期刊
SCIENTIFIC REPORTS
卷 9, 期 -, 页码 -出版社
NATURE PUBLISHING GROUP
DOI: 10.1038/s41598-019-45405-7
关键词
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资金
- CNPq, Brazilian Agency as part of the National Institute of Photonics [465763/2014-6]
- CAPES, Brazilian Agency as part of the National Institute of Photonics [465763/2014-6]
- FACEPE, Brazilian Agency as part of the National Institute of Photonics [465763/2014-6]
- FAPESP [2012/50259-8, 2015/11779-4, 2017/12446-4, 2017/20100-0]
- Brazilian Nanocarbon Institute of Science and Technology (INCT/Nanocarbono)
- FAPEMIG
This paper reports on a micro-certification procedure using femtosecond laser irradiation to microscopically mark a single-crystalline gemological and natural diamond, synthetic ruby and synthetic sapphire, inscribing a QR Code on them. The QR-code was composed of a set of 25 x 25 micropoints, and the irradiation energy was optimized at 1kHz repetition rate. The code was made at a 20 mu m relative depth into the gemstone surfaces by controlling the incident laser energy, that was set to 3 mu J for all the samples. Characterization by optical and electron microscopy, as well as micro-Raman hyperspectral imaging showed that the microdots have a diameter of about 14 mu m perpendicular to the irradiation direction, being laterally spaced by 14 mu m-18 mu m applied for each sample. This work corroborates the feasibility of using ultrafast laser inscription technology to fabricate microdots with great quality on gemstone surfaces, which offers a great potential for the jewelry industry to safely micro-encrypt gemological certifications. The compositional and morphological characterization of the modified surface was carried by micro-Raman spectroscopy and scanning electron microscopy.
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