properties
03/15	Dr. William A. Challener Seagate Technology	The Bow Tie Antenna as a Near Field Transducer for Visible Light
2001
11/29	Dr. Mark H. Kryder Seagate Research	The Future of Magnetic Recording Technology
10/31	Bane Vasic University of Arizona, Tucson	Structured Low Density Parity Check Codes Based on Combinatorial Designs
10/26	Helmut Kronmuller Max-Planck-Institut fŸr Metallforschung	Computational Micromagnetism of Magnetic Structures and Magnetization Processes in Small Particles and Thin Platelets
10/22	Mario Blaum IBM Almaden	Techniques for Protection of the Servo Sectors in Magnetic Recording Disks
10/11	Prof. Philip E. Wigen Ohio State University	Ferromagnetic Resonance Force Microscopy: Probing Ferromagnets at the Micron Level
10/03	Dr. David Thompson IBM (retired)	The Limits of Magnetic Recording and Why There Are No Viable Alternatives Which Could Replace Hard Disk Storage Any Time Soon
09/26	Mark Johnson Naval Research Lab	Spin Polarized Electrons in Semiconductors
05/02	Robert M. Dickson Georgia Institute of Technology	Photoactivated Fluorescence from Individual Silver Nanoclusters
04/25	Ganping Ju Seagate Research	Studies of High-speed Media Switching and Ultrafast Non-equilibrium Electron/Spin Dynamics
04/18	Richard J. Nichols University of Liverpool, UK	Electrochemical Control of Electron Tunneling to a Single Gold Nanoparticle: A Scanning Tunneling Spectroscopy Study
03/21	Prof. Frances Hellman UC San Diego	Enormous Negative Magnetoresistance in Amorphous Rare Earth Silicon Alloys
02/28	James M. MacLaren Tulane University	Theory of Spin Dependent Tunneling
02/21	Dr. Masud Mansuripur Optical Sciences Center, University of Arizona	Real-Time Studies Of Mark Formation Processes in Phase-Change and Magneto-Optical Media Using a Two-Laser Tester
02/06	Ronald S. Indeck Magnetics and Information Science Center, Washington University	Novel Magnetic Imaging and Nanoimprint Lithography
01/31	Prof. Qiao Lin Carnegie Mellon University	Engineering Applications of MEMS Thermal Devices
01/17	Prof. Maxim Tsoi Michigan State University	Generation and Detection of Current-Driven Magnons In Magnetic Multilayers
2000
12/01	Prof. Shan Wang Stanford University	Advanced Magnetic Materials for High Density Information Storage
11/10	Prof. Patrick McCluskey University of Maryland	Reliability Assessment of High Temperature and Power Electronics
11/01	Robert Rottmayer Seagate Research	GMR Wafer Manufacturing
10/27	William King Stanford University	Heat and Mass Transfer in Atomic Force Microscope Thermomechanical Data Storage
10/20	Prof.Mark de Graef Carnegie Mellon University	Transmission Electron Microscopy: What can it do?
10/06	Matthew T. White IBM Almaden Research Center	Control Challenges and Techniques for Hard Disk Drives
09/29	RenŽ; J.M. van de Veerdonk Seagate Research Pittsburgh	Spin Polarized Transport in Magnetic Tunnel Junctions
09/22	Thomas Silva NIST	Consideration of the Spherical Cow: The Realities of Magnetodynamics in an Imperfect World
09/15	Prof. Mehdi Asheghi Carnegie Mellon University	Thermal Engineering Of Microdevices
09/13	Roberto Oboe University of California	Research on HDD Servo at the University of Padova, Italy
09/01	Prof. Katayun Barmak Carnegie Mellon University	High Anisotropy Constant Materials for Recording Media: L10 Ordering and Grain Growth in CoPt and FePt Thin Films
07/27	Dr. Peter George St. Cloud State University	Noise Measurements on Magnetic Tunnel Junctions
05/05	Dr. Adam Torabi Quantum Corporation	Micromagnetic Study of Dynamic Switching in Longitudinal Thin Film Media
04/28	Fatih Sarigoz Carnegie Mellon University	Dropouts in Magnetic Tape Recording: A Signal Processing Perspective
04/07	Carsten Heide New York University	Magnetic Layer Switching By Current Driven Exchange
03/24	Terril Hurst Hewlett Packard	Understanding and Improving the Phase-Change Recording Process
03/13	Dr. Han-Ping D. Shieh	Institute of Opto-Electronic Engineering, Taiwan
03/10	Vincent Harris Naval Research Labs	Materials Science on an Atomic Scale via Extended X-ray Absorption Fine Structure
03/03	Professor Yuri Suzuki Cornell University	Magnetism at the Nanometer Length Scale in Epitaxial Colossal Magnetoresistance Films
02/10	Dr. Dieter Weller IBM Almaden Research Center	Thermal Stability Limits in Ultrahigh Density Magnetic Recording Media
1999
12/17	Prof. Tom Milster University of Arizona	Potential of SIL Recording for Optical Data Storage
12/03	Sakhrat Khizroev Seagate Research	Vertical Recording
11/19	Prof. Vijayakumar Bhagavatula Carnegie Mellon University	An Introduction to Turbo Codes
11/12	Dr. Ganping Ju Seagate Technology	Ultrafast Spin Dynamics and Coherent Magnetization Switching in Ferromagnetic Thin Films
11/05	Dr. Bruce Terris IBM Almaden Research Center	Ion Beam Patterned Magnetic Media for High Density Data Storage
10/29	Prof. Luc Berger Carnegie Mellon University	New Galvanomagnetic Experiments and Devices With Magnetic Multilayers
10/22	Prof. T.E. Schlesinger Carnegie Mellon University	Micro-Course--Lasers: How Do They Work?
10/08	Dr. Nisha Shukla Seagate Research	The Interaction and Bonding of Fluorocarbons With Amorphous Carbon Films
10/01	Dr. Aric K. Menon Read-Rite Corporation	Data Storage for the Millennium
09/28	Dr. Steve McLaughlin Georgia Institute of Technology	Turbo Codes for Data Storage
09/17	Dr. Leon Abelmann Univ. of Twente/Carnegie Mellon University	If It's Small, Is It Still Soft? - Micromagnetic Analysis of Read and Write Heads for Data Densities Over 100 Gbit/in²
09/10	Aaron Inspektor Kennametal Inc.	Super-Hard Coatings and Super-Hard Coating Technologies
09/10	Dr. Jin-Hui Zhai Carnegie Mellon University	High Bandwidth Electro-optic Scanner for Optical Data Storage
08/17	Dr. Teruaki Takeuchi Hitachi Maxell, Ltd.	Basic Magnetic Properties of CoCr-Alloy Thin Films for Magnetic Recording Media
05/07	Prof. William D. Doyle University of Alabama	Time Dependence of the Coercivity in Magnetic Media--The Story
04/30	Sirisha Kuchimanchi Carnegie Mellon University	Effect of Ga and Refractory Metals Addition to the Pr₃(Fe,Co,Ti)₂₉(3:29) Permanent Magnets System
04/09	Dr. Thomas Howell Quantum Corporation	Future Read Channels for Magnetic Disk Drives
03/23	Prof. Roy W. Chantrell SEECS	Thermal Activation in Micromagnetics
03/19	Dr. Mark H. Kryder Seagate Research	NSIC 100 Gbit/in² Program and Strategic Plan
02/26	Marilyn E. Hawley Los Alamos National Laboratory	Magnetic Force Microscopy Study of Stress and Structurally Influenced Magnetic Properties in Soft Magnets
02/25	Dr. Meiling Wu Seagate Research	Synthesis of Coatings with Hardness Exceeding 40 GPa by Magnetron Sputtering
02/12	Amy Hsiao Carnegie Mellon University	The Crystallization Kinetics of an Fe-Based Amorphous Magnetic Alloy
01/29	Venkatesh Vadde Carnegie Mellon University	Equalization, Detection and Coding for Volume Holographic Data Storage Systems
01/26	Dr. Convers Wyeth SAIC	Optical Tape for Digital Data Storage: Explorations in System Design
1998
12/04	Dr. Steven J. Finke Diamonex, Inc.	Properties and Applications of Diamond and Diamond-Like Carbon (DLC) Coatings and Products
12/03	Norman Koren Storage Technology Corporation	Applications of Write Equalization
11/20	Prof. Giorgio Bertotti Istituto Elettrotecnico Nazionale Galileo Ferraris	Hysteresis in Magnetism
11/18	Yukuko Kubota University of California, San Diego	Magnetic and Microstructural Properties of Sputter-Deposited Amorphous CoSm Thin Films
11/13	Prof. L. Rick Carley Carnegie Mellon University	IC-Based Fabrication of Mass Storage Devices
11/09	John Chapman University of Glasgow	Magnetisation Reversal Studies by TEM of Continuous and Patterned GMR Films
10/30	Thomas Crawford NIST	An Overview of the Second-Harmonic Magneto-Optic Kerr Effect (SH-MOKE)
10/23	Zafer Turgut Carnegie Mellon University	Magnetic Properties and Phase Transitions in Nanocrystalline FeCo and FeNx Alloys
10/19	Dr. Denis Mee Retired IBM	The First One Hundred Years of Magnetic Recording
10/16	Dr. Gordon Hughes University of California, San Diego	Future of Digital Disk Magnetic Recording, Revisited
10/15	Steve Shen University of Washington	Research on Rotating Disk/Spindle Systems at the University of Washington
10/09	David Jiles Ames Laboratory, Iowa State Univ	Modeling Magnetic Properties of Materials
10/02	Toshiki Hirano IBM Corporation	Micro-Machines for Mega-Storage
09/18	Isabel Trindade Carnegie Mellon University	Narrow-Track Antisymmetric Dual Magnetoresistive Head Performance on Rigid Media
09/11	Prof. Jian-Gang Zhu Carnegie Mellon University	Micromagnetic Analysis of Synthetic Antiferromagnet Biased Spin Valve Heads
08/25	Yoichiro Tanaka Toshiba	Ant's Eye View of Recording Media Magnetics
06/12	Erik Hardeng Tandberg Data	Tandberg Data: Background - Status - Future
05/18	Xu Baoxi National University of Singapore	Optical Data Storage Research in DSI
05/15	Clayton Christensen Harvard Business School	The Innovator's Dilemma: When New Technologies Cause Great Firms to Fail
04/24	Matt Willard Carnegie Mellon University	Nanocrystalline Alloys for High Temperature Soft Magnetic Applications
04/10	Leon Abelmann University of Twente	High Resolution Magnetic Force Microscopy and Laser Interference Lithography for Discrete Magnetic Media
04/03	Andrew Gellman Carnegie Mellon University	PFPE Lubricant Bonding to Carbon Overcoats
03/20	Louella Dias Carnegie Mellon University	Stress Management
02/27	Akira Kikitsu Toshiba R&D Center	CoPt-SiO₂ Granular Film for a High-Density Low-Noise Magnetic Recording Medium
02/13	Masakatsu Senda Nippon Telegraph & Telephone	Impedance-Matched UHF Carrier Type Magnetic Head
02/06	Hao Fang Carnegie Mellon University	Micromagnetics and Recording Properties of Network Media
01/30	James A. Bain Carnegie Mellon University	Tape Tracking Research at the DSSC
01/23	Adrian Devasahayam Carnegie Mellon University	Domain Stabilization Materials for Read Heads
01/16	Yusuke Itoh Toyota Technical Institute	Effect of Pt in TbFeCo on Magnetic and Magneto-Optical Properties
01/13	Takeshi Morikawa Toyota Central R&D	Soft Magnetic Properties of Co-Cr-O Granular Films
01/12	Masaaki Futamoto CRL, Hitachi Ltd.	Perpendicular Magnetic Recording: Simple Way to Keep the Areal Density Growth in the 21st Century
	Reinder Coehoorn Philips Research Laboratories	Magnetic Interactions, Micromagnetic Stability and Electronic Noise in Spin Valve GMR Structures
	Kazuyuki Yamaguchi, ASET Toyota	Activities on Magnetic Storage of Japanese National project in ASET
1997
12/05	Marc De Graef Carnegie Mellon University	Magnetic Domains and Magnetization Vectors: How Can We Observe and Quantify Them?
12/05	Geoffrey Burr IBM Almaden Res.Ctr.	Holographic Data Storage: A Summary of Recent Research
11/25	David A. Thompson IBM Almaden Res.Ctr.	The Role of Perpendicular Recording in the Future of Hard Disk Storage
11/21	Yi-Kuang Liu Carnegie Mellon University	High Moment FeAlN Materials for Magnetic Recording Heads
11/17	Tom Silva NIST	Moving at the Speed of Spin: Exp. Investig. at the Edge of Magnetic Switching Performance & Their Implications for Ultrafast Data Storage in the 21st Century
11/14	Matthias Scherge Technical University Ilmenau	Microtribology of Contact Recording
11/13	Masahiko Takahashi Hitachi, Ltd.	Grow Path of DVD-RAM and its Technology
11/07	Ladislav Pust Wayne State University	Coercive Pinning of Domain Walls in Soft Magnetic Materials
10/24	Venkatesh Vadde Carnegie Mellon University	Holographic Storage for Terabytes and Gb/s - How and Why
10/17	Jeff Goldberg Anderson Consulting	Today's Primary Storage Decisions
10/03	Michael E. McHenry Carnegie Mellon University	Synthesis, Structure, and Properties of Nanocrystalline Magnets
09/26	Aleksandar Kavcic Carnegie Mellon University	Maximum Likelihood Sequence Detection in High Density Recording
08/15	Hiroyuki Uwazumi Fuji Electric Co.	Time Decay of the Remanent Magnetization and Recording Readback Signal for CoCrTaPt and CoCrTa Thin Film Media
07/21	Klaas Klaassen IBM	Dynamic, Nonlinear Thin-Film Write Head Model
07/14	Katsuji Nakagawa Nihon University, Japan	Multi-Wavelength Read-Out Method for Multi-Valued MO Disk
07/11	Wipul Jayasekara Carnegie Mellon University	Inductive Write Heads Using High Moment Pole Material
06/23	Xiaoding Ma Carnegie Mellon University	Spreading of Perfluoropolyether Films on Carbon-Coated Disks
06/23	Royji Hioryama SANYO Electric Company	High-Power 630-nm-Band Laser Diodes With Strain-Compensated Single Quantum Well Active Layer
05/14	Dr. Pieter B. Visscher University of Alabama	Computer Simulation of Magnetic Colloids: Aggregation, Smectic Order, and Collective Effects in Switching
04/10	Katsusuke Shimazaki Hitachi Maxell, Ltd. Japan	Magnetic Domain Expansion Readout for Amplification of High Density MO Signal (MAMMOS)
04/07	Sanjay Lalbahadoersing University of Twente, Netherlands	Magnetic Recording Research at the University of Twente
04/07	Hane Groenland University of Twente, Netherlands	Comparison of Recording Properties of ME/MP Tape
03/27	Hans van Kesteren Philips Research Laboratories	Thin-Film Heads with Anisotropy-Determined Track Widths
03/27	Stephen Cumpson Philips Research Laboratories	Experimental and Theoretical Studies of Transition Shift in Metal Evaporated Tape
02/03	Philippe Fauchet University of Rochester	The University of Rochester's Image Systems Engineering Initiative
1996
11/14	Dr. Matthew Vea Quantum Corporation	The Effect of a Re-Read on Data Reliability
10/07	Han-Ping D. Shieh National Chiao Tung University, Taiwan	High Density Optical Recording Versus High Efficiency Projection Display System
10/04	Barry Schechtman National Storage Industry Consortium	NSIC: A Five Year Snapshot - Status and Directions
09/17	Robert Lamberton Queens University/University of Ulster, Ireland	Plasma Enhanced Chemical Vapor Deposition Of Thin Film DLC Overcoats For Magnetic Head Devices
09/17	Richard Crawford Queens University/University of Ulster, Ireland	Novel Routes To DLC And Related Wear Coatings
09/16	Moshen Araghi Queens University/University of Ulster, Ireland	Sputter Deposition Of Advanced Soft Magnetic Alloys
09/16	Pagona Papakonstantinou Queens University/University of Ulster, Ireland	Pulsed Laser Deposition Of Ferrimagnetic Oxides
06/10	Pietro Luigi Cavallotti Dipartimento Di Chimica Fisica Applicata Del Politecnico Di Milano	Microelectrochemistry For Magnetic Layers
05/24	Wipul Jayasekara Carnegie Mellon University	Inductive Write Heads For Ultra High Density Magnetic Recording
05/17	Jenny Lo/Dr. Laura Cornaglia Carnegie Mellon University	Using SCATIR To Measure Fly Heights", and "Fluorether Bonding To Carbon Overcoats
05/10	Srinivasan Gopalaswamy Carnegie Mellon University	High Track Density in Optical Recording Using Multi-Channel Signal Processing
05/09	David Cheng IBM Almaden Research Center	High Capacity Optical Recording - A Lesson From DVD
05/03	Dr. Bunsen Wong Carnegie Mellon University	Future Magnetic Recording Media: GigaBits And Beyond
04/19	Nick Zayed Carnegie Mellon University	Issues In High Density Magnetic Recording: A Signal Processing Perspective
04/15	Steven B. Luitjens Philips Research, Eindhoven	Some Issues Of MP And ME Tape In High Density Digital Recording
04/02	Prof. Horst Dotsch University of Osnabrueck, Germany	Applications of Magnetic Garnet Films in Optical Communication
02/16	Dr. Klaas Klaassen IBM	What Is Limiting High Data Rate Reading And Writing?
01/15	Dr. Ivan Thomas Institute Of Physics, Academy Of Sciences In The Czech Republic	Domain Wall Coercive Field Of Soft Magnetic Materials
01/15	Prof. Fernando Machado University Of Pernambuco, Brazil	Giant Magneto-Impedance And Hall Effect In CoFeSiB
1995
11/13	V. M. Dubovik; M. A. Martsenyuk JINRC; Perm State University, Russia	Toroid Memory: New Physics For The Extra-High Density Information Storage
11/10	Seiichi Onodera Sony Corporation	Approaches To 1 Gbit/in²
10/27	Gregory Silvus Carnegie Mellon University	Nonlinear Signal Modeling And Timing Recovery For Magneto-Resistive Magnetic-Tape Recording Channels
10/17	Prof. William Doyle University Of Alabama	Magnetization Reversal At High Speed - An Old Problem In A New Context
10/12	Prof. Ami Berkowitz University Of California, San Diego	Magnetic Storage In Nanoscale Structures
06/19	Dr. Siri Weerasooriya National University Of Singapore	Recent Trends In Push-Pin-Less Servo Writing
06/19	Dr. Kannan Krishnan Lawrence Berkeley Laboratory	Magnetic Thin Films And Nanostructures Microstructurally Tailored For New Technologies
05/05	Prof. Jonathan Wickert Carnegie Mellon University	Structural Mechanics Of Data Storage Media
04/26	Dr. Junsaku Nakajima Sharp Corporation	Magnetically Induced Super Resolution Method
04/24	Dr. Steven Stupp Philips Research Laboratories	The Recording Process In Metal Evaporated Tape
04/14	Dr. Wiep Folkerts Philips Research, Eindhoven	Yoke Type GMR Heads
03/31	Dr. Ferdinand Hendriks IBM	TANGO: A Class Of Speed- And Skew-Independent Air Bearings
03/17	D. D. Tang IBM Almaden Research Center	Disk Drive Electronics
03/03	Michael E. McHenry Carnegie Mellon University	Magnetic Hysteresis And Rotational Energy Barriers In C-Coated Co And RE/TM Fine Particle Ferromagnets
02/10	Paul J. Sides And Eugene Anoikin Carnegie Mellon University	Progress In Plasma Deposition Of Diamondlike Carbon Overcoats And Bi-Substituted Garnet For Data Storage Applications
1994
12/09	Mary Doerner IBM Corporation	Microstructure of Low-Noise Longitudinal Media
12/02	Dr. Bruno Marchon Seagate Technology	Tribology of the Head/Disk Interface: How to Push the Glide/Stiction Envelope to Zero Spacing
11/18	Yi Chiu Carnegie Mellon University	Electro-Optic Beam Deflectors for Short Wavelength Optical Heads
11/11	Hans Glatzen Hanover University Institute of Microtechnology	Microtechnology and Its Application to Magnetic Data Storage - An Overview
10/21	Kimberley Bracken Carnegie Mellon University	Channel Equalization and Detection Using FDTS/DF
10/14	Roger Wood IBM	The Magnetic Recording Channel: Challenges and Directions
09/07	(Ben) H.L. Hu IBM Almaden Research Center	Writing Performance of Narrow Gap Heads Made with Sputtered Laminated FeN Materials on 3800 Oe Coercivity Media
06/27	A. Sano Minebea Co, Ltd.	Read-Write Characteristics of SCC MIG and LAM Heads Using HiBs FeTaN Metal Films
06/27	Takashi Furuoya Minebea Co, Ltd.	Development of Side Core Composite Head Utilizing Hi-Bs Material and Thin Film Coil
06/17	Florence Ossart Carnegie Mellon University	A 3D Moving Vector Hysteresis Model
05/26	Ryuichi Katayam NEC	Compact Optical Head Module Integrated with Chip Elements for Magneto-Optical Disk and other R&D Activities on Optical Disk and Optical Heads at NEC
05/20	Alain Fargeix CENG	Overview of the Activities of LETI/MEM's Laboratory
04/22	Roger Brockenbrough Carnegie Mellon University	Data Storage System Based on Arrays of Micromechanically-Actuated Tunneling Tips
04/08	Andrew J. Gellman Carnegie Mellon University	Modern Tribology - Potential Application to HDI Problems
03/25	Benno Bernt, Lynn Tinsley Carnegie Mellon University	Intellectual Property & Technology Transfer Workshop
1993
11/19	Edgar M. Williams Read-Rite Corporation	Tripad Technology for Proximity Recording
11/19	JM. Fedeli LETI	Integrated Magnetics Components
09/16	Rajiv Ranjan KOMAG Inc.	Present Status and Challenges of Thin Film Sputtered Media for Longitudinal Recording
08/31	Jim Daughton Nonvolatile Electronics, Inc.	Magnetoresistive Random Access Memory and GMR
08/16	J. FerrŽ University of Paris-SUD	Magnetization Reversal in Ultra-Thin Ferromagnetic Films
05/03	S.S.P. Parkin IBM Research Division, Almaden Research Center	Giant Magnetoresistance and Oscillatory Indirect Exchange Coupling in Transition Metal Multilayers
04/27	Ralph Simmons Hewlett Packard, Disk Memory Division	Characterization of MR Heads for Rigid Disk Drives
04/20	David E. Laughlin Carnegie Mellon University	The Structural Effects of Underlayers and Interlayers on Magnetic Thin Films
04/19	Paulo Freitas INESC	Magnetic Ultrathin Films, Multilayers and Surfaces
04/06	R. Hasegawa Allied Signal Inc.	Magnetic Properties and Applications of Amorphous Materials
03/30	Jon Coker IBM	PRML Modeling in Hard Disk Drives
03/18	Dr. James Bain Stanford University	Structural Characterization of Pt/Co Multilayers Using X-Ray Diffraction
03/16	George Bellesis Carnegie Mellon University	Magnetostriction Measurement by Interferometry
03/02	Dr. Teck Seng Low University of Singapore	Neural Networks for the Solution of Constrained Optimization of Inverse Electromagnetic Problems
02/23	Youping Deng Carnegie Mellon University	Effects of Substrate Bias on Magnetic Thin Films
01/20	Thomas J. Beaulieu IBM ADSTAR	Selected Topics on Inductive Perpendicular Recording and Unshielded Magnetoresistive Read Heads for Tape Application
01/19	Richard Anderson Censtor Corporation	Contact Perpendicular Recording With Integrated Head/Flexure
01/19	Hidemi Yoshida Mitsubishi Kasei Corporation	MKC Research Activities on Optical Disk Media
1992
11/12	R. H. Victora Eastman Kodak Company	Predictions for Anisotropy and Other Magnetic Properties of Superlattices
11/12	T. K. Hatwar Eastman Kodak Company	Novel Direct Overwrite Schemes for Magneto-Optic Media
10/08	Steve Daigles Carnegie Mellon University	Continuous Media Disk Scheduling
09/25	John Corcoran Ampex Recording Systems Corporation	DST Mass Storage System
09/24	Bob Davidson Carnegie Mellon University	Media Design for User Density of Up to 3 Bits per Pulse Width
08/05	Yong Shen Carnegie Mellon University	Materials and Processing Aspects of CoCrTa/Cr Longitudinal Recording Media
08/03	Tomaz Jagielinski Kodak	Unshielded Magnetoresistive Heads for High Density Recording
06/08	Masato Nagasawa Mitsubishi Electric	New Control Technology for Recording Equipment
06/08	Yoshihiro Kiyose Mitsubishi Electric	90 mn Rewriteable Optical Disk Drive
05/04	Erich Valstyn Read-Rite Corporation	The Magnetic Recording Head as Channel Component
04/27	Watson Henderson Storage Technology Corporation	Disk Drive Error Budget and Manufacturability
04/06	Chris M. Horwitz University of South Wales, Kensington, Australia	Microfabrication Studies At The University Of New South Wales
01/27	Mathew P. Vea Carnegie Mellon University	Soft Error Rate Model for Predicting Off-track Performance
01/20	Jian-Gang Zhu University of Minnesota	Relationship Between Reverse DC Erase Noise and Micromagnetic Properties of Thin Film Media
1991
11/19	Dr. Roger W. Wood IBM Corporation	High Data-Rate Magnetic Recording
11/05	Bob Davidson Hewlett-Packard	Inductive Readback in Hard Disk Recording Systems
03/20	Dr. Geoff Spratt Carnegie Mellon University	Computer Simulation of Magnetization Reversal
03/13	Doug Saunders Alcoa Laboratories	Using Signal Modulation to Determine the Properties of Sputtered Thin Film Media
03/12	Ching Tsang IBM, Almaden	The Magnetoresistive Head and Its Applications in High Density Magnetic Recording
03/12	Richard C. Benson University of Rochester	The Dynamics of Slider Bearings During Contacts Between Slider and Disk
01/18	Jian-Gang Zhu University of Minnesota	Reversal Mechanisms and Domain Structures in Thin Film Recording Media
1990
12/04	Klaas B. Klaassen IBM, Almaden	Irreversible Wall Motion in Thin-Film Inductive Recording Heads
11/27	Richard M. Josephs Innovative Instrumentation Incorporation	Non-Destructive Magnetic Characterization of Thin Film Magnetic Recording Media
11/20	C. L. Bauer Carnegie Mellon University	Piezo (Magneto) Resistance in Thin Films
11/19	Joost Mortelmans IBM Corporation	Demonstration of 500 Megabits Per Square Inch with Digital Magnetic Recording
11/13	B.A. Kalinikos, V.I. Ulyanov (Lenin) Electrical Engineering Institute, Leningrad, USSR	Nonlinear Spin Waves in Thin Ferromagnetic Films
11/09	Hideto Konno NEC Corporation, Kawasaki, Japan	Integrated Ferromagnetic MR Sensors
11/06	Dr. Richard H. Dee Storage Technology Corporation	Use of MR Heads in Large Tape Subsystems
11/05	John N. Chapman The University of Glasgow, Scotland	Micromagnetic and Microstructural Studies by Transmission Electron Microscopy
10/26	Dr. Naoki Kodama Hitachi	Noise Characteristics of Barium Ferrite Particulate Rigid Disks
10/26	Dr. Kazuetsu Yosida Hitachi	NMR Study of Co-CoO Films for Perpendicular Magnetic Recording
10/16	Hans F. Hinteregger VLBI Group, NEROC Haystack Observatory (operated By MIT)	Storage Systems for Very Long Baseline Interferometry
09/18	Dr. Paul J. Sides Carnegie Mellon University	The Effect of Sputtering Parameters on the Susceptibility of Computer Hard Disks to Corrosion
09/11	Dr. Ramesh Sundaram Storage Technology Corporation	Magnetic Tape Deflections due to Point Loads
05/08	Dr. David J. Rogers Carnegie Mellon University	Investigations of the Physical and Magnetic Microstructure of CoCr Thin Film Perpendicular Magnetic Recording Media
04/23	Masaaki Futamoto Hitachi Central Research Labs, Tokyo, Japan	Growth Process, Microstructure and Magnetic Properties of Vacuum Evaporated Co-Cr Films
04/10	M. Aeschlimann National Institute of Standards and Technology	Spatial and Temporal Resolved Studies on Magneto-Optical Recording Materials
04/05	Celia E. Yeack-Scranton IBM, Almaden	Active Slider Designs for Practical Contact Recording
03/13	Ariyoshi Nakaoki SONY Corporation	The Overwritable Region of High and Low Light Intensity of Overwriting on a Magnetic Triple-Layer Disk
03/12	Fujio Tanaka KDD Meguro R&D Labs, Tokyo, Japan	Rewritable Video Disk Drive
03/08	Bharat Bhushan IBM	Microtribology Of Magnetic Storage Devices
03/06	Bucknell C. Webb IBM T. J. Watson Research Center	The Anomalous Hall Effect in Microscopic Geometries: A Supersensitive Magnetization Probe
01/30	John Snyder Carnegie Mellon University	Saturation Moment Variation and Cr Segregation in CoCr Sputtered Films
01/24	Edgar M. Williams Read-Rite Corporation	Thin Film Recording Heads: A Monte Carlo Simulation of Performance and Dependence on Film Deposition Control
1989
12/05	Dr. Kiyoshi Chiba & Mr. Toshiaki Yatabe Tokyo Research Center, Teijin Ltd.	Research Activities of Thin Films and Magneto-Optics at Teijin Research Center
12/05	Mr. Yasunobu Hashimoto Fujitsu Laboratories, Ltd.	Direct Overwriting Capability of Magneto-Optical Disk and Readout Stability of TbFeCo Magneto-Optical Disks
11/21	James E. Williams, Jr. Alcoa Technical Center	A Review of the Capabilities and Properties of Electroless Plated Thin Film Media for Rigid Memory Disks
11/14	Peter Koeppe Carnegie Mellon University	High Resolution Magneto-Optical Imaging of the High Frequency Magnetic Activity in Magnetic Recording Heads
11/07	Dr. Coda H. T. Pan Digital Equipment Corporation	Normal Mode Analysis of Flying Head Dynamics
10/31	Norman Koren Eastman Kodak Company	Signal Processing in Channels Utilizing Unshielded Magneto-Resistive (UMR) Heads
10/24	Dr. Chien-Jung (Frank) Lin IBM, Almaden	Nucleation and Growth of Domains During Thermomagnetic Recording
10/03	Dr. Daid Heim IBM, Almaden Research Center	A New, Horizontal MR Structure
09/26	Dr. Robert E. Jones, Jr. Visiting Research Scientist, IBM	High Saturation Induction Iron (Nitrogen) Films for Film Heads
09/19	Dr. Hideski Ido Tohoku University	Brief Survey of Magnetic Research on Some R-3d Compounds and MnAs_1-xSb_x Compounds
09/05	Dr. R. C. O'Handley Massachusetts Institute of Technology	Surface Magnetism Probed by Secondary Electron Spin Polarization
05/01	Dr. Bernell E. Argyle IBM, T. J. Watson Research Center	Domain Wall Imaging
04/24	Dr. Bernard E. Cooper West Virginia University	Materials For Giant Magneto-Optic Effects
04/17	Prof. Daniel Stancil Carnegie Mellon University	Integrated Magneto-Optical Devices
03/27	Takeshi Nakao Hitachi Central Research Laboratory	High Speed Overwriting Characteristics Of Magneto-Optical Disc By Magnetic Field Modulation Recording
03/20	Prof. Zoltan Cendes Carnegie Mellon University	The Finite Element Revolution In Electrical Engineering Design
03/13	Dr. Luc Berger Carnegie Mellon University	Interaction Of Domain Walls And Bloch Lines With Electric Currents In Magnetic Thin Films
02/27	Dr. H.S. Gill Hewlett-Packard Labs	Magnetic Recording Heads For Rigid Disk Drives
02/20	Prof. J. O. Artman Carnegie Mellon University	The Coupling Of Dissimilar Conducting Ferromagnetic Films Through An Intervening Non-Magnetic Conductor
02/13	William Cain Carnegie Mellon University	An Overview Of Exchange Biased Thin Films For Use In MR Heads
1988
11/15	Prof. Vijayakumar Bhagavatula Carnegie Mellon University	Noise Models For Magnetic Recording

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Seminar tapes from 1988–2003