Ústav technické a experimentální fyziky Institute of Experimental and Applied Physics

Localization of matter fields and non-Abelian gauge fields on domain walls

NázevTitle
Localization of matter fields and non-Abelian gauge fields on domain wallsLocalization of matter fields and non-Abelian gauge fields on domain walls
Druh výsledkuResult type
Ostatní výsledekOther result
AutořiAuthors
M. Arai, F. Blaschke, M. Eto, N. Sakai
Časopis / citaceJournal / citation
arXiv.org. 2012, hep-th/12(10),
RokYear
2012
JazykLanguage
eng
RIVRIV
RIV/68407700:21670/12:00202153!RIV13-MSM-21670___
ProjektProject
Mezinárodní experiment ATLAS-CERNInternational Experiment ATLAS-CERN; Supersymetrie v teoriích pole a strun a ve fyzice za Standardním modelemSupersymmetry in field and string theories and in physics beyond the Standard Model

AbstraktAbstract

We propose a method for simultaneous localization of non-Abelian gauge fields and matter fields with minimal interaction on domain walls using $U(N)_c$ gauge theory with $SU(N)_{L}times SU(N)_{R}times U(1)_{A}$ flavor symmetry. Localization of non-Abelian fields is achieved using field-dependent gauge coupling. We find that effective Lagrangian up to second order of derivatives for low energy fluctuations resembles a chiral model from hadron physics with additional minimal interactions of pions with localized gauge fields together with nonlinear interactions of moduli fields. This result provides a step towards a realistic model building of brane-world scenario using topological solitons.

We propose a method for simultaneous localization of non-Abelian gauge fields and matter fields with minimal interaction on domain walls using $U(N)_c$ gauge theory with $SU(N)_{L}times SU(N)_{R}times U(1)_{A}$ flavor symmetry. Localization of non-Abelian fields is achieved using field-dependent gauge coupling. We find that effective Lagrangian up to second order of derivatives for low energy fluctuations resembles a chiral model from hadron physics with additional minimal interactions of pions with localized gauge fields together with nonlinear interactions of moduli fields. This result provides a step towards a realistic model building of brane-world scenario using topological solitons.