# Possibility of a new order parameter driven by multipolar moment and   Fermi surface evolution in CeGe

**Authors:** Karan Singh, K. Mukherjee

arXiv: 1903.11846 · 2019-03-29

## TL;DR

This study investigates CeGe and suggests a new order parameter driven by multipolar moments and Fermi surface evolution, revealing symmetry changes and a gap opening at low temperatures.

## Contribution

It introduces a novel order parameter in CeGe linked to multipolar moments and Fermi surface changes, supported by experimental and theoretical analysis.

## Key findings

- Presence of a new order parameter around 10.7 K.
- Fermi surface evolution causes a gap opening at 10.7 K.
- Symmetry of magnetic state is preserved below 7.3 K.

## Abstract

Polycrystalline CeGe is investigated by means of DC and AC susceptibility, non-linear DC susceptibility, electrical transport and heat capacity measurements in the low temperature regime. This compound shows two peaks at low magnetic field approximately around 10.7 and 7.3 K due to antiferromagnetic ordering and subsequent spin rearrangement respectively. Investigation of non-linear DC susceptibility reveals a presence of higher order magnetization which results in the development of a new order parameter around 10.7 K. This leads to a lowering of symmetry of the magnetic state. The order parameter increases with decreasing temperature and stabilizes around 7.3 K. Consequently, the symmetry of the magnetic state is preserved below this transition. Heat capacity and resistivity results indicate the presence of a gap opening around 10.7 K on portion of Fermi surface, due to evolution of the Fermi surface. Magnetoresistance behavior and violation of Kohlers rule suggest that the evolution of Fermi surface changes the symmetry of magnetic state. The observation of new order parameter (which is of second order) is also confirmed from the Landau free energy theory.

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Source: https://tomesphere.com/paper/1903.11846