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sphaleron

A sphaleron is a static, unstable finite-energy field configuration in the electroweak sector of the Standard Model. It is a saddle point of the energy functional for the SU(2) gauge fields coupled to the Higgs field and marks the top of the energy barrier separating vacua that differ by one unit of Chern-Simons number. Transitions between these vacua are nonperturbative and, due to the chiral anomaly, change baryon and lepton numbers.

The sphaleron is an unstable solution with a single negative mode, and its energy defines the barrier

The concept was introduced in 1984 by Manton and by Klinkhamer and has since become a standard

height,
typically
of
order
10
TeV
in
the
electroweak
theory
(often
quoted
as
about
9–12
TeV
depending
on
parameters).
The
rate
of
transitions
over
the
barrier
is
temperature
dependent:
at
zero
temperature
the
process
is
exponentially
suppressed,
while
at
temperatures
near
or
above
the
electroweak
scale
it
can
proceed
at
a
significant
rate,
enabling
anomalous
B
and
L
violation.
In
the
broken
electroweak
phase,
the
rate
is
further
suppressed
by
a
Boltzmann
factor
exp(-E_sph/T).
Sphaleron
processes
are
thus
central
to
discussions
of
electroweak
baryogenesis
and
the
fate
of
any
pre-existing
baryon
asymmetry,
since
they
violate
B+L
while
conserving
B−L.
description
of
saddle-point
configurations
in
non-Abelian
gauge
theories.