Science says that the Higgs field is like a pencil that is standing on its
point. Just the smallest perturbation can cause the Higgs field to fail.
This twisty nature of the Higgs field could be the mechanism behind all the
over-unity systems that have shown up over the years. The Higgs mode is a
new behavior seen in condensed matter systems. The “Higgs Mode,” otherwise
known as the Higgs amplitude mode, is seen as a close relative to the Higgs
boson. Since the Higgs boson was first theorized in the 1960s, the first
physical discovery came in 2012, and new quantum phenomena have since been
detected. In this post, we look at the new quantum state known as the Higgs
mode, the materials that the Higgs mode is found in and the Higgs Boson
itself. The Higgs amplitude mode is a quantum phenomenon seen in materials
and occurs when the magnetic field of its electrons fluctuate in a way
similar to that of a Higgs boson. The materials that exhibit this
phenomenon can do so because the crystal structure of the material enables
the electrons to behave in such a way. When the Higgs mode presents itself
in these materials, the material is often undergoing a quantum phase
transition. The Higgs mode has been detected in many different systems,
including in ultracold atomic gases, disordered superconductors, and
dimerized quantum magnets. However, in many cases, the Higgs mode is
unstable and decays. As such, it has only been reported in a handful of
publications. However, some systems can support these quantum effects
without decaying. The earliest experimental observation was seen in the
Raman scattering of a superconducting charge-density wave compound. The
Raman spectra found an unexpected peak that was later characterized as the
presence of a Higgs mode. In a system where the Higgs mode is presented,
the Higgs field in that system can be made to fail, in effect, the system
topples the Higgs field inside that system. When the Higgs field fails, the
forces of nature revert back to the way they were before the Higgs field
manifested in the universe. That time is about 10^-43 seconds after the big
bang. All sorts of weird and unworldly behaviors then developed in those
Higgs mode systems
