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Imaging the structure of the Kuźnica chondrite with a confocal microscope
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Abstracts
Confocal microscopy is commonly used in mineralogy for structural analysis and to investigate the chemical composition of minerals. In our work we performed imaging of structural defects in meteorites i.e. imaging of microstructures, inclusions, fractures and cracks. Information obtained in this way enables better understanding of minerals' origin and evolution.
The aim of our work was not concentrated on the deep description of physical processes related to confocal microscope (CSLM) imaging. This paper is limited to the presentation of a few CSLM functions and possibilities, which have practical application in the interpretation of fluorescence microscope imaging of minerals.
Confocal microscopy enables identification and preview of localization of selected minerals and therefore can be used to image of the distribution of chemical compounds in minerals.
The aim of our work was not concentrated on the deep description of physical processes related to confocal microscope (CSLM) imaging. This paper is limited to the presentation of a few CSLM functions and possibilities, which have practical application in the interpretation of fluorescence microscope imaging of minerals.
Confocal microscopy enables identification and preview of localization of selected minerals and therefore can be used to image of the distribution of chemical compounds in minerals.
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Year
Volume
Pages
96-115
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Dates
published
2024
Contributors
author
- Uniwersytet Warszawski: Wydział Biologii
author
- Uniwersytet Warszawski: Wydział Biologii
References
- Brearley A.J., Jones R.H., 1998, Chondritic Meteorites, w: Papike J.J. (ed.), Planetary Materials, Mineralogical Society of America, Washington, DC, USA.
- Hutchison R., 2006, Meteorites. A Petrologic, Chemical and Isotopic Synthesis, Series: Cambridge Planetary Science (no. 2), Cambridge University Press, 2006, ss. 520.
- Karwowski Ł., Szopa K., Woźniak M., 2021, Nowe znalezisko meteorytu w południowej części województwa łódzkiego (New meteorite from the southern part of the Łódź Voivodeship, Poland), Acta Soc. Metheor. Polon., 12, 2021, s. 41–57.
- Kosina R., 2014, O nieznanej naturze meteorytów (On the unknown nature of meteorites), Acta Soc. Metheor. Polon., 5, 2014, s. 72–80.
- Lakowicz J.R., 2006, Principles of Fluorescence Microscopy, 3rd Edition, Springer 2006.
- Łuszczek K., 2021, Chondryty zwyczajne i ich ciała macierzyste, Oficyna Wydawnicza Politechniki Wrocławskiej, 2021, ss. 149.
- Pawley J.B, 2006, Handbook of Biological Confocal Microscopy, 3rd Edition, Springer 2006.
- Sears D.W.G., 2009, The origin of chondrules and chondrites, Cambridge University Press, 2009.
- Rubin A.E., 1990, Kamacite and olivine in ordinary chondrites: Intergroup and intragroup relationships, Geochimica et Cosmochimica Acta, 54, s. 1217–1232.
- Woźniak B., Woźniak M., 2019, Nowe polskie znalezisko, Częstochowa (A new Polish find, Częstochowa), Acta Soc. Metheor. Polon., 10, 2019, s. 193–198.
- Żmija M., 2024, Meteoryt Ribbeck – relacje polskich poszukiwaczy (Ribbeck meteorite – reports of Polish searchers), Acta Societatis Metheoriticae Polonorum, 15, s. 202–214.
- Woreczko Jan, http://woreczko.pl, http://wiki.meteoritica.pl
- Wikipedia: Efekt Ramana, Fluorescencja, Mikroskop konfokalny.
- Borzęcki Robert, http://www.redbor.pl
Document Type
Publication order reference
Identifiers
Biblioteka Nauki
30146481
YADDA identifier
bwmeta1.element.ojs-issn-2080-5497-year-2024-volume-15-article-44e3a306-268f-3a7b-8a45-de5a2c4d19bf
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