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Rapid centering small lenses using an Axicon grating and the PSM

A combination of the Auto Gain function of the Point Source Microscope (PSM) and the use of an Axicon grating make centering of severely misaligned lenses easy.

The lenses in the cell are misaligned far enough that light in the center of the aperture barely makes it through the lens.

The PSM video screen displays a partial set of rings produced by a combination of the PSM and Axicon grating. The orientation and curvature of the rings indicates how the lens cell must move to center it with respect to the Axicon grating axis. Note that the PSM objective focus is at an arbitrary height about the lenses, not at a back focus, or center of curvature of one of the lens elements

The first video picture (left) shows the partial ring pattern with the lens misaligned as in the picture above. As the lens is moved by the screws it is clear the centering gets better (middle). The next picture (right) shows the center of the Axicon grating pattern now in the field of view of the video screen. The magenta crosshair is barely visible in the center of all three pictures and is the reference for centering.

The bright spot in the center of the Axicon grating pattern is much more intense than any of the rings. This intensity forces the Auto Gain function to reduce the gain and shutter exposure time so there are no saturated pixels in the display so the final centered pattern looks like the picture on the left side above where only the center spot and first few rings are visible centered on the crosshair. The picture on the right is a blow up of the one on the left to make the crosshair and scale bar easier to see.

The full screen shot shows that the central spot is centered to less than 1 μm. Also, the Auto Gain was turned off so that more detail in the rings is visible.

The centering was accomplished as fast as the adjustment screws could be turned. This contrasts with the conventional situation where the centering objective must first adjusted to focus at a back focus or center of curvature so there is sufficient focused intensity to view on the video screen. Then the lens cell is moved around to find the focused spot that is lying outside the field of view of the microscope. This is often the most difficult part of the alignment, finding the focused spot when there is no signal on the detector until you are within the field of view of the objective, typically within 0.5 mm when using a 10x objective.

With the Axicon grating the alignment is much faster than conventional methods and less tedious because there is a useful centering indicator even though the lens system is vastly decentered. The lack of tedium makes the work of centering pleasurable rather than a chore.

About the Author

Robert Parks

Robert Parks

Mr. Parks received a BA and MA in physics from Ohio Wesleyan University and Williams College, respectively. His career started at Eastman Kodak Company as an optical engineer and then went on to Itek Corp. as an optical test engineer.

He learned about optical fabrication during a 4 year stay at Frank Cooke, Inc. This experience led to a position as manager of the optics shop at the College of Optical Sciences at the Univ. of Arizona and where he worked for 12 years and had a title of Assistant Research Professor. During that time he had the opportunity to write about the projects in the shop and the optical fabrication and testing techniques used there including papers about absolute testing and the installation and used of a 5 m swing precision optical generator.

Mr. Parks left the University in 1989 to start a consulting business specializing in optical fabrication and testing. Among the consulting projects was one working for the Allen Board of Investigation for the Hubble Telescope where he stayed in residence at HDOS for the duration of the investigation. In 1992 he formed Optical Perspectives Group, LLC as a partnership with Bill Kuhn, then a PhD student at Optical Sciences.

The consulting and experience with Optical Perspectives provided many more opportunities to publish work on optical test methods and applications. While still at Optical Sciences, Mr. Parks became involved in standards work and for twenty years was one of the US representatives to the ISO Technical Committee 172 on Optics and Optical Instruments. For two years he was the Chairman of the ISO Subcommittee 1 for Fundamental Optical standards. Recently Mr. Parks temporarily rejoined Optical Sciences part time helping support optical fabrication projects and teaching as part of the Opto-Mechanics program.

Bob is a member of the Optical Society of America, a Fellow and past Board member of SPIE and a member and past President of the American Society for Precision Engineering. He is author or co-author of well over 100 papers and articles about optical fabrication and testing, and co-inventor on 6 US patents. He remains active in development of new methods of optical testing and alignment.

Case Studies & Testimonials

  • "You are always responsive and give us lots of useful information!!"

    Dr. Shaojie Chen
    Dunlap Institute for Astronomy and Astrophysics
    University of Toronto

     

  • "As always we are very much loving the instrument, I personally love the camera upgrade from what I'm used to!"

    Weslin Pullen
    Hart Scientific Consulting International, LLC
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  • The PSM is an ideal tool for finding the center of curvature of a ball or the axis of a cylinder. The question is for how small a ball or cylinder can the PSM do this?

    The smallest article that was readily available was a piece of monofilament 8 pound test fishing line that was 290 μm in diameter. There was no problem finding the axis of the fishline, and separating the Cat’s eye reflection from the surface from the confocal reflection of the axis. The experiment was done with a 5x objective, and the result would have been even more definitive using a 10x objective.

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