Ground state, magnetization process and magnetocaloric effect of the exactly tractable spin-electron tetrahedral chain

TL;DR

This paper exactly analyzes a hybrid spin-electron tetrahedral chain, revealing its ground states, magnetization behavior, and magnetocaloric properties, with implications for low-temperature magnetic refrigeration.

Contribution

It provides an exact solution for a hybrid spin-electron chain, detailing its magnetic phases and magnetocaloric effects, which was not previously achieved.

Findings

System exhibits ferromagnetic or antiferromagnetic ground states.

Enhanced magnetocaloric effect observed during adiabatic demagnetization.

Potential application in low-temperature magnetic refrigeration.

Abstract

A hybrid spin-electron system on one-dimensional tetrahedral chain, in which the localized Ising spin regularly alternates with the mobile electron delocalized over three lattice sites, is exactly investigated using the generalized decoration-iteration transformation. The system exhibits either the ferromagnetic or antiferromagnetic ground state depending on whether the ferromagnetic or antiferromagnetic interaction between the Ising spins and mobile electrons is considered. The enhanced magnetocaloric effect during the adiabatic demagnetization suggests a potential use of the investigated system for low-temperature magnetic refrigeration.