# Topological Quantum Phase Transition from Fermionic Integer Quantum Hall   Phase to Bosonic Fractional Quantum Hall Phase through P-Wave Feshbach   Resonance

**Authors:** Shiuan-Fan Liou, Zi-Xiang Hu, Kun Yang

arXiv: 1704.05035 · 2017-06-14

## TL;DR

This study investigates quantum phase transitions in a fermionic atom system under p-wave Feshbach resonance, revealing a transition from fermionic integer quantum Hall to bosonic fractional quantum Hall phases, with an intermediate coherent superposition phase.

## Contribution

It demonstrates the existence of a new intermediate phase and characterizes the order of phase transitions in a fermionic system with p-wave pairing.

## Key findings

- Second order transition from fermionic IQH to intermediate phase.
- First order transition from intermediate phase to bosonic FQH.
- Emergence of a coherent superposition phase at strong pairing.

## Abstract

We use exact diagonalization to study the quantum phases and phase transitions when a single species of fermionic atoms at Landau level filling factor $\nu_f = 1$ in a rotating trap interact through a p-wave Feshbach resonance. We show that under weak pairing interaction, the system undergoes a second order quantum phase transition from $\nu_{f} = 1$ fermionic integer quantum Hall (FIQH) state at positive detuning, to $\nu_{b} = \frac{1}{4}$ bosonic fractional quantum Hall (BFQH) state at negative detuning. However, when the pairing interaction increases, a new phase between them emerges, corresponding to a fraction of fermionic atoms stay in a coherent superposition of bosonic molecule state and an unbound pair. The phase transition from FIQH phase to the new phase is of second order and that from the new phase to BFQH phase is of first order.

## Full text

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## Figures

6 figures with captions in the complete paper: https://tomesphere.com/paper/1704.05035/full.md

## References

16 references — full list in the complete paper: https://tomesphere.com/paper/1704.05035/full.md

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Source: https://tomesphere.com/paper/1704.05035