>
Fa   |   Ar   |   En
   Self-dual configurations in Abelian Higgs models with k -generalized gauge field dynamics  
   
نویسنده Casana R. ,Cavalcante A. ,Hora E. da
منبع journal of high energy physics - 2016 - دوره : 2016 - شماره : 12 - صفحه:1 -23
چکیده    We have shown the existence of self-dual solutions in new maxwell-higgs scenarios where the gauge field possesses a k-generalized dynamic, i.e., the kinetic term of gauge field is a highly nonlinear function of f μν f μν . we have implemented our proposal by means of a k-generalized model displaying the spontaneous symmetry breaking phenomenon. we implement consistently the bogomol’nyi-prasad-sommerfield formalism providing highly nonlinear self-dual equations whose solutions are electrically neutral possessing total energy proportional to the magnetic flux. among the infinite set of possible configurations, we have found families of k-generalized models whose self-dual equations have a form mathematically similar to the ones arising in the maxwell-higgs or chern-simons-higgs models. furthermore, we have verified that our proposal also supports infinite twinlike models with |ϕ|4-potential or |ϕ|6-potential. with the aim to show explicitly that the bps equations are able to provide well-behaved configurations, we have considered a test model in order to study axially symmetric vortices. by depending of the self-dual potential, we have shown that the k-generalized model is able to produce solutions that for long distances have a exponential decay (as abrikosov-nielsen-olesen vortices) or have a power-law decay (characterizing delocalized vortices). in all cases, we observe that the generalization modifies the vortex core size, the magnetic field amplitude and the bosonic masses but the total energy remains proportional to the quantized magnetic flux.
کلیدواژه Duality in Gauge Field Theories ,Field Theories in Lower Dimensions ,Solitons Monopoles and Instantons ,Spontaneous Symmetry Breaking
آدرس Universidade Federal do Maranhão, Departamento de Física, Brazil, Universidade Federal do Maranhão, Departamento de Física, Brazil, Universidade Federal do Maranhão, Departamento de Física, Brazil
 
     
   
Authors
  
 
 

Copyright 2023
Islamic World Science Citation Center
All Rights Reserved