Systematic compactification of the two-channel Kondo model. I. Consistent bosonization-debosonization approach and exact comparisons

TL;DR

This paper revisits the compactification of the two-channel Kondo model, emphasizing the importance of consistent bosonization-debosonization methods and providing exact comparisons to validate the approach.

Contribution

It uncovers hidden approximations in the compactification process and demonstrates the necessity of an extended framework for accurate modeling of Kondo systems.

Findings

Identification of hidden approximations in compactification

Full agreement achieved when considering consistency factors

Extension of analysis beyond the Toulouse limit

Abstract

Capitalizing on recent work, that clarifies the consistent use of bosonization-debosonization methods to study Kondo-type quantum impurity models even in nonequilibrium settings, we revisit the compactification procedure of the two-channel Kondo model (by which it is rewritten more ``compactly'' using the single-channel version of the model and exploiting separation and duality between spin and charge) and uncover some hidden approximations that could limit its range of validity. This complements and extends, for two or any even number of channels, beyond previous work on the Toulouse limit of these models, and reinforces the need for the use of an extended framework in these calculations. We carry out a number of exact comparisons between the different models, and show that keeping track of the, so-called, consistency factors leads to full agreement between the compactified and original versions of the model.