Abstract
A Nd:YAG laser is employed to ablate different materials useful in the bio-medical
field. The laser source operates in the IR (1064 nm), VIS (532 nm) and UV (355 nm) regions with a
pulse duration of 3-9 ns, a pulse energy of 3-300 mJ, a spot size of 1 mm2 and a repetition rate of 1-
30 Hz. Target material of interest are Titanium, Carbon, Hydroxyapatite (HA) and Polyethylene
(PE). Laser irradiation occurs in vacuum, where hot plasma is generated, and thin films are
deposited on near substrates. Generally, substrates of silicon, titanium, titanium-alloys and
polymers were employed. Biocompatible thin films are investigated with different surface
techniques, such as IR spectroscopy, Raman spectroscopy, XRD analysis and SEM investigations.
Depending of the kind of possible application, films require special properties concerning the grain
size, porosity, uniformity, wetting, hardness, adhesion, crystallinity and composition. The obtained
results will be presented and discussed with particular regard to HA..
Publisher
Trans Tech Publications Ltd
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