1. Tooth ablation using a CPA-free thin disk femtosecond laser system
- Author
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Adolf Giesen, Markolf H. Niemz, M. Strassl, A. Kasenbacher, A. Beyertt, A. Bäcker, and Detlef Nickel
- Subjects
Chirped pulse amplification ,Materials science ,Physics and Astronomy (miscellaneous) ,business.industry ,medicine.medical_treatment ,General Engineering ,General Physics and Astronomy ,Ablation ,Laser ,law.invention ,Pulse (physics) ,Optics ,Thin disk ,law ,Femtosecond ,medicine ,Continuous wave ,business ,Ultrashort pulse - Abstract
Caries – the most frequent cause for dental surgery – still is mainly treated with conventional mechanical drills, although lasers have meanwhile been successfully applied to various clinical disciplines. Since ultrashort laser pulses with sufficient pulse energies have only been available at low repetition rates (< 1 kHz) in recent decades, solely continuous wave radiation or pulse durations longer than thermal diffusion processes were applied with the result of severe thermal damage and pain. In this report we present results on dental tissue ablation obtained with a novel thin disk Yb:KYW regenerative amplifier system that does not require chirped pulse amplification (CPA). We show that femtosecond laser pulses provide us with today’s optimal tool to treat dental decay in an acceptable time, in an excellent quality, and with unsurpassed caries selectivity. The superior quality is a result of the non-thermal laser-tooth interaction. All our results are based on environmental scanning electron microscopy.
- Published
- 2004
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