Magnetized liner inertial fusion
Magnetized liner inertial fusion is an ongoing Z-pinched-fusion power experiment being carried out on the Z [Pulsed Power Facility] at Sandia National Laboratories in New Mexico, United States. It is one example of the broader magneto-inertial fusion approach, which attempts to compress a pre-heated plasma. The goal is to produce fusion conditions without the level of compression needed in the inertial confinement fusion approach, where the required densities reach about 100 times that of lead.
The term MagLIF may also be used more broadly to refer to machines that use the same operating principle as the one at the Z machine. This includes the Primary Test Stand in Mianyang, China.
Description
MagLIF is a method of generating energy by magnetically compressing a cylinder of fusion fuel. First, an axial magnetic field of 10–20 tesla is applied to the fuel. Then, a multi-kilojoule laser shines through the fuel, preheating it to a few million degrees Celsius and turning it into a plasma. Finally, a 100 nanosecond pulse of electric current is driven axially through the metal liner surrounding the fuel. The current induces an intense Z-pinch magnetic field that crushes the liner and fuel.The compression does work to the fuel, heating it to tens of millions of degrees Celsius. Normally the electrons in the plasma would be free to escape, and the ions to a lesser extent, carrying away energy and cooling the plasma. The compression also amplifies the axial magnetic field to thousands of teslas, providing magnetic confinement to the imploded plasma and trapping the fuel and its heat. Ideally, the plasma reaches a high enough temperature and density to undergo fusion burn, releasing energy.
MagLIF has characteristics of both inertial confinement fusion and magnetic confinement fusion, making it an example of magneto-inertial fusion.
In results published in 2012, a computer simulation using the LASNEX code showed that a 70 megaampere facility would provide an energy yield of 1000 times the expended energy, and a 60 megaampere facility would produce a yield of 100 times the expended energy.
Z Pulsed Power Facility
Sandia National Labs is currently exploring the potential for this method to generate energy by utilizing the Z machine. The Z machine is capable of 27 megaamperes and may be capable of producing slightly more than breakeven energy while helping to validate the computer simulations. The Z-machine conducted MagLIF experiments in November 2013 with a view towards breakeven experiments using D–T fuel in 2018.Sandia Labs planned to proceed to ignition experiments after establishing the following:
- That the liner will not break apart too quickly under the intense energy. This has been apparently confirmed by recent experiments. This hurdle was the biggest concern regarding MagLIF following its initial proposal.
- That laser preheating is able to correctly heat the fuel—to be confirmed by experiments starting in December 2012.
- That magnetic fields generated by a pair of coils above and below the hohlraum can serve to trap the preheated fusion fuel and importantly inhibit thermal conduction without causing the target to buckle prematurely—to be confirmed by experiments starting in December 2012.
As of November 2013, the facility at Sandia labs had the following capabilities:
In 2014, the test yielded up to D–D neutrons under the following conditions:
- 10 tesla magnetic field
- 2.5 kilojoule laser
- 19 megaamperes
- D–D fuel
To achieve scientific breakeven, the facility is going through a 5-year upgrade to:
- 30 teslas
- 8 kilojoule laser
- 27 megaamperes
- D–T fuel handling
- 1.2 kilojoule laser
- 18 megaamperes