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Optical mechanisms behind vitrinite reflectance suppression caused by strong anisotropy: A case study of contact metamorphic coals

Yanfei AN et al · Editorial Office of Coal Geology & Exploration · 2026

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ObjectiveFor vitrinite with weak anisotropy, which proves uniaxial and optically negative, replacing random vitrinite reflectance (Rran) with the maximum vitrinite reflectance (Rmax) allows for the accurate correction of vitrinite reflectance suppression induced by anisotropy. However, as its anisotropy intensifies, vitrinite exhibits increasingly complex optical properties, rendering it challenging to reflect the thermal metamorphic temperature of vitrinite using Rmax. MethodsThis study investigated the strongly anisotropic vitrinite in coals and natural coke subjected to magma intrusion in the Shitai coal mine, Huaibei City, Anhui Province. Using a reflected-polarized light microscope (R-PLM), an ultra-high-definition scanning electron microscope (SEM), and tests on Rmax and the minimum vitrinite reflectance (Rmin), this study analyzed the microscopic textures, deep microfabrics, and optical properties of the vitrinite. Accordingly, the microscopic optical mechanisms underlying vitrinite reflectance suppression were explored. ResultsThe strongly anisotropic vitrinite, formed by the contact metamorphism of magmas, contains flow-texture carbon and mosaic carbon, both composed of lamellar microfabrics. The lamellae in the carbon were uniaxial and optically negative (No > Ne), with the long axis No of the indicatrix parallel to the lamella surface and its short axis Ne perpendicular to the surface. The vitrinite exhibited the optical properties of pseudo-biaxial crystals in Kilby’s cross plot. The pseudo-biaxial crystals were formed by lamella folding. The underlying reason is that lamella folding changed the orientation of the lamellae’s reflected optical indicatrix (ROI) despite minimally influencing its morphology. ConclusionsLamella folding represents the direct cause of reflectance suppression in strongly anisotropic vitrinite. The Kilby’s cross plot serves as an effective method used to determine whether strong anisotropy induces vitrinite reflectance suppression. Replacing the average reflectance with Rmax corresponding to the maximum bireflectance (ΔRo) can correct reflectance suppression. This will help accurately determine the metamorphic grade of coals formed by magma intrusion-induced contact metamorphism through inversion.

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APA 7

al, Y. A. E. (2026). Optical mechanisms behind vitrinite reflectance suppression caused by strong anisotropy: A case study of contact metamorphic coals. https://doi.org/10.12363/issn.1001-1986.25.12.0934

MLA

al, Yanfei AN et. "Optical mechanisms behind vitrinite reflectance suppression caused by strong anisotropy: A case study of contact metamorphic coals." 2026. https://doi.org/10.12363/issn.1001-1986.25.12.0934.

Chicago

al, Yanfei AN et. 2026. "Optical mechanisms behind vitrinite reflectance suppression caused by strong anisotropy: A case study of contact metamorphic coals.". https://doi.org/10.12363/issn.1001-1986.25.12.0934.

Harvard

al, Y. A. E. 2026, Optical mechanisms behind vitrinite reflectance suppression caused by strong anisotropy: A case study of contact metamorphic coals, Editorial Office of Coal Geology & Exploration, available at: https://doi.org/10.12363/issn.1001-1986.25.12.0934 [Accessed 28 Jun. 2026].

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Título
Optical mechanisms behind vitrinite reflectance suppression caused by strong anisotropy: A case study of contact metamorphic coals
Autor / colaboradores
Yanfei AN et al
Editorial
Editorial Office of Coal Geology & Exploration
Año de publicación
2026
ISSN
1001-1986
ISSN
1001-1986
Idioma
zho

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