Picosecond-laser-induced structural modifications in the bulk of single-crystal diamond
Version
Published
Date Issued
2011
Author(s)
Pimenov, Sergei M.
Vlasov, Igor I.
Khomich, Andrey A.
Muralt, Martin
Type
Article
Language
English
Abstract
Arrays of through laser-graphitized microstructureshavebeenfabricatedintypeIIasingle-crystal1.2-mmthick diamond plates by multipulse laser irradiation with 10-ps pulses at λ=532 nm wavelength. Raman and photoluminescence (PL) spectroscopy studies of the bulk microstructures have evidenced the diamond transformation to amorphous carbon and graphitic phases and the formation of radiation defects pronounced in the PL spectra as the self-interstitial related center, the 3H center, at 504 nm. It is found that the ultrafast-laser-induced structural modifications in the bulk of single-crystal diamond plates occur along{111}planes, known as the planes of the lowest cleavage energy and strength in diamond.
Subjects
QC Physics
Publisher DOI
Journal or Serie
Applied Physics A
ISSN
1432-0630
Volume
105
Issue
3
Publisher
Springer
Submitter
Neuenschwander, Beat
Citation apa
Pimenov, S. M., Vlasov, I. I., Khomich, A. A., Neuenschwander, B., Muralt, M., & Romano, V. (2011). Picosecond-laser-induced structural modifications in the bulk of single-crystal diamond. In Applied Physics A (Vol. 105, Issue 3). Springer. https://doi.org/10.24451/arbor.11703
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