Investigations of the damage mechanisms during ultrashort pulse laser ablation of dental tissue

Matthias Domke; Sebastian Wick; Maike Laible; Stephan Rapp; Julia Kuznetsova; Christian Homann; Heinz P. Huber; Ronald Sroka

doi:10.1117/12.2184039

15 July 2015 Investigations of the damage mechanisms during ultrashort pulse laser ablation of dental tissue

Matthias Domke, Sebastian Wick, Maike Laible, Stephan Rapp, Julia Kuznetsova, Christian Homann, Heinz P. Huber, Ronald Sroka

Author Affiliations +

Proceedings Volume 9542, Medical Laser Applications and Laser-Tissue Interactions VII; 95420Q (2015) https://doi.org/10.1117/12.2184039
Event: European Conferences on Biomedical Optics, 2015, Munich, Germany

Abstract

Several investigations of dental tissue ablation with ultrashort pulsed lasers suggest that these lasers enable precise and selective material removal and reduce the formation of micro cracks and thermal effects, when compared to ns-pulses. In this study, two damage mechanisms are presented occurring during ablation of dentin using a laser emitting pulses of a duration of 380 fs at a wavelength of 1040 nm. First, it was found that nano cracks appear around the craters after single fs-pulse ablation. These cracks are directed to the crater and cross the dentinal tubules. Transient investigation of the single fs-pulse ablation process by pump-probe microscopy suggest that the driving mechanism could be a pressure wave that is released after stress confinement. Second, squared ablation holes were created by moving the laser focus at scan speeds between 0.5 mm/s and 2.0 m/s and fluences up to 14 J/cm². It was found that deep cracks appear at the edges of the squared holes, if the scan speed is about 0.5 m/s. The fluence has only a minor impact on the crack formation. The crack propagation was investigated in the depth using x-ray micro tomography and optical coherence tomography. It was found that these cracks appear in the depth down to the dental pulp. These findings suggest that fast scanning of the laser beam is the key for damage free processing using ultrashort pulse lasers. Then, ablation rates of about 2.5 - 3.5 mm³/min/W can be achieved in dentine with pulse durations of 380 fs.

Citation Download Citation

Matthias Domke, Sebastian Wick, Maike Laible, Stephan Rapp, Julia Kuznetsova, Christian Homann, Heinz P. Huber, and Ronald Sroka "Investigations of the damage mechanisms during ultrashort pulse laser ablation of dental tissue", Proc. SPIE 9542, Medical Laser Applications and Laser-Tissue Interactions VII, 95420Q (15 July 2015); https://doi.org/10.1117/12.2184039

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