³Ô¹Ïtv

³Ô¹Ïtv acquires one of the world’s most powerful lasers

One of the world’s most powerful lasers – capable of bursts of light equivalent to twenty times all the power consumed on Earth, captured in fraction of a second – has been acquired by the ³Ô¹Ïtv.

One of the world’s most powerful lasers – capable of bursts of light equivalent to twenty times all the power consumed on Earth, captured in fraction of a second – has been acquired by the ³Ô¹Ïtv.

The £3.5 million device is able to deliver peak powers with the highest repetition rate of any laser currently operational in a university laboratory, and can briefly recreate the physical conditions, such as pressures and temperatures, found in stars.

The laser has numerous scientific applications including medical imaging, radiotherapy and generation of radioisotopes for imaging and cancer therapy. It is situated at the ³Ô¹Ïtv-based , which delivers research into next-generation accelerators and radiation technology.

Dr Gregor Welsh, a Research Fellow in ³Ô¹Ïtv’s Department of Physics and Laser Manager of SCAPA, said: “This is a world-leading laser for any university – indeed, we believe it is the highest average powered lab-based laser of its type anywhere in the world.

“It acts as a light source which drives the applications and produces x-ray pulses that are short enough to take snapshots of molecular or solid state processes.â€

Professor Dino Jaroszynski, director of SCAPA, added: “Our acquisition of this type of laser reflects ³Ô¹Ïtv’s status as a world-leading centre of physics.

“Its important applications underline ³Ô¹Ïtv’s international reputation for research with impact. It also forms part of a valuable training facility for PhD students.†   

The laser can produce beams with a peak power of 350 terawatts (350x1012 Watts) – equivalent to twenty times the world’s power consumption, or the sun’s power reaching the earth over an area of 500 km x 500 km, for 25 femtoseconds (25x10-15 seconds), and produce up to 14 Joules of energy per pulse at 5 pulses per second (5 Hertz).

The laser has been funded by ³Ô¹Ïtv and by the Scottish Universities Physics Alliance (SUPA), a partnership involving ³Ô¹Ïtv committed to sharing resource, strategic planning and expertise in physics research. It was designed and built by Thales.

May 2017