The present disclosure generally pertains to a polarization imaging portion having a plurality of imaging elements, wherein each imaging element is configured to convert light into an electric signal, the polarization imaging portion further including: a set of event sensors configured to detect an event being indicative of an intensity change of the light; a set of polarization filters; and a set of tunable polarizers configured to adjust a polarization of the light in response to an electric signal, wherein each polarization filter of the set of polarization filters is associated with a respective tunable polarizer of the set of tunable polarizers, thereby configuring a set of tunable polarization filters, such that the set of tunable polarization filters is associated with the set of event sensors.

The present disclosure generally pertains to a polarization imaging portion having a plurality of imaging elements, wherein each imaging element is configured to convert light into an electric signal, the polarization imaging portion further including: a set of event sensors configured to detect an event being indicative of an intensity change of the light; a set of polarization filters; and a set of tunable polarizers configured to adjust a polarization of the light in response to an electric signal, wherein each polarization filter of the set of polarization filters is associated with a respective tunable polarizer of the set of tunable polarizers, thereby configuring a set of tunable polarization filters, such that the set of tunable polarization filters is associated with the set of event sensors.

This thin film is a thin film for detecting circularly polarized light, and includes a plurality of inorganic layers constituting a layered structure and/or a plurality of inorganic chains constituting a chain structure, which are formed of a perovskite type substance, and chiral molecules incorporated in at least a part of a boundary part between the adjacent inorganic layers and/or between the inorganic chains, wherein the chiral molecules include only one of S-form chiral molecules and R-form chiral molecules or chiral molecules with a higher abundance proportion of one of S-form chiral molecules and R-form chiral molecules than an abundance proportion of the other of S-form chiral molecules and R-form chiral molecules, and wherein the crystal structure of the perovskite type substance is oriented in a predetermined direction.

This thin film is a thin film for detecting circularly polarized light, and includes a plurality of inorganic layers constituting a layered structure and/or a plurality of inorganic chains constituting a chain structure, which are formed of a perovskite type substance, and chiral molecules incorporated in at least a part of a boundary part between the adjacent inorganic layers and/or between the inorganic chains, wherein the chiral molecules include only one of S-form chiral molecules and R-form chiral molecules or chiral molecules with a higher abundance proportion of one of S-form chiral molecules and R-form chiral molecules than an abundance proportion of the other of S-form chiral molecules and R-form chiral molecules, and wherein the crystal structure of the perovskite type substance is oriented in a predetermined direction.

The invention discloses a Trace Microanalysis Microscope System for high throughput screening. A multimodal imaging sensor arrangement acquires color, multispectral, hyperspectral and multi-directional polarized imaging, independently and in combinations thereof. In one aspect of this disclosure, the multimodal acquisition is combined with a plurality of sample illumination modes, further expanding the dimensionality of the generated data. In another aspect of this invention, machine learning-based methods combining and comparing a- priori data with the acquired multimodal data space, provide unique identifiers for the composition of the analyzed target objects. In yet another aspect of this invention, projection mapping of the identified compositional features navigates secondary sampling for subsequent analyses.

The invention discloses a Trace Microanalysis Microscope System for high throughput screening. A multimodal imaging sensor arrangement acquires color, multispectral, hyperspectral and multi-directional polarized imaging, independently and in combinations thereof. In one aspect of this disclosure, the multimodal acquisition is combined with a plurality of sample illumination modes, further expanding the dimensionality of the generated data. In another aspect of this invention, machine learning-based methods combining and comparing a- priori data with the acquired multimodal data space, provide unique identifiers for the composition of the analyzed target objects. In yet another aspect of this invention, projection mapping of the identified compositional features navigates secondary sampling for subsequent analyses.

Methods and devices for measuring full or partial Mueller matrix information in a single shot are described. One single shot polarimeter includes a polarization filter that is positioned to receive collimated light from a light source and to produce light having different polarization states. The polarization filter includes at least four sections, where each section receives a portion of the collimated light and produces light of a particular polarization state, which is spatially separated from light produced by other sections of the polarization filter. An imaging component images the sections of the polarization filter onto a plane of a sample object. One or more optical elements receive the light from the sample object and image a section of the sample object onto a detector. The disclosed devices and methods enable the measurement of the Mueller matrix of the sample with high signal-to-noise ratios.

Methods and devices for measuring full or partial Mueller matrix information in a single shot are described. One single shot polarimeter includes a polarization filter that is positioned to receive collimated light from a light source and to produce light having different polarization states. The polarization filter includes at least four sections, where each section receives a portion of the collimated light and produces light of a particular polarization state, which is spatially separated from light produced by other sections of the polarization filter. An imaging component images the sections of the polarization filter onto a plane of a sample object. One or more optical elements receive the light from the sample object and image a section of the sample object onto a detector. The disclosed devices and methods enable the measurement of the Mueller matrix of the sample with high signal-to-noise ratios.

A Modified Rectangular Wave Polarization Control (MRWPC) system generates an automatically adjustable rectangular wave to optimize polarization of electrodes in relative electrolytes by decreasing the concentration polarization effect. The MRWPC system provides corrosion mitigation for metallic structures in corrosive environments, battery rejuvenation/rapid charging, enhancements in the electroplating process, and other procedures that utilize electrochemical reactions.

A Modified Rectangular Wave Polarization Control (MRWPC) system generates an automatically adjustable rectangular wave to optimize polarization of electrodes in relative electrolytes by decreasing the concentration polarization effect. The MRWPC system provides corrosion mitigation for metallic structures in corrosive environments, battery rejuvenation/rapid charging, enhancements in the electroplating process, and other procedures that utilize electrochemical reactions.