Application Of The Phase Shifting Diffraction Interferometer For Measuring Convex Mirrors And Negative Lenses

Sommargren, Gary E; Campbell, Eugene W

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Title: Application Of The Phase Shifting Diffraction Interferometer For Measuring Convex Mirrors And Negative Lenses

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Abstract

To measure a convex mirror, a reference beam and a measurement beam are both provided through a single optical fiber. A positive auxiliary lens is placed in the system to give a converging wavefront onto the convex mirror under test. A measurement is taken that includes the aberrations of the convex mirror as well as the errors due to two transmissions through the positive auxiliary lens. A second measurement provides the information to eliminate this error. A negative lens can also be measured in a similar way. Again, there are two measurement set-ups. A reference beam is provided from a first optical fiber and a measurement beam is provided from a second optical fiber. A positive auxiliary lens is placed in the system to provide a converging wavefront from the reference beam onto the negative lens under test. The measurement beam is combined with the reference wavefront and is analyzed by standard methods. This measurement includes the aberrations of the negative lens, as well as the errors due to a single transmission through the positive auxiliary lens. A second measurement provides the information to eliminate this error.

Inventors:

Sommargren, Gary E ^[1]; Campbell, Eugene W ^[2]

Santa Cruz, CA
Livermore, CA

Issue Date:: Tue Jun 21 00:00:00 EDT 2005

Research Org.:: Lawrence Livermore National Laboratory (LLNL), Livermore, CA (United States)

OSTI Identifier:: 880335

Patent Number(s):: 6909510

Application Number:: 10/764042

Assignee:: The Regents of the University of California (Oakland, CA)

Patent Classifications (CPCs):: G - PHYSICS G01 - MEASURING G01B - MEASURING LENGTH, THICKNESS OR SIMILAR LINEAR DIMENSIONS

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G - PHYSICS G01 - MEASURING G01B - MEASURING LENGTH, THICKNESS OR SIMILAR LINEAR DIMENSIONS
G01B11/2441 - {using interferometry}
G01B2290/70 - Using polarization in the interferometer
G01B9/02024 - {Measuring in transmission, i.e. light traverses the object}
G01B9/02039 - {by matching the wavefront with a particular object surface shape}
G01B9/0209 - {Non-tomographic low coherence interferometers, e.g. low coherence interferometry, scanning white light interferometry, optical frequency domain interferometry or reflectometry}

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DOE Contract Number:: W-7405-ENG-48

Resource Type:: Patent

Country of Publication:: United States

Language:: English

Citation Formats


                    Sommargren, Gary E, and Campbell, Eugene W. Application Of The Phase Shifting Diffraction Interferometer For Measuring Convex Mirrors And Negative Lenses.  United States: N. p., 2005. 
        Web.

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                    Sommargren, Gary E, & Campbell, Eugene W. Application Of The Phase Shifting Diffraction Interferometer For Measuring Convex Mirrors And Negative Lenses.  United States.

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                    Sommargren, Gary E, and Campbell, Eugene W. Tue .  
        "Application Of The Phase Shifting Diffraction Interferometer For Measuring Convex Mirrors And Negative Lenses".  United States.  https://www.osti.gov/servlets/purl/880335.

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@article{osti_880335,

  title        = {Application Of The Phase Shifting Diffraction Interferometer For Measuring Convex Mirrors And Negative Lenses},

  author       = {Sommargren, Gary E and Campbell, Eugene W},

  abstractNote = {To measure a convex mirror, a reference beam and a measurement beam are both provided through a single optical fiber. A positive auxiliary lens is placed in the system to give a converging wavefront onto the convex mirror under test. A measurement is taken that includes the aberrations of the convex mirror as well as the errors due to two transmissions through the positive auxiliary lens. A second measurement provides the information to eliminate this error. A negative lens can also be measured in a similar way. Again, there are two measurement set-ups. A reference beam is provided from a first optical fiber and a measurement beam is provided from a second optical fiber. A positive auxiliary lens is placed in the system to provide a converging wavefront from the reference beam onto the negative lens under test. The measurement beam is combined with the reference wavefront and is analyzed by standard methods. This measurement includes the aberrations of the negative lens, as well as the errors due to a single transmission through the positive auxiliary lens. A second measurement provides the information to eliminate this error.},

  doi          = {},

  journal      = {},
number       = ,

  volume       = ,

  place        = {United States},

  year         = {Tue Jun 21 00:00:00 EDT 2005},

  month        = {Tue Jun 21 00:00:00 EDT 2005}

}

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