- In physics, and
specifically in
quantum field theory, a
bispinor is a
mathematical construction that is used to
describe some of the
fundamental particles...
-
particles such as photons, and as a
spinor or
bispinor for
other particles such as electrons.
Spinors and
bispinors behave similarly to vectors: they have definite...
-
space of
bispinors, Ux , is also ****umed at
every point in spacetime,
endowed with the
bispinor representation of the
Lorentz group. The
bispinor fields...
- equation, and is a
certain combination of two Weyl spinors, specifically, a
bispinor that
transforms "spinorially"
under the
action of the
Lorentz group. Dirac...
-
functions in the
Dirac theory are
vectors of four
complex numbers (known as
bispinors), two of
which resemble the
Pauli wavefunction in the non-relativistic...
- numbers. (1/2, 0) ⊕ (0, 1/2) is the
bispinor representation. See also
Dirac spinor and Weyl
spinors and
bispinors below. (1, 1/2) ⊕ (1/2, 1) is the...
- {\displaystyle \gamma ^{\mu }} are
Dirac matrices. ψ {\displaystyle \psi } a
bispinor field of spin-1/2
particles (e.g. electron–positron field). ψ ¯ ≡ ψ † γ...
-
Lorentz group,
including the
bispinor representation. In (T2) one
simply replaces all
occurrences of Λ by the
bispinor representation Π(Λ), u ⊗ v → Π...
- four-component
object in
special relativity that is not a four-vector, see
bispinor. It is
similarly defined, the
difference being that the transformation...
- 3-vector, the
space on
which the
fundamental representation of SU(3) acts), a
bispinor (Dirac 4-spinor), an nf vector, and a Gr****mann variable. Thus, the composition...
