TY - JOUR KW - Atomic and Molecular Physics, and Optics AU - Matthew Jacobs AU - Yuka Esashi AU - Nicholas Jenkins AU - Nathan Brooks AU - Henry Kapteyn AU - Margaret Murnane AU - Michael Tanksalvala AB -
Recent advances in structured illumination are enabling a wide range of applications from imaging to metrology, which can benefit from advanced beam characterization techniques. Solving uniquely for the spatial distribution of polarization in a beam typically involves the use of two or more polarization optics, such as a polarizer and a waveplate, which is prohibitive for some wavelengths outside of the visible spectrum. We demonstrate a technique that circumvents the use of a waveplate by exploiting extended Gerchberg–Saxton phase retrieval to extract the phase. The technique enables high-resolution, wavefront-sensing, full-field polarimetry capable of solving for both simple and exotic polarization states, and moreover, is extensible to shorter wavelength light.
BT - Optics Express DA - 2022-07 DO - 10.1364/oe.461658 IS - 15 N2 -Recent advances in structured illumination are enabling a wide range of applications from imaging to metrology, which can benefit from advanced beam characterization techniques. Solving uniquely for the spatial distribution of polarization in a beam typically involves the use of two or more polarization optics, such as a polarizer and a waveplate, which is prohibitive for some wavelengths outside of the visible spectrum. We demonstrate a technique that circumvents the use of a waveplate by exploiting extended Gerchberg–Saxton phase retrieval to extract the phase. The technique enables high-resolution, wavefront-sensing, full-field polarimetry capable of solving for both simple and exotic polarization states, and moreover, is extensible to shorter wavelength light.
PB - Optica Publishing Group PY - 2022 EP - 27967 T2 - Optics Express TI - High-resolution, wavefront-sensing, full-field polarimetry of arbitrary beams using phase retrieval VL - 30 SN - 1094-4087 ER -