Robert N. Payne

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World Tribology Congress III, Volume 1 | 2005

MENISCUS ADHESION AT ULTRA-LOW FLYING SLIDER-DISK INTERFACES

C. Mathew Mate; Robert N. Payne; Peter Michael Baumgart; Kathy Kuboi

As head-disk spacings in disk drives approach a few nanometers, adhesive forces between the slider and disk can drastically alter the slider flying dynamics. At these small separations, it is still unclear, however, what type of adhesive force dominates. Most previous studies have concentrated on van der Waals and electrostatic attractive forces [1], which are readily incorporated into air bearing simulations. In this talk, we provide experimental evidence that the dominant adhesive force originates from menisci forming around the low flying portions of the slider air-bearing-surface as the spacing transitions from near-contact to contact.Copyright

Archive | 2004

Disk drive slider design for thermal fly-height control and burnishing-on-demand

Robert N. Payne; Barry Cushing Stipe

Archive | 2006

Air bearing with both low altitude and speed sensitivities

Sanford A. Bolasna; Lee K. Dorius; Weidong Huang; Robert N. Payne

Archive | 2004

Disk drive with negative-pitch slider having protrusion pad contacting the disk when the disk is rotating at operating speed

Charles Mathew Mate; Robert N. Payne

Archive | 2006

Proximity recording slider with high air bearing damping in and out of contact

Bernhard E. Knigge; Robert N. Payne; Oscar J. Ruiz

Archive | 2005

Apparatus for measurement of friction force at the interface of a slider and rotating disk

Charles Mathew Mate; Robert N. Payne

Archive | 2003

Disk drive head with radially spaced read and write elements on respective protrusion pads

Peter Michael Baumgart; Bernhard E. Knigge; Robert N. Payne; Gurinder Pal Singh

Archive | 2003

Air-bearing sliders having leading read/write head and flying with negative pitch

Robert N. Payne; Francis Chee-Shuen Lee

Archive | 2008

COMPLIANT AIR BEARING SLIDER

Zvonimir Z. Bandic; Jia-Yang Juang; Bernhard E. Knigge; Robert N. Payne

Archive | 2004

System, method, and apparatus for burnishing small asperities and cleaning loose particles from magnetic recording media

Parul Agrawal; Hang Fai Ngo; Charles Lee; Li-chung Lee; Ullal Vasant Nayak; Stephen Olson; Robert N. Payne; Christopher Ramm

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Bernhard E. Knigge

Western Digital

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Barry Cushing Stipe

Western Digital

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Jia-Yang Juang

National Taiwan University

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HGST

Archive Network Publication Hotspot Collaboration

Network

Latest external collaboration on country level. Dive into details by clicking on the dots.

Hotspot

Dive into the research topics where Robert N. Payne is active.

Publication

Featured researches published by Robert N. Payne.

MENISCUS ADHESION AT ULTRA-LOW FLYING SLIDER-DISK INTERFACES

Disk drive slider design for thermal fly-height control and burnishing-on-demand

Air bearing with both low altitude and speed sensitivities

Disk drive with negative-pitch slider having protrusion pad contacting the disk when the disk is rotating at operating speed

Proximity recording slider with high air bearing damping in and out of contact

Apparatus for measurement of friction force at the interface of a slider and rotating disk

Disk drive head with radially spaced read and write elements on respective protrusion pads

Air-bearing sliders having leading read/write head and flying with negative pitch

COMPLIANT AIR BEARING SLIDER

System, method, and apparatus for burnishing small asperities and cleaning loose particles from magnetic recording media

Collaboration

Dive into the Robert N. Payne's collaboration.