One of the goals that scientists around the world have been working on for many years is to clean and cheap fusion energy. The shift to fusion energy is believed to be the key to helping reverse the old power generation methods to produce climate change. Researchers at the Massachusetts Institute of Technology and the Commonwealth Fusion System are working to accelerate the development of fusion energy using new technologies. The technology they plan to use is a new high-temperature superconductor that can be used to make magnets that generate stronger magnetic fields.
A stronger magnetic field is needed to make fusion power a reality. Scientists plan to use new technology to build what they believe will be the world's first fusion experiment to produce a net energy gain, called SPARC. Fusion reactions have been generated in modern fusion experiments, but so far they have not produced a net energy gain. Scientists need stronger magnets to boost the magnetic field generated in fusion devices to further keep the hot ionized gas (called plasma) isolated and isolated from ordinary substances.
The stronger the magnetic field, the better the plasma is isolated from ordinary matter and requires less space to hold the plasma. Basically stronger magnets mean smaller, faster and cheaper fusion generators. The breakthrough technology here comes from high-temperature superconducting materials. Normally, superconductors need to be very cold to operate, but the new compounds researchers are using allow superconductors to function at higher temperatures.
The new superconducting materials are made in the form of ribbons, which can make higher performance magnets. The problem now is that magnets made from these materials are now too small for fusion splicers. Before the new SPARC fusion experiment begins, the new superconducting material must be incorporated into the larger, stronger magnets required by the fusion device. Magnet development will appear first, and then SPARC fusion experiments will begin. SPARC will be a tokamak fusion device similar to other fusion machines now in operation. Researchers hope to bring SPARC into operation by 2025.
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