National Ignition Facility Takes First Steps Towards Fusion Energy

sciencehabit writes "As it approaches its fifth birthday, the National Ignition Facility (NIF), a troubled laser fusion facility in California, has finally produced some results that fusion scientists can get enthusiastic about. In a series of experiments late last year (abstract 1, abstract 2), NIF researchers managed to produce energy yields 10 times greater than produced before and to demonstrate the phenomenon of self-heating that will be crucial if fusion is to reach its ultimate goal of 'ignition'—a self-sustaining burning reaction that produces more energy than it consumes."

Re:Now that the Voodoo is swept away

The issue is that the previous management were attempting to achieve ignition through an engineering approach. They assumed that the science was well understood and all they needed to do was tweak the knobs and dials on the laser until they got the result they wanted.

When this spectacularly failed to work there was a change in leadership and the new guys are actually doing experiments rather than just firing the 'ignition' capsule over and over.

Re:if this keeps up...

[nojayuk]

Nobody really knows since nobody's ever got a significant amount of fusion to work for long enough to figure out the gas mileage, so to speak.

The golden chalice is deuterium-deuterium (D-D) fusion which can be done with just heavy water, D2O which is expensive but abundant (it makes up about 1 part in 40 million of water molecules), it just has to be separated out from regular water using centrifuges or other processes. Assuming a lot of fusion power plants are built then there would be be cost savings per tonne of deuterium produced the same way uranium mining and processing is a lot cheaper today than it was during WWII. D-D fusion is hard though.

The easier road to fusion is deuterium-tritium, so-called D-T fusion but tritium is only produced in small amounts in nuclear fission reactors. There is a way to produce tritium in a working fusion reactor by using a blanket of lithium to absorb neutrons but it's very experimental and unproven. ITER is being built in part to test the idea of Li breeding of tritium and it's likely JET will also be used to test the concept, it's being repurposed as a materials testbed for ITER.

Re:Not going to take them long now...

[Waffle+Iron]

The GP was correct. The vast majority of weapons that were actually built obtained most of their yield from fission. The exceptions were mainly tests and oddities like neutron bombs.

You don't get any fusion yield without surrounding it with something heavy to squeeze it, so the weight of the actual fusion fuel is irrelevant. They figured that if they needed something heavy in the bomb anyway, it might as well be uranium because that gave 2X to 3X the bang for free.

Re:Reddit title more irresponsible, but better quo

[Jane+Q.+Public]

"Not sure if this is a rehash of the same fusion discussion here a few weeks/months ago..."

In part.

The NIF did manage to spark a fusion reaction that actually output more energy than was input to the fuel pellet.

However, it is important to note that it was not more energy than the total input to the system. The energy used to power the lasers was still more than the energy of the fusion reaction. So it wasn't "break even".