Algebraic Scaling of the Kondo Temperature in a Luttinger Liquid

Philip Phillips

arXiv:cond-mat/9409043·cond-mat·May 23, 2007

Algebraic Scaling of the Kondo Temperature in a Luttinger Liquid

Philip Phillips

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TL;DR

This paper explains how the Kondo temperature in a Luttinger liquid scales algebraically by analyzing the conditions for bound state formation, providing a simplified theoretical understanding.

Contribution

It offers a straightforward algebraic explanation for the scaling behavior of the Kondo temperature in Luttinger liquids, linking it to bound state conditions.

Findings

01

Kondo temperature exhibits algebraic scaling in Luttinger liquids

02

Bound state formation conditions determine the scaling behavior

03

Simplified theoretical framework for understanding Kondo physics in 1D systems

Abstract

I show here how the algebraic scaling of the Kondo temperature in a Luttinger liquid can be understood simply from the condition for the existence of the singlet (or triplet) bound state.

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Taxonomy

TopicsAdvanced Thermodynamics and Statistical Mechanics · Quantum and electron transport phenomena · Quantum Information and Cryptography