Radiation Protection for an Ultra-high Intensity Laser

Radiological characterisation of an experimental chamber and other areas of an ultra-high intensity laser facility (∼terawatt) revealed significant levels of X ray, γ and neutron radiation. Different techniques were used to detect and measure this radiation: TLD, photographic film, bubble detectors and germanium spectrometry. A test series of radiological measurements was made for 150 laser shots (300 femtoseconds) with energies in the 1 to 20 J range and a target illuminance of 10 19 W.cm -2 . Gamma dose equivalents in the vicinity of the chamber varied between 0.7 and 73 mSv. The dose equivalent due to the neutron component was evaluated to be 1% of the gamma dose equivalent. The amount of radiation generated depends on the laser energy and the nature of the target. No activation or contamination of the chamber or target holder were observed. Ultra-high intensity lasers are being extensively developed at the present time and the investigations performed demonstrate that it is necessary to take radiological risks into consideration in the design of ultra-high intensity laser facilities and to define personnel access conditions.