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spectrometer  (Ocean Optics)


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    Ocean Optics spectrometer
    Experimental characterization of the metasurface sample. (a) Schematic of the spectro‐polarimetric measurement setup. The light source controls the incident spectral profile; a <t>spectrometer</t> measures the spectral information; a beam splitter (BS) separates and directs light to different optical paths; a linear polarizer (LP) and a quarter‐wave plate (QWP) control the polarization state of the incident light; an objective lens (OL) collects the transmitted light through the metasurface; and CMOS camera images the back focal plane. (b) Optical image (left) and SEM image (right) of the metasurface sample. (c) Experimentally measured spectro‐polarimetric encoding matrix for the selected 16 meta‐atoms.
    Spectrometer, supplied by Ocean Optics, used in various techniques. Bioz Stars score: 95/100, based on 8147 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/spectrometer/product/Ocean Optics
    Average 95 stars, based on 8147 article reviews
    spectrometer - by Bioz Stars, 2026-06
    95/100 stars

    Images

    1) Product Images from "Design and Optimization of Full‐Stokes Hyperspectro‐Polarimetric Encoding Metasurfaces Based on Conditional Multi‐Task Deep Learning"

    Article Title: Design and Optimization of Full‐Stokes Hyperspectro‐Polarimetric Encoding Metasurfaces Based on Conditional Multi‐Task Deep Learning

    Journal: Advanced Science

    doi: 10.1002/advs.202523143

    Experimental characterization of the metasurface sample. (a) Schematic of the spectro‐polarimetric measurement setup. The light source controls the incident spectral profile; a spectrometer measures the spectral information; a beam splitter (BS) separates and directs light to different optical paths; a linear polarizer (LP) and a quarter‐wave plate (QWP) control the polarization state of the incident light; an objective lens (OL) collects the transmitted light through the metasurface; and CMOS camera images the back focal plane. (b) Optical image (left) and SEM image (right) of the metasurface sample. (c) Experimentally measured spectro‐polarimetric encoding matrix for the selected 16 meta‐atoms.
    Figure Legend Snippet: Experimental characterization of the metasurface sample. (a) Schematic of the spectro‐polarimetric measurement setup. The light source controls the incident spectral profile; a spectrometer measures the spectral information; a beam splitter (BS) separates and directs light to different optical paths; a linear polarizer (LP) and a quarter‐wave plate (QWP) control the polarization state of the incident light; an objective lens (OL) collects the transmitted light through the metasurface; and CMOS camera images the back focal plane. (b) Optical image (left) and SEM image (right) of the metasurface sample. (c) Experimentally measured spectro‐polarimetric encoding matrix for the selected 16 meta‐atoms.

    Techniques Used: Control



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    Image Search Results


    Experimental characterization of the metasurface sample. (a) Schematic of the spectro‐polarimetric measurement setup. The light source controls the incident spectral profile; a spectrometer measures the spectral information; a beam splitter (BS) separates and directs light to different optical paths; a linear polarizer (LP) and a quarter‐wave plate (QWP) control the polarization state of the incident light; an objective lens (OL) collects the transmitted light through the metasurface; and CMOS camera images the back focal plane. (b) Optical image (left) and SEM image (right) of the metasurface sample. (c) Experimentally measured spectro‐polarimetric encoding matrix for the selected 16 meta‐atoms.

    Journal: Advanced Science

    Article Title: Design and Optimization of Full‐Stokes Hyperspectro‐Polarimetric Encoding Metasurfaces Based on Conditional Multi‐Task Deep Learning

    doi: 10.1002/advs.202523143

    Figure Lengend Snippet: Experimental characterization of the metasurface sample. (a) Schematic of the spectro‐polarimetric measurement setup. The light source controls the incident spectral profile; a spectrometer measures the spectral information; a beam splitter (BS) separates and directs light to different optical paths; a linear polarizer (LP) and a quarter‐wave plate (QWP) control the polarization state of the incident light; an objective lens (OL) collects the transmitted light through the metasurface; and CMOS camera images the back focal plane. (b) Optical image (left) and SEM image (right) of the metasurface sample. (c) Experimentally measured spectro‐polarimetric encoding matrix for the selected 16 meta‐atoms.

    Article Snippet: To ensure the wavelength accuracy of the monochromator output, a beam splitter was placed in front of the monochromator to direct a portion of the emitted beam into a spectrometer (Ocean Optics, Ocean HR2) for real‐time wavelength calibration.

    Techniques: Control