San Jose, California
United States
52
2026-06-18
The entities that hold a legal rights for patent applications filed by inventor ASIF BASHIR Muhammad:
Muhammad ASIF BASHIR from San Jose, US has applied for patents for these inventions. The list has both pending applications and granted patents:
RESISTOR NETWORK FOR DELIVERING CURRENT AND A MAIN POLE COIL AND AN ASSISTIVE WRITE ELEMENT IN A MAGNETIC RECORDING DEVICE
#2 | 2025-12-18Resistor Network for Delivering Current and a Main Pole Coil and an Assistive Write Element in a Magnetic Recording Device
#3 | 2025-10-16Spin Wave Assisted MAMR Recording Head
#4 | 2025-10-09Magnetic Recording Head with A Cross-Track Current Flow In A Low Resistance Path
#5 | 2025-08-28Magnetic Recording Head With Assisting Electric Current In Trailing Shield
#6 | 2025-05-22Magnetic Recording Head with A Cross-Track Current Flow In A Low Resistance Path
#7 | 2025-04-24Dynamic DC Field Compensator for MAMR Recording Head
#8 | 2025-03-13Dual FGL and Dual SPL Spintronic Device To Reduce Perpendicular Field At Writing Location
#9 | 2025-03-13Spintronic Device Comprising Dual FGL and Dual SPL To Reduce Perpendicular Field At Writing Location
#10 | 2024-11-14Current distal to media facing surface
#11 | 2024-10-24MAGNETIC RECORDING HEAD WITH CURRENT PATH BETWEEN TRAILING SHIELD AND LEADING SHIELD FOR IMPROVED RESISTANCE
#12 | 2024-09-26Dynamic DC field compensator for MAMR recording head
#13 | 2024-09-17Recording head with a multilayer spin torque element having positive and negative beta materials
#14 | 2024-07-11Method to Enhance Spin Torque Layer Performance in a Spintronic Device
#15 | 2024-05-02Magnetic recording head with assisting electric current in trailing shield
#16 | 2024-05-02Spintronic device comprising dual FGL and dual SPL to reduce perpendicular field at writing location
#17 | 2024-05-02Dual FGL and dual SPL spintronic device to reduce perpendicular field at writing location
#18 | 2024-05-02Magnetic recording heads having one or more dusting layers for magnetic recording devices
#19 | 2024-04-25Method to enhance spin torque layer performance in a spintronic device
#20 | 2024-04-04Magnetic recording devices having external alternating current sources
#21 | 2024-02-13Magnetic recording head with assisting electric current in trailing shield
#22 | 2024-02-06Magnetic recording head having leads over the trailing shield for assisting electric currents
#23 | 2024-01-23Cross track current design for energy assisted magnetic recording
#24 | 2024-01-09Magnetic recording devices having external alternating current sources
#25 | 2023-12-26Current assisted HAMR magnetic writer
#26 | 2023-08-03Heat-assisted magnetic recording (HAMR) head with main pole having recess for plasmonic material
#27 | 2023-03-07Three terminal magnetic recording head
#28 | 2023-01-17Write heads having conducting side gap for directing current
#29 | 2022-12-20Heat-assisted magnetic recording (HAMR) head with main pole having recess for plasmonic material
#30 | 2022-12-15MAMR recording head with SAF trailing shield notch and/or bump
#31 | 2022-11-22Magnetic recording devices having cross-track current flow to facilitate downtrack magnetic field enhancements
#32 | 2022-11-10Heat-assisted magnetic recording (HAMR) head with tapered main pole and heat sink material adjacent the pole
#33 | 2022-11-10MAMR stack shape optimization for magnetic recording
#34 | 2022-10-04Heat-assisted magnetic recording (HAMR) head with tapered main pole and heat sink material adjacent the pole
#35 | 2021-03-18MAMR stack shape optimization for magnetic recording
#36 | 2021-01-28HEAT-ASSISTED MAGNETIC RECORDING (HAMR) HEAD WITH TAPERED MAIN POLE AND HEAT SINK MATERIAL ADJACENT THE POLE
#37 | 2021-01-12MAMR recording head with high damping trailing shield seed layer
#38 | 2020-12-24Current-assisted magnetic recording write head with wide conductive element in the write gap
#39 | 2020-12-03Write heads configured to redirect current
#40 | 2020-11-26Reversed mode spin torque oscillator with shaped field generation layer
#41 | 2020-11-17MAMR recording head with high damping trailing shield seed layer
#42 | 2020-11-17Current-assisted magnetic recording write head with wide conductive element in the write gap
#43 | 2020-10-15Spin torque layer in side gap for improved field and cross track field gradient
#44 | 2020-09-17Magnetic write head with dual return pole and tapered main pole
#45 | 2020-09-15Write heads configured to redirect current
#46 | 2020-09-01Reversed mode spin torque oscillator with shaped field generation layer
#47 | 2020-07-16Microwave-assisted magnetic recording (MAMR) write head with compensation for DC shunting field
#48 | 2020-04-16Magnetic write head with dual return pole
#49 | 2019-11-05Magnetic write head with a tapered return pole
#50 | 2019-10-17MAMR stack shape optimization for magnetic recording
#51 | 2019-08-08Microwave-assisted magnetic recording (MAMR) write head with compensation for DC shunting field
#52 | 2019-08-08Spin torque layer in side gap for improved field and cross track field gradient
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