- In
theoretical physics, the
superpotential is a
function in
supersymmetric quantum mechanics.
Given a
superpotential, two "partner potentials" are derived...
- In
general relativity, the
Komar superpotential,
corresponding to the
invariance of the Hilbert–Einstein
Lagrangian L G = 1 2 κ R − g d 4 x {\displaystyle...
-
superfield (composed of a
complex scalar and a
spinor fermion)
whose cubic superpotential leads to a
renormalizable theory. It is a
special case of 4D N = 1 global...
- bosonic. As
complex representations: A
generic invariant renormalizable superpotential is a (complex) S U ( 5 ) × Z 2 {\displaystyle SU(5)\times \mathbb {Z}...
-
symmetry As
complex representations: A
generic invariant renormalizable superpotential is a (complex) SU(5) × U(1)χ × Z2
invariant cubic polynomial in the...
-
symmetry As
complex representations: A
generic invariant renormalizable superpotential is a (complex) SU(4) × SU(2)L × SU(2)R and U(1)R
invariant cubic polynomial...
-
theory primarily fixed by
three functions: the Kähler potential, the
superpotential, and the
gauge kinetic matrix. Many
common models of
supersymmetry are...
-
corresponding conserved current J μ {\displaystyle J^{\mu }}
takes a
particular superpotential form J μ = W μ + d ν U ν μ {\displaystyle J^{\mu }=W^{\mu }+d_{\nu }U^{\nu...
-
determined by
three functions,
those being the Kähler potential, the
superpotential, and the
gauge kinetic matrix. Many of its
properties are
strongly linked...
- X)/3}+W(X)\right]+c.c.}
where K is the Kähler
potential and W is the
superpotential, and E {\displaystyle {\mathcal {E}}} is the
chiral volume factor. Unlike...