# Phase Diagram and Quench Dynamics in a Spinful Interacting Kitaev Chain

**Authors:** Gianluca Francica, Paola Gentile, Mario Cuoco

arXiv: 1905.11090 · 2019-12-05

## TL;DR

This paper analyzes an exactly solvable spinful Kitaev chain with interactions, revealing its phase diagram, static and dynamic properties, and out-of-equilibrium behavior after boundary quenches, highlighting ballistic propagation of disturbances.

## Contribution

It introduces an exactly solvable interacting spinful Kitaev chain model and explores its phase diagram, static correlations, and out-of-equilibrium quench dynamics.

## Key findings

- Identifies phase transition to an insulating phase driven by dimerized interactions.
- Demonstrates ballistic propagation of disturbances with different velocities after boundary quenches.
- Provides exact solutions for static and dynamic properties including boundary effects.

## Abstract

We consider an exact solvable interacting spinful Kitaev chain which is a generalization of the Mattis-Nam model. A nearest-neighbor dimerized interaction favoring the production of disjoint molecules drives the quantum phase into an insulating one. The phases are characterized statically and dynamically in terms of magnetization and spin-singlet correlations by using the exact solution. The model is shown to be exactly solvable also in the presence of boundary interactions which are originated from a spin-singlet superconducting pairing and a magnetic field. We exploit the exact solution to investigate the out-of-equilibrium dynamics as due to a quench at the boundary. The propagation of the disturbance in nearest-neighbor magnetic and spin-singlet pairing displays a ballistic behavior for long times with different velocities.

## Full text

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## Figures

5 figures with captions in the complete paper: https://tomesphere.com/paper/1905.11090/full.md

## References

21 references — full list in the complete paper: https://tomesphere.com/paper/1905.11090/full.md

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Source: https://tomesphere.com/paper/1905.11090