Characterization of the photoelastic dispersion coefficient using polarized digital holography

article
Autores

Leal Da Silva, Sidney

Prado, Felipe Maia

Toffoli, Daniel José

Wetter, Niklaus Ursus

Data de Publicação

1 de abril de 2023

Resumo

The photoelastic dispersion coefficient represents the relationship between stress and the differences in refractive indices in a birefringent material. However, determining the coefficient using photoelasticity is challenging, as it is difficult to determine the refractive indices within photoelastic samples that are under tension. Here we present, for the first time, to our knowledge, the use of polarized digital holography to investigate the wavelength dependence of the dispersion coefficient in a photoelastic material. A digital method is proposed to analyze and correlate the differences in mean external stress with differences in mean phase. The results confirm the wavelength dependence of the dispersion coefficient, with an accuracy improvement of 25% compared to other photoelasticity methods.

Citação

BibTeX
@online{da_silva,_sidney2023,
  author = {Da Silva, Sidney, Leal and Felipe Maia , Prado and Daniel
    José , Toffoli and Niklaus Ursus , Wetter},
  title = {Characterization of the photoelastic dispersion coefficient
    using polarized digital holography},
  volume = {40},
  number = {4},
  date = {2023-04-01},
  doi = {10.1364/JOSAA.482543},
  langid = {pt-BR},
  abstract = {The photoelastic dispersion coefficient represents the
    relationship between stress and the differences in refractive
    indices in a birefringent material. However, determining the
    coefficient using photoelasticity is challenging, as it is difficult
    to determine the refractive indices within photoelastic samples that
    are under tension. Here we present, for the first time, to our
    knowledge, the use of polarized digital holography to investigate
    the wavelength dependence of the dispersion coefficient in a
    photoelastic material. A digital method is proposed to analyze and
    correlate the differences in mean external stress with differences
    in mean phase. The results confirm the wavelength dependence of the
    dispersion coefficient, with an accuracy improvement of 25\%
    compared to other photoelasticity methods.}
}
Por favor, cite este trabalho como:
Da Silva, Sidney, Leal, Prado Felipe Maia, Toffoli Daniel José, and Wetter Niklaus Ursus. 2023. “Characterization of the photoelastic dispersion coefficient using polarized digital holography.” Journal of the Optical Society of America A. April 1, 2023. https://doi.org/10.1364/JOSAA.482543.