If you think that it never can happen that is what people belive about (TV) sound ,internet, planes etc etc and yes we have material today that can wistand super high temp as when we use plasma to cut metal,the sun is a big Fusion reactors we have fusion reactors that generate power by heating hydrogen plasma to 100 million degrees Celsius. This causes hydrogen isotopes to fuse together and release energy. But the blistering plasma has to be contained within a vessel using a donut-shaped magnetic field, created using several powerful superconducting magnets.
Over time, the reactor's plasma-containing vessel will inevitably be damaged by instabilities known as "edge-localised modes" (ELMs) that occur when hot plasma bursts out of the magnetic field. Unless these ELMs can be controlled, expensive components need to be replaced regularly.
Small currents
Researchers at General Atomics, a company based in San Diego, California, US, discovered a simple way to prevent ELMs from occurring. By using a separate magnetic coil to induce small perturbations in the reactor's main magnetic field, they found they could bleed off enough of the plasma particles to prevent the ELMs from bursting out. The solution was tested at an experimental reactor based in San Diego called the DIII-D National Fusion Facility.
" as you can see this is today in the future anything can happen "
If you think that it never can happen that is what people belive about (TV) sound ,internet, planes etc etc and yes we have material today that can wistand super high temp as when we use plasma to cut metal,the sun is a big Fusion reactors we have fusion reactors that generate power by heating hydrogen plasma to 100 million degrees Celsius. This causes hydrogen isotopes to fuse together and release energy. But the blistering plasma has to be contained within a vessel using a donut-shaped magnetic field, created using several powerful superconducting magnets.
Over time, the reactor's plasma-containing vessel will inevitably be damaged by instabilities known as "edge-localised modes" (ELMs) that occur when hot plasma bursts out of the magnetic field. Unless these ELMs can be controlled, expensive components need to be replaced regularly.
Small currents
Researchers at General Atomics, a company based in San Diego, California, US, discovered a simple way to prevent ELMs from occurring. By using a separate magnetic coil to induce small perturbations in the reactor's main magnetic field, they found they could bleed off enough of the plasma particles to prevent the ELMs from bursting out. The solution was tested at an experimental reactor based in San Diego called the DIII-D National Fusion Facility.
" as you can see this is today in the future anything can happen "