Gemstone identification using fluorescence technique / Wan Aizuddin Wan Razali … [et al.]

Fluorescence is the emission of light by a substance that absorbs light or other electromagnetic radiation. To date, fluorescence is useful in separating genuine and artificial gemstones. In this study, multiple excitation sources, namely blue, green, red lasers, and white lamp were used to illumina...

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Main Authors: Wan Razali, Wan Aizuddin, Baharudeen, Nur ’Atiqah, Mat Rawi, Fatin Najihah, Othman, Muhammad Firdaus, Muhamad Ridzwan, Hendrie Johann, Senawi, Syamsyir Akmal, Mohamed, Ruziana
Format: Article
Language:English
Published: Universiti Teknologi MARA Cawangan Pahang 2020
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Online Access:http://ir.uitm.edu.my/id/eprint/46002/1/46002.pdf
http://ir.uitm.edu.my/id/eprint/46002/
http://www.gadingst.learningdistance.org/index.php/gadingst/article/view/82
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spelling my.uitm.ir.460022021-06-21T08:45:34Z http://ir.uitm.edu.my/id/eprint/46002/ Gemstone identification using fluorescence technique / Wan Aizuddin Wan Razali … [et al.] Wan Razali, Wan Aizuddin Baharudeen, Nur ’Atiqah Mat Rawi, Fatin Najihah Othman, Muhammad Firdaus Muhamad Ridzwan, Hendrie Johann Senawi, Syamsyir Akmal Mohamed, Ruziana Optics. Light Spectroscopy Radiation physics (General) Fluorescence is the emission of light by a substance that absorbs light or other electromagnetic radiation. To date, fluorescence is useful in separating genuine and artificial gemstones. In this study, multiple excitation sources, namely blue, green, red lasers, and white lamp were used to illuminate several samples to produce fluorescence. The samples used were genuine ruby crystal, fake ruby crystal and two dye solutions. The fluorescence signal was then detected using a spectrometer. From spectroscopic analysis, each sample gave a different spectrum and the corresponding wavelength was identified through its peak. The analysis showed that the spectrum peak of genuine ruby crystal was at 694.32 nm, whereas the spectrum peak of fake ruby was at 807.72 nm. This study successfully demonstrated the use of the fluorescence technique to distinguish genuine ruby crystal from its artificial. A similar technique can also be used to identify other gemstones. Universiti Teknologi MARA Cawangan Pahang 2020-09 Article PeerReviewed text en http://ir.uitm.edu.my/id/eprint/46002/1/46002.pdf ID46002 Wan Razali, Wan Aizuddin and Baharudeen, Nur ’Atiqah and Mat Rawi, Fatin Najihah and Othman, Muhammad Firdaus and Muhamad Ridzwan, Hendrie Johann and Senawi, Syamsyir Akmal and Mohamed, Ruziana (2020) Gemstone identification using fluorescence technique / Wan Aizuddin Wan Razali … [et al.]. Gading Journal of Science and Technology, 3 (2). pp. 73-78. ISSN (e-ISSN) : 2637 - 0018 http://www.gadingst.learningdistance.org/index.php/gadingst/article/view/82
institution Universiti Teknologi Mara
building Tun Abdul Razak Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Mara
content_source UiTM Institutional Repository
url_provider http://ir.uitm.edu.my/
language English
topic Optics. Light
Spectroscopy
Radiation physics (General)
spellingShingle Optics. Light
Spectroscopy
Radiation physics (General)
Wan Razali, Wan Aizuddin
Baharudeen, Nur ’Atiqah
Mat Rawi, Fatin Najihah
Othman, Muhammad Firdaus
Muhamad Ridzwan, Hendrie Johann
Senawi, Syamsyir Akmal
Mohamed, Ruziana
Gemstone identification using fluorescence technique / Wan Aizuddin Wan Razali … [et al.]
description Fluorescence is the emission of light by a substance that absorbs light or other electromagnetic radiation. To date, fluorescence is useful in separating genuine and artificial gemstones. In this study, multiple excitation sources, namely blue, green, red lasers, and white lamp were used to illuminate several samples to produce fluorescence. The samples used were genuine ruby crystal, fake ruby crystal and two dye solutions. The fluorescence signal was then detected using a spectrometer. From spectroscopic analysis, each sample gave a different spectrum and the corresponding wavelength was identified through its peak. The analysis showed that the spectrum peak of genuine ruby crystal was at 694.32 nm, whereas the spectrum peak of fake ruby was at 807.72 nm. This study successfully demonstrated the use of the fluorescence technique to distinguish genuine ruby crystal from its artificial. A similar technique can also be used to identify other gemstones.
format Article
author Wan Razali, Wan Aizuddin
Baharudeen, Nur ’Atiqah
Mat Rawi, Fatin Najihah
Othman, Muhammad Firdaus
Muhamad Ridzwan, Hendrie Johann
Senawi, Syamsyir Akmal
Mohamed, Ruziana
author_facet Wan Razali, Wan Aizuddin
Baharudeen, Nur ’Atiqah
Mat Rawi, Fatin Najihah
Othman, Muhammad Firdaus
Muhamad Ridzwan, Hendrie Johann
Senawi, Syamsyir Akmal
Mohamed, Ruziana
author_sort Wan Razali, Wan Aizuddin
title Gemstone identification using fluorescence technique / Wan Aizuddin Wan Razali … [et al.]
title_short Gemstone identification using fluorescence technique / Wan Aizuddin Wan Razali … [et al.]
title_full Gemstone identification using fluorescence technique / Wan Aizuddin Wan Razali … [et al.]
title_fullStr Gemstone identification using fluorescence technique / Wan Aizuddin Wan Razali … [et al.]
title_full_unstemmed Gemstone identification using fluorescence technique / Wan Aizuddin Wan Razali … [et al.]
title_sort gemstone identification using fluorescence technique / wan aizuddin wan razali … [et al.]
publisher Universiti Teknologi MARA Cawangan Pahang
publishDate 2020
url http://ir.uitm.edu.my/id/eprint/46002/1/46002.pdf
http://ir.uitm.edu.my/id/eprint/46002/
http://www.gadingst.learningdistance.org/index.php/gadingst/article/view/82
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