Add to ORKGI agree with the authors of hep-th/0211149 that the claim made in Phys.Lett. B542, 282 (2002) is incorrect and that the derivation of its main formula, although correct, contains two compensating errors. In this reply the main formula of Phys.Lett. B542, 282 (2002) is rederived. This new derivation shows that not only the energy momentum cut off regularization method still works in the calculation of the soliton quantum mass corrections, but also that the so called mode number regularization emerges naturally from it
We develop an unambiguous and practical method to calculate one-loop quantum corrections to the ener...
We point out how some mathematically incorrect passages in the paper of M. Reuter can be formulated ...
We analyze the perturbative quantization of the spectral action in noncommutative geometry and estab...
We refute the claim that previous works on the one-loop quantum mass of solitons had incorrectly dro...
The bare one loop soliton quantum mass corrections can be expressed in two ways: as a sum over the z...
We compute semiclassical corrections to the energy density of kinks in $\phi^4$ theory and of solito...
We fix the long-standing ambiguity in the 1-loop contribution to the mass of a 1+1-dimensional super...
We present a simple algorithm to implement the generalized derivative expansion introduced previousl...
We demonstrate an unambiguous and robust method for computing fermionic corrections to the energies ...
We re·examine the consistency of the supersymmetry algebra in the soliton sector for 1 + 1 dimension...
Direct calculation of the one-loop contributions to the energy density of bosonic and supersymmetric...
We revisit the issue of the soliton mass in two-dimensional models with N =1 supersymmetry. The supe...
The solitons of the SO(3) gauged Skyrme model with no pion-mass potential were studied in Refs. \cit...
Abstract We consider one loop quantum corrections to soliton mass for the N = 1 $$ \mathcal{N}=1 $$ ...
The quantum properties of solitons at one loop can be related to phase shifts of waves on the solito...
We develop an unambiguous and practical method to calculate one-loop quantum corrections to the ener...
We point out how some mathematically incorrect passages in the paper of M. Reuter can be formulated ...
We analyze the perturbative quantization of the spectral action in noncommutative geometry and estab...
We refute the claim that previous works on the one-loop quantum mass of solitons had incorrectly dro...
The bare one loop soliton quantum mass corrections can be expressed in two ways: as a sum over the z...
We compute semiclassical corrections to the energy density of kinks in $\phi^4$ theory and of solito...
We fix the long-standing ambiguity in the 1-loop contribution to the mass of a 1+1-dimensional super...
We present a simple algorithm to implement the generalized derivative expansion introduced previousl...
We demonstrate an unambiguous and robust method for computing fermionic corrections to the energies ...
We re·examine the consistency of the supersymmetry algebra in the soliton sector for 1 + 1 dimension...
Direct calculation of the one-loop contributions to the energy density of bosonic and supersymmetric...
We revisit the issue of the soliton mass in two-dimensional models with N =1 supersymmetry. The supe...
The solitons of the SO(3) gauged Skyrme model with no pion-mass potential were studied in Refs. \cit...
Abstract We consider one loop quantum corrections to soliton mass for the N = 1 $$ \mathcal{N}=1 $$ ...
The quantum properties of solitons at one loop can be related to phase shifts of waves on the solito...
We develop an unambiguous and practical method to calculate one-loop quantum corrections to the ener...
We point out how some mathematically incorrect passages in the paper of M. Reuter can be formulated ...
We analyze the perturbative quantization of the spectral action in noncommutative geometry and estab...