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Search Publications by: Jack A. Stone Jr. (Assoc)

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Displaying 26 - 50 of 64

Advice from the CCL on the use of unstabilized lasers as standards of wavelength: the helium-neon laser at 633 nm

January 1, 2009
Author(s)
Jack A. Stone Jr., Jennifer Decker, Patrick Gill, Andrew Lewis, Patrick Juncar, Daniele Rovera, Miguel Villiseid
The Consultative Committee for Length has recommended that red (633 nm) unstabilized Helium-Neon lasers, operating on the 3s2¿_2p4 transition, should be included in the list of standard frequencies for realization of the meter. This article discusses

Using uncalibrated lasers as wavelength standards

October 1, 2008
Author(s)
Jack A. Stone Jr.
The fundamental atomic physics of a gas laser transition is such that the transition frequency, or equivalently, the vacuum wavelength of the laser, cannot vary from its central value by more than a few parts in 106. The uncertainty of the gas laser

Calibrating Laser Vacuum Wavelength With a GPS-Based Optical Frequency Comb

May 15, 2007
Author(s)
Jack A. Stone Jr., Liang Lu, Patrick F. Egan
The Global Positioning System (GPS) can deliver an exceptionally accurate frequency standard to any point in the world. When we use the GPS signal to control an optical frequency comb, the comb+GPS system provides laser light with well-known frequencies

Roundness Measurements Using the NIST Fiber Probe

January 1, 2007
Author(s)
Balasubramanian Muralikrishnan, Jack A. Stone Jr., John R. Stoup
We have described a fiber probe for dimensional measurement of micro-holes in the 2004 and 2006 ASPE annual meetings. In this abstract, we describe the adaptation of this probe for measuring roundness of tiny holes and knife edge apertures. In its current

Enhanced Capabilities of the NIST Fiber Probe for Microfeature Metrology

January 1, 2006
Author(s)
Bala Muralikrishnan, Jack A. Stone Jr., John R. Stoup
We have previously reported work in the area of fiber probe development at NIST for micro feature measurement. This probe, which we refer to as the Fiber Deflection Probe, functions by optically imaging the stem from two orthogonal directions a few

Fiber Deflection Probe for Small Hole Metrology

January 1, 2006
Author(s)
Balasubramanian Muralikrishnan, Jack A. Stone Jr., John R. Stoup
This paper presents the development of a new probing method for Coordinate Measuring Machines (CMM) to inspect diameter and form of small holes. The technique, referred to as fiber deflection probing, can be used for holes of approximately 100 mm nominal

Fiber Deflection Probe Uncertainty Analysis for Micro Holes

January 1, 2006
Author(s)
Bala Muralikrishnan, Jack A. Stone Jr., John R. Stoup
We have recently reported on a new probe, the Fiber Deflection Probe (FDP), for diameter and form measurement of large aspect ratio micro-holes (100 um nominal diameter, 5 mm deep). In this paper, we briefly review the measurement principle of the FDP

A Fiber Probe for CMM Measurements of Small Features

August 1, 2005
Author(s)
Jack A. Stone Jr., Balasubramanian Muralikrishnan, John R. Stoup
We report on performance of a new form of fiber probe, which can be used in conjunction with a coordinate measuring machine (CMM) for microfeature measurement. The probe stylus is a glass fiber with a small ball (?75 ?m diameter) glued to the end. When the

Measuring Internal Geometry of Fiber Ferrules

May 1, 2005
Author(s)
Balasubramanian Muralikrishnan, Jack A. Stone Jr., John R. Stoup
The focus of this paper is on the metrology of microstructures. Traditional Coordinate Measuring Machines (CMM) are limited to measuring holes of 300 m diameter. Smaller features and holes require thinner styli & novel probing technologies that can

Micro-Feature Metrology

May 1, 2005
Author(s)
Bala Muralikrishnan, Jack A. Stone Jr., John R. Stoup
This presentation focuses on three aspects of micro-feature metrology novel applications that drive research and commercialization, capabilities and limitations of existing sensors and techniques, and finally a summary of recent research including ongoing

Refractometry Using a Helium Standard

April 1, 2005
Author(s)
Jack A. Stone Jr., Alois Stejskal
The refractive index of helium at atmospheric pressure can be calculated from first principles with a very low uncertainty, on the order of 10^-10. Furthermore, the low refractive index of helium puts minimal demands on the pressure and temperature

Refractometry Using a Helium Standard

July 1, 2004
Author(s)
Jack A. Stone Jr., Alois Stejskal
The refractive index of helium at atmospheric pressure can be calculated from first principles with a very low uncertainty, on the order of 10^-10. Furthermore, the low refractive index of helium puts minimal demands on the pressure and temperature

Performance Analysis of Next-Generation LADAR for Manufacturing, Construction, and Mobility

May 6, 2004
Author(s)
William C. Stone, Maris Juberts, Nicholas Dagalakis, Jack A. Stone Jr., Jason J. Gorman
The NIST Construction Metrology and Automation Group (CMAG), in cooperation with the NIST Intelligent Systems Division (ISD), is developing performance metrics and researching issues related to the design and development of a Next-Generation LADAR (laser

Uncertainties in Small-Angle Measurement Systems Used to Calibrate Angle Artifacts

May 1, 2004
Author(s)
Jack A. Stone Jr., M Amer, Bryon S. Faust, Jay H. Zimmerman
We have studied a number of effects that can give rise to errors in small-angle measurement systems when they are used to calibrate artifacts such as optical polygons. Of these sources of uncertainty, the most difficult to quantify are errors associated

Angle Metrology Using AAMACS and Two Small-Angle Measurement Systems

November 28, 2003
Author(s)
Jack A. Stone Jr., M Amer, Bryon S. Faust, Jay H. Zimmerman
The highest accuracy method for angle measurement employed at NIST(National Institute of Standards and Technology) makes use of an automated stack of three indexing tables-- our Advanced Automated Master Angle Calibration System (AAMACS)-- in conjunction

Wavelength-Tracking Capabilities of a Fabry-Perot Cavity

November 20, 2003
Author(s)
Jack A. Stone Jr., Alois Stejskal
We have characterized the accuracy of atmospheric wavelength tracking based on a laser servolocked to a simple Fabry-Peron cavity. The motivations are (1) to explore a method for air refractive index measurement and (2) to determine the stability and

The Advanced Angle Metrology System at NIST

November 1, 2003
Author(s)
Jack A. Stone Jr.
At the National Institute of Standards and Technology, our best capability for angle measurement is our Advanced Automated Master Angle Calibration System (AAMACS). This instrument is based on a triple-stack of indexing tables, used in conjunction with

Index of Refraction of Air

February 16, 2001
Author(s)
Jack A. Stone Jr., Jay H. Zimmerman
These Web pages are intended primarily as a computational tool that can be used to calculate the refractive index of air for a given wavelength of light and given atmospheric conditions (air temperature, pressure, and humidity). The calculations are

Real-Time Displacement Measurements With a Fabry-Perot Cavity and a Diode Laser

January 1, 2000
Author(s)
Lowell P. Howard, Jack A. Stone Jr.
We present the basic operating principles of a traceable measurement system for use with scanned probe microscopes and nanometer-resolution displacement sensors. Our method is based upon a tunable external-cavity diode laser system which is Pound-Drever