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    Journals >Spectroscopy and Spectral Analysis >Volume 41 >Issue 2 >Page 654 > Article
    • Spectroscopy and Spectral Analysis
    • Vol. 41, Issue 2, 654 (2021)
    Spectral Dependence of Quasi-Rayleigh Polarization Leap of Nonspherical Particles: Polystyrene Beads Application
    D V Petrov and E A Zhuzhulina
    Author Affiliations
  • Crimean Astrophysical Observatory (CrAO RAS), 298409 Nauchnyj, Russia
    • show less
    DOI: 10.3964/j.issn.1000-0593(2021)02-0654-04 Cite this Article
    D V Petrov, E A Zhuzhulina. Spectral Dependence of Quasi-Rayleigh Polarization Leap of Nonspherical Particles: Polystyrene Beads Application[J]. Spectroscopy and Spectral Analysis, 2021, 41(2): 654 Copy Citation Text show less
    Spectral dependence of the linear polarization degree for spherical polystyrene particle with size R=1.227 μm and m=1.572 2 at different phase angles from 10° to 80°
    Fig. 1. Spectral dependence of the linear polarization degree for spherical polystyrene particle with size R=1.227 μm and m=1.572 2 at different phase angles from 10° to 80°
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    An examples of spheroids with different axial ratio a/b
    Fig. 2. An examples of spheroids with different axial ratio a/b
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    Spectral dependence of the linear polarization degree for nonspherical polystyrene particles having different axial ratio at phase angle α=50°(a): Prolate spheroids with a/ba/b>1
    Fig. 3. Spectral dependence of the linear polarization degree for nonspherical polystyrene particles having different axial ratio at phase angle α=50°
    (a): Prolate spheroids with a/b<1; (b): Oblate spheroids with a/b>1
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    3D surface, showing relation between the position of quasi-Rayleigh polarization leap λQRPL, phase angle α and axial ratio a/b
    Fig. 4. 3D surface, showing relation between the position of quasi-Rayleigh polarization leap λQRPL, phase angle α and axial ratio a/b
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    D V Petrov, E A Zhuzhulina. Spectral Dependence of Quasi-Rayleigh Polarization Leap of Nonspherical Particles: Polystyrene Beads Application[J]. Spectroscopy and Spectral Analysis, 2021, 41(2): 654
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