# Effective Spin-2 Quasi-particles at Linear Dispersive Five-fold   Degenerate Points with Tunable Topological Chern Numbers

**Authors:** Cheng Feng, Qiang Wang, S. N. Zhu, Hui Liu

arXiv: 1905.08435 · 2019-06-26

## TL;DR

This paper proposes a theoretical design for realizing spin-2 quasi-particles at five-fold degenerate points with tunable topological Chern numbers in a cubic lattice system, advancing topological band theory.

## Contribution

It introduces a model with linearly dispersive five-fold degenerate points involving spin-2 vectors and tensors, and demonstrates tunable topological properties via coupling adjustments.

## Key findings

- Calculated Chern numbers for different couplings.
- Designed a lattice model with five internal states.
- Showed tunability of topological invariants.

## Abstract

In this work, which is based on spin-2 vectors and traceless spin-2 tensors, an effective Hamiltonian is constructed with a linearly dispersive five-fold degenerate point with spin-2 vector-momentum couplings. For the model without spin-2 vector-tensor coupling, the topological Chern numbers of five bands are calculated as 4, 2, 0, -2, -4. After including spin-2 vector-tensor coupling, separate topological Chern numbers are obtained for different couplings. A cubic lattice of atoms with five internal states is designed to realize two five-fold degenerate points. The Chern numbers of the bands can be changed by tuning the coupling coefficient. In this work we propose a theoretical design to obtain spin-2 quasi-particles.

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Source: https://tomesphere.com/paper/1905.08435