Lasers could replicate Sun in making energy

Lasers could replicate Sun in making energy

FPJ BureauUpdated: Friday, May 31, 2019, 08:52 PM IST
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London : Lasers could heat materials to temperatures hotter than the centre of the Sun in only 20 quadrillionths of a second, according to new research that could revolutionise energy production.

Physicists from Imperial College London have devised an extremely rapid heating mechanism that they believe could heat certain materials to ten million degrees in much less than a million millionth of a second.

The method, proposed for the first time, could be relevant to new avenues of research in thermonuclear fusion energy, where scientists are seeking to replicate the Sun’s ability to produce clean energy. The heating would be about 100 times faster than rates currently seen in fusion experiments using the world’s most energetic laser system at the Lawrence Livermore National Laboratory in California. Researchers have been using high-power lasers to heat material as part of the effort to create fusion energy for many years.

In the new study, the physicists at Imperial were looking for ways to directly heat up ions – particles which make up the bulk of matter.

When lasers are used to heat most materials, the energy from the laser first heats up the electrons in the target. These in turn heat up the ions, making the process slower than targeting the ions directly. PTI

The team discovered that when a high-intensity laser is fired at a certain type of material, it will create an electrostatic shockwave that can heat ions directly.

“It’s a completely unexpected result. One of the problems with fusion research has been getting the energy from the laser in the right place at the right time. This method puts energy straight into the ions,” said the paper’s lead author, Dr Arthur Turrell.

Normally, laser-induced electrostatic shockwaves push ions ahead of them, causing them to accelerate away from the shockwave but not heat up.

However, using sophisticated supercomputer modelling, the team discovered that if a material contains special combinations of ions, they will be accelerated by the shockwave at different speeds.

This causes friction, which in turn causes them to rapidly heat. They found that the effect would be strongest in solids with two ion types, such as plastics.

The heating is so fast in part because the material targeted is so dense. The ions are squeezed together to almost ten times the usual density of a solid material as the electrostatic  shockwave passes, causing the frictional effect to be much stronger than it would be in a less-dense material, such as a gas.

The technique, if proven experimentally, could be the fastest heating rate ever demonstrated in a lab for a significant number of particles.

The study was published in the journal Nature Communications. PTI

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