Zimanyi Group
  • Research
    • Projects
    • Papers
    • Talks
  • People
    • G.T. Zimanyi
    • Group
  • Teaching
    • Courses
    • Awards
  • Outreach
    • TEDx Davis
    • Energy Links
Select Page

Disordered Mott-Hubbard Physics in Nanoparticle Solids: Persistent Gap across the Disorder-localized-to-Mott-localized Transition

by Gergely Zimanyi | Sep 1, 2020 | Papers

2020. D. Unruh, A. Camjayi, C. Hansen, J. Bobadilla, M. Rozenberg, G.T. Zimanyi. Disordered Mott-Hubbard Physics in Nanoparticle Solids: Persistent Gap across the Disorder-localized-to-Mott-localized Transition. Arxiv.org 1903.10575.

Recent Posts

  • TRIDENS: Transport in Defected Nanoparticle Solids
  • Disordered Mott-Hubbard Physics in Nanoparticle Solids: Persistent Gap across the Disorder-localized-to-Mott-localized Transition
  • Performance Degradation in aSi/cSi Heterojunction Solar Cells by Glassy Dynamics
  • Atomistic study on the pressure dependence of the melting point of NdFe 12
  • Commensuration effects in layered nanoparticle solids

Zimanyi Research Group

1-530-400-3936
zimanyi@physics.ucdavis.edu

Resources

  • Papers
  • Talks
  • Courses
  • Projects
  • Home » Papers » Disordered Mott-Hubbard Physics in Nanoparticle Solids: Persistent Gap across the Disorder-localized-to-Mott-localized Transition

Contact Us

Disordered Mott-Hubbard Physics in Nanoparticle Solids: Persistent Gap across the Disorder-localized-to-Mott-localized Transition

Home | Privacy | Sitemap | Contact
© Zimanyi Group - UC Davis Physics Research