Effect of Grating Ruling Machine System Errors on Grating Spectral Performance

Chao, Yang; Chen, Xu

doi:10.3390/app121910174

Applied Sciences

2022

DOI: 10.3390/app121910174

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Effect of Grating Ruling Machine System Errors on Grating Spectral Performance

Yang Chao

Xu Chen

Abstract: Grating groove functions scalar theory can describe the light source through the grating interference and diffraction effect of the physical phenomenon of splitting light. It can be used to represent the distribution of the complex amplitude of the illumination light source on the diffraction screen under the action of the diffraction grating and display the information on the diffracted light position and intensity distribution. As a result, the effect of groove error on the intensity of grating ghost lines a… Show more

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Cited by 2 publications

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Coherent Fourier scatterometry: a holistic tool for inspection of isolated particles or defects on gratings

Paul,

Kolenov,

Scholte

et al. 2023

Appl. Opt.

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Detecting defects on diffraction gratings is crucial for ensuring their performance and reliability. Practical detection of these defects poses challenges due to their subtle nature. We perform numerical investigations and demonstrate experimentally the capability of coherent Fourier scatterometry (CFS) to detect particles as small as 100 nm and also other irregularities that are encountered usually on diffraction gratings. Our findings indicate that CFS is a viable tool for inspection of diffraction gratings.

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Coherent Fourier scatterometry: a holistic tool for inspection of isolated particles or defects on gratings

Paul,

Kolenov,

Scholte

et al. 2023

Appl. Opt.

View full text Add to dashboard Cite

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Fully programmable holographic diffraction grating for NIR synthetic spectra generation in correlation spectroscopy

Chiarini,

Bellettato,

Bentini

et al. 2024

Opt. Continuum

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Correlation spectroscopy is a powerful analytical tool for gaseous species detection, with improved sensitivity and enhanced selectivity. The application in the field of this spectroscopic technique, for remote sensing purposes, has long been prevented due to the necessity to equip the instrument with a reference ‘cell’ containing an actual sample of the target molecules to perform correlation measurements. A new photonic chip, based on LNOI (lithium niobate on insulator) substrates, has been developed and tested by applying MEOS (micro electro optical system) micromachining techniques. The novel photonic chip allows to dynamically generate synthetic spectra of in principle any chemical species detectable in the transparency range of LNOI (350 nm – 5500 nm wavelength). The synthetic spectrum is generated by producing a well-defined holographic phase map in the active layer of the LNOI substrate, by applying through an array of driving electrodes a calculated voltage distribution, thus rendering the photonic chip fully programmable even in real-time. The developed photonic chip is therefore able to replace the classical sample cell and can be also used to act as a reference signal modulator, as requested in a correlation spectrometer. In this work, a description of the developed technology is reported together with some preliminary results obtained in different experimental conditions.

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Effect of Grating Ruling Machine System Errors on Grating Spectral Performance

Cited by 2 publications

References 24 publications

Coherent Fourier scatterometry: a holistic tool for inspection of isolated particles or defects on gratings

Coherent Fourier scatterometry: a holistic tool for inspection of isolated particles or defects on gratings

Fully programmable holographic diffraction grating for NIR synthetic spectra generation in correlation spectroscopy

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