2021
DOI: 10.1364/oe.435972
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Mueller matrix imaging microscope using dual continuously rotating anisotropic mirrors

Abstract: We demonstrate calibration and operation of a Mueller matrix imaging microscope using dual continuously rotating anisotropic mirrors for polarization state generation and analysis. The mirrors contain highly spatially coherent nanostructure slanted columnar titanium thin films deposited onto optically thick titanium layers on quartz substrates. The first mirror acts as polarization state image generator and the second mirror acts as polarization state image detector. The instrument is calibrated using samples … Show more

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Cited by 7 publications
(4 citation statements)
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“…[34] The development of spatially resolved Mueller matrix techniques represents definitely an important strategy for spatial mapping and disentangling of circular and linear anisotropies in thin films. [35][36][37] On the one hand, custom-built Mueller matrix polarimetry microscopes [38] have found successful applications in the study of polycrystalline spherulites of D-sorbitol [34] and of conjugated polymers. [39] On the other, commercial benchtop ellipsometers have been successfully applied for spatially resolved Mueller matrix spectroscopic ellipsometry measurements, [40] with successful applications in the 2D-investigation of thin films of chiral π-conjugated small molecules [41,42] and polymers.…”
Section: Introductionmentioning
confidence: 99%
“…[34] The development of spatially resolved Mueller matrix techniques represents definitely an important strategy for spatial mapping and disentangling of circular and linear anisotropies in thin films. [35][36][37] On the one hand, custom-built Mueller matrix polarimetry microscopes [38] have found successful applications in the study of polycrystalline spherulites of D-sorbitol [34] and of conjugated polymers. [39] On the other, commercial benchtop ellipsometers have been successfully applied for spatially resolved Mueller matrix spectroscopic ellipsometry measurements, [40] with successful applications in the 2D-investigation of thin films of chiral π-conjugated small molecules [41,42] and polymers.…”
Section: Introductionmentioning
confidence: 99%
“…Figures 3(d)-(f) show plots of the average amplitudes of the Jones matrices, indicating their relative strengths. According to equation (10), when θ = 0°, only |J XX | shows a strong signal, while the rest have negligible values, even close to zero. Conversely, with 90°, |J YY | reaches its maximum while the others remain at approximately zero.…”
Section: Methodsmentioning
confidence: 99%
“…To identify the variation in the polarized beams, the Mueller and Jones matrices are usually employed. Extensive studies have been conducted on the Mueller matrix, which can summarize the properties of partially polarized light [5][6][7][8][9][10]. However, Mueller matrix polarization measurements have always been used primarily in conventional intensity measurements, failing to directly retain the phase information of the beam.…”
Section: Introductionmentioning
confidence: 99%
“…Importantly, the Müller matrix data suggest that contributions from LD/LD' and LB/LB' effects average out over the macroscopic length scales detected in this experiment. To prove that this statement also holds for microscopic length scales, one would need to perform Müller matrix microscopy 33,[37][38][39] which will be carried out in a future investigation. Here, we use a simpler approach: CD microscopy is performed to check for an invariance of the CD images with respect to rotation and flipping of the sample 40,41 .…”
Section: Broadband Müller Matrix Spectroscopymentioning
confidence: 97%