Inventor
FULLERTON ERIC EDWARD
US37 patents
⚠️ This page may combine multiple inventors who share the name “FULLERTON ERIC EDWARD”. Patents are grouped by organization below to help distinguish them — per-person disambiguation is on the roadmap.
HITACHI GLOBAL STORAGE TECH
25 patentsUS7372116B2May 13, 2008
Heat assisted switching in an MRAM cell utilizing the antiferromagnetic to ferromagnetic transition in FeRh
HITACHI GLOBAL STORAGE TECH59 citations98
US7081309B2Jul 25, 2006
Magnetic recording disk with antiferromagnetically-coupled magnetic layer having multiple ferromagnetically-coupled lower layers
HITACHI GLOBAL STORAGE TECH20 citations92
US6893741B2May 17, 2005
Magnetic device with improved antiferromagnetically coupling film
HITACHI GLOBAL STORAGE TECH31 citations92
US6773834B2Aug 10, 2004
Laminated magnetic recording media with antiferromagnetically coupled layer as one of the individual magnetic layers in the laminate
HITACHI GLOBAL STORAGE TECH29 citations92
US7425377B2Sep 16, 2008
Incoherently-reversing magnetic laminate with exchange coupled ferromagnetic layers
HITACHI GLOBAL STORAGE TECH21 citations91
US6836392B2Dec 28, 2004
Stability-enhancing underlayer for exchange-coupled magnetic structures, magnetoresistive sensors, and magnetic disk drive systems
HITACHI GLOBAL STORAGE TECH24 citations91
US6723450B2Apr 20, 2004
Magnetic recording medium with antiparallel coupled ferromagnetic films as the recording layer
HITACHI GLOBAL STORAGE TECH34 citations91
US7732071B2Jun 8, 2010
Perpendicular magnetic recording system with patterned medium and manufacturing process for the medium
HITACHI GLOBAL STORAGE TECH8 citations84
US7672090B2Mar 2, 2010
Magnetic read sensor employing oblique etched underlayers for inducing uniaxial magnetic anisotropy in a hard magnetic pinning layer
HITACHI GLOBAL STORAGE TECH8 citations84
US7460343B2Dec 2, 2008
Magnetic read sensor employing oblique etched underlayers for inducing uniaxial magnetic anisotropy in a hard magnetic in-stack bias layer
HITACHI GLOBAL STORAGE TECH12 citations84
US7363699B2Apr 29, 2008
Method for manufacturing a magnetic read sensor employing oblique etched underlayers for inducing uniaxial magnetic anisotropy in hard magnetic bias layers
HITACHI GLOBAL STORAGE TECH14 citations84
US7687157B2Mar 30, 2010
Perpendicular recording media having an exchange-spring structure
HITACHI GLOBAL STORAGE TECH10 citations83
US7457085B2Nov 25, 2008
Magnetic read sensor employing oblique etched underlayers for inducing uniaxial magnetic anisotropy in hard magnetic bias layers
HITACHI GLOBAL STORAGE TECH7 citations74
US7360299B2Apr 22, 2008
Method for manufacturing a magnetic read sensor employing oblique etched underlayers for inducing uniaxial magnetic anisotropy in a hard magnetic in-stack bias layer
HITACHI GLOBAL STORAGE TECH8 citations74
US7360300B2Apr 22, 2008
Method for manufacturing a magnetic read sensor employing oblique etched underlayers for inducing uniaxial magnetic anisotropy in a hard magnetic pinning layer
HITACHI GLOBAL STORAGE TECH8 citations74
US7116532B2Oct 3, 2006
Stability-enhancing underlayer for exchange-coupled magnetic structures, magnetoresistive sensors, and magnetic disk drive systems
HITACHI GLOBAL STORAGE TECH7 citations72
US7382590B2Jun 3, 2008
MR sensor and thin film media having alloyed Ru antiparallel spacer layer for enhanced antiparallel exchange coupling
HITACHI GLOBAL STORAGE TECH3 citations63
US6594100B2Jul 15, 2003
Method for recording magnetic transitions on recording layer having antiferromagnetically coupled ferromagnetic films
HITACHI GLOBAL STORAGE TECH3 citations63
US7125616B2Oct 24, 2006
Magnetic recording disk with antiferromagnetically-coupled magnetic layer having multiple lower layers
HITACHI GLOBAL STORAGE TECH5 citations62
US7556870B2Jul 7, 2009
Antiferromagnetically coupled media for magnetic recording with weak coupling layer
HITACHI GLOBAL STORAGE TECH6 citations61
US7529065B2May 5, 2009
Laminated magnetic thin films with weak antiferromagnetic coupling for perpendicular magnetic recording
HITACHI GLOBAL STORAGE TECH2 citations61
US7479332B2Jan 20, 2009
Method and apparatus for improving signal-to-noise ratio in longitudinal recording media
HITACHI GLOBAL STORAGE TECH4 citations61
US6992866B2Jan 31, 2006
Exchange-coupled magnetoresistive sensor with a coercive ferrite layer and an oxide underlayer having a spinal lattice structure
HITACHI GLOBAL STORAGE TECH3 citations61
USRE40726EJun 9, 2009
Patterned magnetic recording media with discrete magnetic regions separated by regions of antiferromagnetically coupled films
HITACHI GLOBAL STORAGE TECH0 citations52
US6835476B2Dec 28, 2004
Antiferromagnetically coupled magnetic recording media with CoCrFe alloy first ferromagnetic film
HITACHI GLOBAL STORAGE TECH1 citations50
IBM
9 patentsUS6280813B1Aug 28, 2001
Magnetic recording media with antiferromagnetically coupled ferromagnetic films as the recording layer
IBM182 citations99
US6391430B1May 21, 2002
Patterned magnetic recording media with discrete magnetic regions separated by regions of antiferromagnetically coupled films
IBM91 citations98
US6650513B2Nov 18, 2003
Magnetic devices with a ferromagnetic layer having perpendicular magnetic anisotropy and an antiferromagnetic layer for perpendicularly exchange biasing the ferromagnetic layer
IBM72 citations96
US6383597B1May 7, 2002
Magnetic recording media with magnetic bit regions patterned by ion irradiation
IBM66 citations96
US6537684B1Mar 25, 2003
Antiferromagnetically coupled magnetic recording media with boron-free first ferromagnetic film as nucleation layer
IBM42 citations92
US6440589B1Aug 27, 2002
Magnetic media with ferromagnetic overlay materials for improved thermal stability
IBM41 citations92
US6383598B1May 7, 2002
Patterned magnetic recording media with regions rendered nonmagnetic by ion irradiation
IBM39 citations92
US6383668B1May 7, 2002
Magnetic recording media with antiferromagnetically coupled host layer for the magnetic recording layer
IBM47 citations92
US6372330B1Apr 16, 2002
Laminated magnetic recording media with antiferromagnetically coupled layers as the individual magnetic layers in the laminate
IBM44 citations92