Chaos in balanced and unbalanced holographic s+p superconductors

Davood Momeni; Nayereh Majd; Morteza Mohammadzaheri; Phongpichit Channuie; Mudhahir Al Ajmi

doi:10.1016/j.rinp.2019.102449

Chaos in balanced and unbalanced holographic s+p superconductors

Davood Momeni^*, Nayereh Majd, Morteza Mohammadzaheri, Phongpichit Channuie, Mudhahir Al Ajmi

^*Corresponding author for this work

Mechanical and Industrial Engineering

Research output: Contribution to journal › Article › peer-review

1 Citation (Scopus)

Abstract

In this work, we propose a toy model for mixture of superconductors with competitive s and p modes using gauge/gravity duality. We demonstrate that the model undergoes phase transitions with the proper choice of different values for chemical potentials. We consider both balanced and unbalanced cases. We propose that the condensate field in the bulk toy model for a mixing s+p phase of high temperature superconductors undergoes a chaotic phase space scenario. Using a suitable measure function for chaos, we demonstrate the existence of chaotic dynamics via condensate fields. As an alternative method, we also investigate the phase portrait in the extended phase space for the condensates.

Original language	English
Article number	102449
Journal	Results in Physics
Volume	14
DOIs	https://doi.org/10.1016/j.rinp.2019.102449
Publication status	Published - Sept 2019

ASJC Scopus subject areas

Physics and Astronomy(all)

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title = "Chaos in balanced and unbalanced holographic s+p superconductors",

abstract = "In this work, we propose a toy model for mixture of superconductors with competitive s and p modes using gauge/gravity duality. We demonstrate that the model undergoes phase transitions with the proper choice of different values for chemical potentials. We consider both balanced and unbalanced cases. We propose that the condensate field in the bulk toy model for a mixing s+p phase of high temperature superconductors undergoes a chaotic phase space scenario. Using a suitable measure function for chaos, we demonstrate the existence of chaotic dynamics via condensate fields. As an alternative method, we also investigate the phase portrait in the extended phase space for the condensates.",

author = "Davood Momeni and Nayereh Majd and Morteza Mohammadzaheri and Phongpichit Channuie and {Al Ajmi}, Mudhahir",

note = "Funding Information: D. Momeni & M. Al Ajmi would like to acknowledge the support of Sultan Qaboos University under the Internal Grant (IG/SCI/PHYS/19/02). PC is financially supported by the Institute for the Promotion of Teaching Science and Technology (IPST) under the project of the “Research Fund for DPST Graduate with First Placement”, under Grant No. 033/2557 . Publisher Copyright: {\textcopyright} 2019 The Authors",

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AU - Momeni, Davood

AU - Majd, Nayereh

AU - Mohammadzaheri, Morteza

AU - Channuie, Phongpichit

AU - Al Ajmi, Mudhahir

N1 - Funding Information: D. Momeni & M. Al Ajmi would like to acknowledge the support of Sultan Qaboos University under the Internal Grant (IG/SCI/PHYS/19/02). PC is financially supported by the Institute for the Promotion of Teaching Science and Technology (IPST) under the project of the “Research Fund for DPST Graduate with First Placement”, under Grant No. 033/2557 . Publisher Copyright: © 2019 The Authors

PY - 2019/9

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N2 - In this work, we propose a toy model for mixture of superconductors with competitive s and p modes using gauge/gravity duality. We demonstrate that the model undergoes phase transitions with the proper choice of different values for chemical potentials. We consider both balanced and unbalanced cases. We propose that the condensate field in the bulk toy model for a mixing s+p phase of high temperature superconductors undergoes a chaotic phase space scenario. Using a suitable measure function for chaos, we demonstrate the existence of chaotic dynamics via condensate fields. As an alternative method, we also investigate the phase portrait in the extended phase space for the condensates.

AB - In this work, we propose a toy model for mixture of superconductors with competitive s and p modes using gauge/gravity duality. We demonstrate that the model undergoes phase transitions with the proper choice of different values for chemical potentials. We consider both balanced and unbalanced cases. We propose that the condensate field in the bulk toy model for a mixing s+p phase of high temperature superconductors undergoes a chaotic phase space scenario. Using a suitable measure function for chaos, we demonstrate the existence of chaotic dynamics via condensate fields. As an alternative method, we also investigate the phase portrait in the extended phase space for the condensates.

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Chaos in balanced and unbalanced holographic s+p superconductors

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