Conveners
Parallel VI: G5 Strongly Coupled Theories
- Elisabetta Pallante (University of Groningen)
Oleg Antipin
(INFN, Florence)
12/09/2014, 14:00
We study properties of composite operators emerging in nonsupersymmetric, four-dimensional gauge-Yukawa theories with interacting conformal fixed points. The theories investigated are structurally similar to the standard model of particle interactions, but differ from the standard model by developing perturbative interacting fixed points. We investigate the physical properties of the singlet...
Randy Lewis
(York University)
12/09/2014, 14:30
Section G: Strongly Coupled Theories
An overview of recent lattice computations for dark matter will be presented.
Prof.
Adriano Natale
(UFABC/IFT-Unesp)
12/09/2014, 15:00
Section G: Strongly Coupled Theories
[Chiral transition of fundamental and adjoint quarks, published in Phys.Lett.B728, 626 (2014)][1]
[1]: http://www.sciencedirect.com/science/article/pii/S0370269313010174#
The chiral symmetry breaking transition of quarks in the fundamental and adjoint representation is
studied in a model where the gap equation contains two contributions, one containing a confining
propagator and...
Dr
Eigo Shintani
(Mainz)
12/09/2014, 15:20
Section G: Strongly Coupled Theories
We present our investigation of a symmetry on honeycomb lattice. Using the formulation developed recenetly by analogy of staggered fermion formulation, we show the explicit formulation of "hidden" chiral symmetry on honeycomb lattice. We also discuss the possible extension of this formulation to interacting system as an application to Graphene.
