Not exact matches
A decade later, physicists devised a
theory for the
strong nuclear force, which binds protons and neutrons in the atomic nucleus.
Such particles are expected to exist according to the
theory of the
strong nuclear force, which bundles quarks together into larger particles.
What they have been trying to construct is a unified
theory of the four forces — gravity, electromagnetism, and the
strong and weak
nuclear forces.
In that case, the asymmetry is driven by interactions governed by the
strong nuclear force — as the
theory developed back in 2011 correctly described.
This
theory posits a particle made of two «exotic» quarks — which are not currently part of the standard model — held together by a force similar to the
strong nuclear force, says co-author Kohsaku Tobioka of the Weizmann Institute of Science, Rehovot, Israel, and Tel - Aviv University.
In the past methods developed to understand partitions have later been applied to physics problems such as the
theory of the
strong nuclear force or the entropy of black holes.
The discovery of the Higgs boson represents the final piece of the puzzle in the Standard Model of particle physics, a
theory that describes how three of the four fundamental forces — electromagnetic, weak and
strong nuclear forces — interact at the subatomic level (but does not include gravity).
[2] Similar political
strong - arm tactics also hobbled the Soviet
nuclear physics program, requiring Soviet scientists to follow only
theories that had the Communist Party's blessing.