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takyon writes:

A practically useless form of quark fusion releases more energy than deuterium-tritium fusion:

A pair of physicists discovered a new kind of fusion that occurs between quarks – and they were so concerned with its power they almost didn't publish the results. [...] "I must admit that when I first realised that such a reaction was possible, I was scared," Marek Karliner of Tel Aviv University told Rafi Letzter at Live Science. "But, luckily, it is a one-trick pony."

[...] If we take deuterium (proton plus a neutron) and add energy to squish it against some tritium (proton plus two neutrons), it will scramble to make helium (two protons and two neutrons). That last neutron runs from the scene of the crime. For your effort, you get 17.6 megaelectron volts and an H-bomb.

Karliner and Letzter calculated the fusing of the charm quarks in the recent LHC discovery would release 12 megaelectron volts. Not bad for two itty-bitty particles. But if we were using another pair of heavy quarks? Bottom quarks, for example? That becomes an astonishing 138 megaelectron volts.

[...] Unlike atoms, bottom quarks can't be shoved into a flask and packed into a shell. They exist for something in the order of a picosecond following atomic wrecks inside particle accelerators, before transforming into the much lighter up quark. That leaves quark bombs and quark fusion drives to science fiction authors, and, thankfully, well out of the hands of rogue nations and terrorist cells.

Just what I needed for my pure fusion weapon design.

Quark-level analogue of nuclear fusion with doubly heavy baryons (DOI: 10.1038/nature24289) (DX)

Original Submission