CDW Order and Superconductivity in the Holstein Model

The Holstein model describes itinerant electrons interacting with local phonon modes coupled to
the electronic site density. We investigate the superconductivity and charge ordering that can result.

Relevant Publications:

[320] Owen Bradley, Benjamin Cohen-Stead, Steven Johnston, Kipton Barros, and Richard T. Scalettar,
Charge order in the kagome lattice Holstein model: A Hybrid Monte Carlo study,
Nature Physics Journal s41535-023-00553-y (2023).
[309] Yuxi Zhang, Chunhan Feng, Rubem Mondaini, George Batrouni, and R.T. Scalettar,
Charge Singlets and Orbital Selective Charge Density Wave Transitions,
Phys. Rev. B106, 115120 (2022).
[301] G. Paleari, F. H\'ebert, B. Cohen-Stead, K. Barros, R.T. Scalettar, and G. Batrouni,
Quantum Monte Carlo study of an anharmonic Holstein model,
Phys. Rev. B103, 195117 (2021).
[300] Owen Bradley, George G. Batrouni, and Richard T. Scalettar,
Superconductivity and charge density wave order in the 2D Holstein model,
Phys. Rev. B103, 235104 (2021).
[297] C. Feng and R.T. Scalettar,
Interplay of Flat Electronic Bands with Holstein Phonons,
Phys. Rev. B102, 235152 (2020).
[292] B. Cohen-Stead, Kipton Barros, Zi Yang Meng, Chuang Chen, and R.T Scalettar,
Langevin Simulations of the Half-Filled Cubic Holstein Model,
Phys. Rev. B102, 161108(R) (2020).
[287] B. Xiao, N.C. Costa, E. Khatami, G.G. Batrouni, and R.T. Scalettar,
Charge Density Wave and Superconductivity in the Disordered Holstein Model,
Phys. Rev. B103, L060501 (2021).
[284] B. Cohen-Stead, N.C. Costa, E. Khatami, and R.T. Scalettar,
Effect of Strain on Charge Density Wave Order in the Holstein Model,
Phys. Rev. B100, 045125 (2019).
[278] Y.X. Zhang, W.T. Chiu, N.C. Costa, G.G. Batrouni, and R.T. Scalettar,
"Charge Order in the Holstein Model on a Honeycomb Lattice",
Phys. Rev. Lett. 122, 077602 (2019).

[273] Chuang Chen, Xiao Yan Xu, Junwei Liu, George Batrouni, Richard Scalettar and Zi Yang Meng,
"Symmetry Enforced Self-Learning Monte Carlo Method Applied to the Holstein Model,"
Phys. Rev. B98, 041102, rapid communication (2018).

[320] Owen Bradley, Benjamin Cohen-Stead, Steven Johnston, Kipton Barros, and Richard T. Scalettar, Charge order in the kagome lattice Holstein model: A Hybrid Monte Carlo study, Nature Physics Journal s41535-023-00553-y (2023).
[309] Yuxi Zhang, Chunhan Feng, Rubem Mondaini, George Batrouni, and R.T. Scalettar, Charge Singlets and Orbital Selective Charge Density Wave Transitions, Phys. Rev. B106, 115120 (2022).
[301] G. Paleari, F. H\'ebert, B. Cohen-Stead, K. Barros, R.T. Scalettar, and G. Batrouni, Quantum Monte Carlo study of an anharmonic Holstein model, Phys. Rev. B103, 195117 (2021).
[300] Owen Bradley, George G. Batrouni, and Richard T. Scalettar, Superconductivity and charge density wave order in the 2D Holstein model, Phys. Rev. B103, 235104 (2021).
[297] C. Feng and R.T. Scalettar, Interplay of Flat Electronic Bands with Holstein Phonons, Phys. Rev. B102, 235152 (2020).
[292] B. Cohen-Stead, Kipton Barros, Zi Yang Meng, Chuang Chen, and R.T Scalettar, Langevin Simulations of the Half-Filled Cubic Holstein Model, Phys. Rev. B102, 161108(R) (2020).
[287] B. Xiao, N.C. Costa, E. Khatami, G.G. Batrouni, and R.T. Scalettar, Charge Density Wave and Superconductivity in the Disordered Holstein Model, Phys. Rev. B103, L060501 (2021).
[284] B. Cohen-Stead, N.C. Costa, E. Khatami, and R.T. Scalettar, Effect of Strain on Charge Density Wave Order in the Holstein Model, Phys. Rev. B100, 045125 (2019).
[278] Y.X. Zhang, W.T. Chiu, N.C. Costa, G.G. Batrouni, and R.T. Scalettar, "Charge Order in the Holstein Model on a Honeycomb Lattice", Phys. Rev. Lett. 122, 077602 (2019).
[273] Chuang Chen, Xiao Yan Xu, Junwei Liu, George Batrouni, Richard Scalettar and Zi Yang Meng, "Symmetry Enforced Self-Learning Monte Carlo Method Applied to the Holstein Model," Phys. Rev. B98, 041102, rapid communication (2018).