Add to ORKGIn the context of canonical quantum gravity in terms of Ashtekar\u27s new variables, it is known that there exists a state that is annihilated by all the quantum constraints and that is given by the exponential of the Chern-Simons form constructed with the Asthekar connection. We make a first exploration of the transform of this state into the spin-network representation of quantum gravity. The discussion is limited to trivalent nets with planar intersections. We adapt an invariant of tangles to construct the transform and study the action of the Hamiltonian constraint on it. We show that the first two coefficients of the expansion of the invariant in terms of the inverse cosmological constant are annihilated by the Hamiltonian constraint. ...
Some time ago it was conjectured that the coefficients of an expansion of the Jones polynomial in te...
We show that Vassiliev invariants of knots, appropriately generalized to the spin network context, a...
We explicitly construct and characterize all possible independent loop states in 3+1 dimensional loo...
In the context of canonical quantum gravity in terms of Ashtekar's new variables, it is known that t...
We find a consistent formulation of the constraints of quantum gravity with a cosmological constant ...
We describe a deformation of the observable algebra of quantum gravity in which the loop algebra is ...
We apply the ideas of Alvarez and Labastida to the invariant of spin networks defined by Witten and ...
We generalize the idea of Vassiliev invariants to the spin network context, with the aim of using th...
We show that the path integral for the three-dimensional SU(2) BF theory with a Wilson loop or a spi...
We study the invariants of spin networks embedded in a three-dimensional manifold which are based on...
We introduce a new basis on the state space of non-perturbative quantum gravity. The states of this ...
We study several aspects of the canonical quantization of supergravity in terms of the Ashtekar vari...
We examine the status of the Chern-Simons (or Kodama) state from the point of view of a formulation ...
We investigate the quantization and applications of Chern-Simons theories to several systems of inte...
Chern-Simons theory is a pure gauge theory in three dimensions; this model is interesting not only p...
Some time ago it was conjectured that the coefficients of an expansion of the Jones polynomial in te...
We show that Vassiliev invariants of knots, appropriately generalized to the spin network context, a...
We explicitly construct and characterize all possible independent loop states in 3+1 dimensional loo...
In the context of canonical quantum gravity in terms of Ashtekar's new variables, it is known that t...
We find a consistent formulation of the constraints of quantum gravity with a cosmological constant ...
We describe a deformation of the observable algebra of quantum gravity in which the loop algebra is ...
We apply the ideas of Alvarez and Labastida to the invariant of spin networks defined by Witten and ...
We generalize the idea of Vassiliev invariants to the spin network context, with the aim of using th...
We show that the path integral for the three-dimensional SU(2) BF theory with a Wilson loop or a spi...
We study the invariants of spin networks embedded in a three-dimensional manifold which are based on...
We introduce a new basis on the state space of non-perturbative quantum gravity. The states of this ...
We study several aspects of the canonical quantization of supergravity in terms of the Ashtekar vari...
We examine the status of the Chern-Simons (or Kodama) state from the point of view of a formulation ...
We investigate the quantization and applications of Chern-Simons theories to several systems of inte...
Chern-Simons theory is a pure gauge theory in three dimensions; this model is interesting not only p...
Some time ago it was conjectured that the coefficients of an expansion of the Jones polynomial in te...
We show that Vassiliev invariants of knots, appropriately generalized to the spin network context, a...
We explicitly construct and characterize all possible independent loop states in 3+1 dimensional loo...