Abstract
We consider compactified six-dimensional gauged supergravity and find the general warped solution with four-dimensional maximal symmetry. Important features of the solution such as the number and position of singularities are determined by a free holomorphic function. Furthermore, in a particular torus compactification we derive the supergravity coupling of brane fields by the Noether procedure and investigate gravity-mediated supersymmetry breaking. The effective Kaehler potential is not sequestered, yet tree level gravity mediation is absent as long as the superpotential is independent of the radius modulus. (orig.)
Citation Formats
Luedeling, C.
6D supergravity. Warped solution and gravity mediated supersymmetry breaking.
Germany: N. p.,
2006.
Web.
Luedeling, C.
6D supergravity. Warped solution and gravity mediated supersymmetry breaking.
Germany.
Luedeling, C.
2006.
"6D supergravity. Warped solution and gravity mediated supersymmetry breaking."
Germany.
@misc{etde_20781233,
title = {6D supergravity. Warped solution and gravity mediated supersymmetry breaking}
author = {Luedeling, C}
abstractNote = {We consider compactified six-dimensional gauged supergravity and find the general warped solution with four-dimensional maximal symmetry. Important features of the solution such as the number and position of singularities are determined by a free holomorphic function. Furthermore, in a particular torus compactification we derive the supergravity coupling of brane fields by the Noether procedure and investigate gravity-mediated supersymmetry breaking. The effective Kaehler potential is not sequestered, yet tree level gravity mediation is absent as long as the superpotential is independent of the radius modulus. (orig.)}
place = {Germany}
year = {2006}
month = {Jul}
}
title = {6D supergravity. Warped solution and gravity mediated supersymmetry breaking}
author = {Luedeling, C}
abstractNote = {We consider compactified six-dimensional gauged supergravity and find the general warped solution with four-dimensional maximal symmetry. Important features of the solution such as the number and position of singularities are determined by a free holomorphic function. Furthermore, in a particular torus compactification we derive the supergravity coupling of brane fields by the Noether procedure and investigate gravity-mediated supersymmetry breaking. The effective Kaehler potential is not sequestered, yet tree level gravity mediation is absent as long as the superpotential is independent of the radius modulus. (orig.)}
place = {Germany}
year = {2006}
month = {Jul}
}