Higgs sunspot
curvature
background
Abelian Higgs sunspot
model
Sun's spacetime manifold
cosmological term
155-159
article
field
Yang-Mills
terms
manifold
potential
en
cosmological constant
semi-metric spacetime
1992-07
amplitude
2021-12-01T19:07
symmetric semi-metric spacetime
complex-valued scalar field
spacetime manifold
massless
1992-07-01
Einstein equations
generalized Einstein equation
sunspot model
metric structure
false
vacuum amplitude
scalar field
symmetric Abelian Higgs sunspot
structure
sunspots
equations
Sun's spacetime
https://doi.org/10.1007/bf01070211
A U(1)-symmetric Yang-Mills-Higgs (i.e., an Abelian Higgs) sunspot's model is recognized to originate from a massless, complex-valued scalar field coupled minimally to electromagnetic gauge potentials in the background of a (globally)conformally symmetric semi-metric spacetime, whose metric structure is described by the generalized Einstein equations with nonvanishing (positive-valued) cosmological constant. It is shown, in particular, that non-linearity (selfcoupling) of the scalar field appears due to a non-zeroness of the cosmological term, whereas its non-zero vacuum amplitude is induced by the (Ricci scalar) curvature of the Sun's spacetime manifold.
spacetime
Conformally symmetric Abelian Higgs sunspot and non-metricity of the Sun's spacetime
articles
https://scigraph.springernature.com/explorer/license/
constants
Higgs (i.e., an Abelian Higgs) sunspot's model
gauge potential
electromagnetic gauge potential
Astronomical Institute, Slovak Academy of Sciences, Tatranská Lomnica, Czechoslovakia
Astronomical Institute, Slovak Academy of Sciences, Tatranská Lomnica, Czechoslovakia
Other Physical Sciences
193
pub.1008769447
dimensions_id
doi
10.1007/bf01070211
0004-640X
Astrophysics and Space Science
Springer Nature
1572-946X
Physical Sciences
Saniga
Metod
Springer Nature - SN SciGraph project
1