ICTS:29178

CT- Controlling the Particle-hole symmetry in fractional Quantum Hall state in ABA trilayer graphene.

APA

(2024). CT- Controlling the Particle-hole symmetry in fractional Quantum Hall state in ABA trilayer graphene.. SciVideos. https://youtube.com/live/8po0adE6hE8

MLA

CT- Controlling the Particle-hole symmetry in fractional Quantum Hall state in ABA trilayer graphene.. SciVideos, Jul. 25, 2024, https://youtube.com/live/8po0adE6hE8

BibTex

          @misc{ scivideos_ICTS:29178,
            doi = {},
            url = {https://youtube.com/live/8po0adE6hE8},
            author = {},
            keywords = {},
            language = {en},
            title = {CT- Controlling the Particle-hole symmetry in fractional Quantum Hall state  in ABA trilayer graphene.},
            publisher = {},
            year = {2024},
            month = {jul},
            note = {ICTS:29178 see, \url{https://scivideos.org/icts-tifr/29178}}
          }
          
Simrandeep Kaur
Talk numberICTS:29178

Abstract

In this talk, I will present a detailed experimental study of the particle- hole (PH) symmetry of the the abelian and a putative non-abelian Fractional Quantum Hall (FQH) state about half filling in a multiband system. Specifically, we focus on the lowest Landau level of the monolayer-like band of Bernal stacked trilayer graphene (TLG). In pristine TLG, the excitation energy gaps, Lande g factor, effective mass, and disorder broadening of the FQH states is the same as their hole-
conjugate counterpart. This precise PH symmetry stems from the lattice mirror symmetry that precludes Landau-level mixing. Introducing a non- zero displacement field D disrupts this mirror symmetry, facilitating the interaction and hybridization between the NM = 0 of monolayer-like and NB = 2 bilayer-like Landau levels. This band hybridization eventually leads to a violation of the particle-hole symmetry of the FQH states. We find the one-third and two-fifth FQH states to be more robust against Landau level m...