Quantitative 3D phase metrology

Holographic photopolymers allow us to record complex 3D refractive index structures with scale down to ~100 nm in volumes as large as cubic cm. 听Modelling and device optimizatoin requires us to precisely and accurately measure these 3D index structures which is generally not possible with off-the-shelf instrumentation. 听We have thus developed a number of different custom microscopic and tomographic measurement systems specifically for quantifying properties at the micron scale within much larger 3D volumes. 听By combinging these refractive index measurents with precise models of how local concentrations create that index, these instruments serve to quantify the composition of the sample, often at spatial and temporal scales unavailable by (e.g.) infrared spectroscopy.

The team

  • David Glugla
  • Martha Bodine
  • Eric Moore
  • Amy Sullivan
  • Mark Ayres

Learn more

  • D. J. Glugla, M. B. Chosy, M. D. Alim, A. C. Sullivan, R. R. McLeod, 鈥,鈥澨齇ptics Express 26, pp. 1851-1869, 2018
  • M. I. Bodine, R. R. McLeod,听听Optics Letters听41, pp. 159-162, 2016.
  • E. D. Moore, R. R. McLeod,听, Optics Express 19, 8117-8126, 2011.
  • A. C. Sullivan and R. R. McLeod,听, Optics Express 15, 14202-14212, 2007.
  • M. R. Ayres and R. R. McLeod,听, Applied Optics 45, 8410-8418, 2006.

This work has been generously funded by

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Sample results

Scanning phase microscope

This scanning, quantitative 3D phase microscope measures the deflection of a focused beam by index gradients at the focus. 听By inverting the coherent transfer function of the instrument, it can measure n(x,y,z) with resolution limited by the point spread function of the objective lens.

OFDR of coin

This image of a coin surface was measured by multi-static, super-resolved optical frequency domain reflectometry. 听This technique can measure the internal positions and refractive indices of multi-layer parts with very high precision.

TIE phase microscopy

The set of bright-field microscope images, with +1, 0, and -1 micron defocus show a refractive index feature written in a holographic photopolymer by direct write lithography. 听The transport of intensity equation was used to extract the phase that, with a precise measurement of part thickness, reveals the index profile of the written feature.