Decomposition of methanol using pulsed HF and CO2 lasers

HF laser-mduccd multrphoton decompos!tlon (MPD) of 2,2,2-trlfluoroethaol, for the fiuence and pressure ranges 4-107 J/cm2 and 0 l-4 0 kPa respecrively. was studred and compared wth results for methanol As for multIphoton absorption (at low pressures), XIPD 1s more easily achieved for TFE than for me

The CO 2 decomposition in a DC glow discharge in a sealed-off CO 2 laser mixture (6% CO 2 : 20% N 2 : 74% He) in the pressure range 2 -22 Torr is investigated. Both the time evolution and the steady-state CO 2 decomposition are studied by means of time resolved optical emission spectroscopy. A decre

## Background and objectives: The advantages of the continuous wave (c.w.) co(2) laser are offset by the delay in laser wound healing secondary to thermal damage. we have developed novel heat-conducting templates to reduce laser thermal damage. because shortened pulse durations also decrease therma

A precise cochleostomy is a crucial step in cochlear implantation, particularly if residual hearing is to be preserved. A contactless ablation of the promontory bone by a pulsed CO 2 laser system seems to be a promising approach. The bone is removed by a scan head controlled laser beam in sequential