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Search Publications by: Jun-Feng Song (Fed)

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Displaying 226 - 250 of 292

Experimental Test of Blind Tip Reconstruction for Scanning Probe Microscopy

January 1, 2000
Author(s)
Samuel Dongmo, John S. Villarrubia, Samuel N. Jones, Thomas B. Renegar, Michael T. Postek, Jun-Feng Song
Determination of the tip geometry is a prerequisite to converting the scanning probe microscope (SPM) from a simple imaging instrument to a tool that can perform width measurements accurately. Recently we developed blind reconstruction, a method to

NIST Random Profile Roughness Specimens and Standard Bullets

January 1, 2000
Author(s)
Jun-Feng Song, Theodore V. Vorburger, Robert A. Clary, Michael L. McGlauflin, Eric P. Whitenton, Christopher J. Evans
Based on the numerical controlled (NC) diamond turning process used previously for manufacturing random profile roughness specimens, two prototype standard bullets were developed at the National Institute of Standards and Technology (NIST). These standard

NIST Random Profile Roughness Specimens and Standard Bullets

January 1, 2000
Author(s)
Jun-Feng Song, Theodore V. Vorburger, Christopher J. Evans, Michael L. McGlauflin, Eric P. Whitenton, Robert A. Clary
Based on the numerical controlled (NC) diamond turning process used previously for manufacturing random profile roughness specimens, two prototype standard bullets were developed at the National Institute of Standards and Technology (NIST). These standard

Rockwell Hardness - A Method-Dependent Standard Reference Material

July 1, 1999
Author(s)
Samuel R. Low III, R J. Gettings, Walter S. Liggett Jr, Jun-Feng Song
Rockwell hardness is not a fundamental physical property of a material. It is a method-dependent measurement of the deformation of the material to an applied force. There are no alternative measurement systems to directly or independently measure Rockwell

Rockwell Hardness - A Method-Dependent Standards Reference Material

July 1, 1999
Author(s)
Samuel Low, R Gettings, Walter S. Liggett Jr, Jun-Feng Song
Rockwell hardness is a method-dependent measurement of the deformation of a material in response to an applied force. It is not a fundamental physical property of a material. There are no alternative measurement systems to directly or independently measure

Assessment Error Sources in Rockwell Hardness Measurements

June 1, 1999
Author(s)
Walter S. Liggett Jr, Samuel Low, David J. Pitchure, Jun-Feng Song
In the use of hardness test blocks, the uncertainty due to block non-uniformity can be reduced if one is willing to make measurements at specified locations on the blocks. Statistical methods for achieving this reduction are explained in this paper. The

Measurement Traceability to NIST Standard Rockwell Diamond Indenters

June 1, 1999
Author(s)
Jun-Feng Song
A metrology-based Rockwell hardness scale is established by a standard machine and a standard diamond indenter. Both must be established through force and dimensional metrology with acceptably small measurement uncertainties. In 1994, NIST developed a

High Accuracy High Speed Gaussian Filter in Surface Metrology

May 31, 1999
Author(s)
Y B. Yuan, Jun-Feng Song, Theodore V. Vorburger
Both (1+x^2)^(-n) and (sin x/x)^n functions are very close to the Gaussian distribution for large value of n. Based on these functions, two new algorithms are developed for designing high accuracy and high speed recursive type Gaussian digital filters. The

NIST Microform Calibration - How Does It Benefit U.S. Industry?

October 1, 1998
Author(s)
Jun-Feng Song, Theodore V. Vorburger
In microform metrology, complex 3-D surface features in the micrometer range must be quantified for their space and size including dimensions, curves, angles, profile deviations, and alignment errors, as well as surface roughness with measurement

NIST Virtual/Physical Random Profile Roughness Calibration Standards

October 1, 1998
Author(s)
Jun-Feng Song, Christopher J. Evans, Michael L. McGlauflin, Eric P. Whitenton, Theodore V. Vorburger, Y B. Yuan
The NIST (National Institute of Standards and Technology) virtual/physical surface roughness calibration standard consists of physical specimens whose surfaces are manufactured by a numerically controlled diamond-turning process using digitized profiles

Tip Characterization for Scanned Probe Microscope Width Metrology

March 1, 1998
Author(s)
Samuel Dongmo, John S. Villarrubia, Samuel N. Jones, Thomas B. Renegar, Michael T. Postek, Jun-Feng Song
Determination of the tip shape is an important prerequisite for converting the various scanning probe microscopies form imaging tools into dimensional metrology tools with sufficient accuracy to meet the critical dimension measurement requirements of the

Advances in NIST Standard Rockwell Diamond Indenters

January 1, 1998
Author(s)
Jun-Feng Song, Samuel R. Low III, David J. Pitchure, Theodore V. Vorburger
Recent developments in standard hardness machines and microform calibration techniques have made it possible to establish a worldwide unified Rockwell hardness scale with metrological traceability. This includes the establishments of the reference