-
baryons and many
atoms and nuclei.
Fermions differ from bosons,
which obey Bose–Einstein statistics. Some
fermions are
elementary particles (such as electrons)...
-
Dirac fermion,
which describes fermions that are not
their own antiparticles. With the
exception of neutrinos, all of the
Standard Model fermions are known...
-
particle physics, all
fermions in the
standard model have
distinct antiparticles (perhaps
excepting neutrinos) and
hence are
Dirac fermions. They are named...
-
composite fermions.
These oscillations arise from the
quantization of the
semiclassical cyclotron orbits of
composite fermions into
composite fermion Landau...
- In
quantum field theory,
fermions are
described by
anticommuting spinor fields. A four-
fermion interaction describes a
local interaction between four...
-
discretized Dirac fermions in d{\displaystyle d}
Euclidean dimensions, each
fermionic field results in 2d{\displaystyle 2^{d}}
identical fermion species, referred...
-
other being fermions,
which have odd half-integer spin (1⁄2, 3⁄2, 5⁄2, ...).
Every observed subatomic particle is
either a
boson or a
fermion. Some bosons...
- then
properly be
called fermions;
fermions have the
algebraic qualities of spinors. By
general convention, the
terms "
fermion" and "spinor" are often...
-
Fermi gas is an
idealized model, an
ensemble of many non-interacting
fermions.
Fermions are
particles that obey Fermi–Dirac statistics, like electrons, protons...
-
distinct particles—twelve
fermions and five bosons. As a
consequence of
flavor and
color combinations and antimatter, the
fermions and
bosons are
known to...