AbstractWe investigate the set of boundary states in the symplectic fermion description of the logarithmic conformal field theory with central charge c=−2. We show that the thus constructed states correspond exactly to those derived under the restrictions of the maximal chiral symmetry algebra for this model, W(2,3,3,3). This connects our previous work to the coherent state approach of Kawai and Wheater
Topological field theory in three dimensions provides a powerful tool to construct correlation funct...
We develop a Coulomb gas formalism for boundary conformal field theory having a $W$ symmetry and ill...
We study the boundary states of (p', p) rational conformal field theories having a W symmetry of the...
AbstractWe investigate the set of boundary states in the symplectic fermion description of the logar...
We study the $c=-2$ model of logarithmic conformal field theory in the presence of a boundary using ...
Starting from first principles, a constructive method is presented to obtain boundary states in conf...
We study two-dimensional conformal field theories generated from a 'symplectic fermion' - a free two...
We present a model-independent study of boundary states in the Cardy case that covers all conformal ...
This thesis studies boundary states in spin conformal field theories in two dimensions, and their co...
We present a construction of boundary states based on the Coulomb-gas formalism of Dotsenko and Fate...
We investigate some aspects of the c=-2 logarithmic conformal field theory. These include the variou...
The boundary theory for the c=-2 triplet model is investigated in detail. In particular, we show tha...
We investigate a novel boundary condition for the bc system with central charge c=-2. Its boundary s...
We set up a strategy for studying large families of logarithmic conformal field theories by using th...
There exist logarithmic CFTs(LCFTs) such as the $c_{p,1}$ models. It is also well known that it gene...
Topological field theory in three dimensions provides a powerful tool to construct correlation funct...
We develop a Coulomb gas formalism for boundary conformal field theory having a $W$ symmetry and ill...
We study the boundary states of (p', p) rational conformal field theories having a W symmetry of the...
AbstractWe investigate the set of boundary states in the symplectic fermion description of the logar...
We study the $c=-2$ model of logarithmic conformal field theory in the presence of a boundary using ...
Starting from first principles, a constructive method is presented to obtain boundary states in conf...
We study two-dimensional conformal field theories generated from a 'symplectic fermion' - a free two...
We present a model-independent study of boundary states in the Cardy case that covers all conformal ...
This thesis studies boundary states in spin conformal field theories in two dimensions, and their co...
We present a construction of boundary states based on the Coulomb-gas formalism of Dotsenko and Fate...
We investigate some aspects of the c=-2 logarithmic conformal field theory. These include the variou...
The boundary theory for the c=-2 triplet model is investigated in detail. In particular, we show tha...
We investigate a novel boundary condition for the bc system with central charge c=-2. Its boundary s...
We set up a strategy for studying large families of logarithmic conformal field theories by using th...
There exist logarithmic CFTs(LCFTs) such as the $c_{p,1}$ models. It is also well known that it gene...
Topological field theory in three dimensions provides a powerful tool to construct correlation funct...
We develop a Coulomb gas formalism for boundary conformal field theory having a $W$ symmetry and ill...
We study the boundary states of (p', p) rational conformal field theories having a W symmetry of the...
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