“Phase” fluctuations of moiré superlattices
- Event Type
- Seminar/Symposium
- Sponsor
- Department of Physics
- Location
- 190 ESB
- Date
- Jun 20, 2022 - Jun 21, 2022 10:00 am 5:00 pm
- Speaker
- Hector Ochoa De Eguileor Romillo
- Contact
- Marjorie Gamel
- mgamel@illinois.edu
- Phone
- 217-333-3762
- Views
- 74
- Originating Calendar
- Physics - Departmental Events
In this talk I will argue that the long-wavelength lattice dynamics of moiré patterns is more akin to an amorphous solid than to a crystal. The reason is the existence of soft collective modes, called phasons, associated with the sliding motion of one layer with respect to the other [1]. At finite temperature this motion necessarily involves friction, microscopically, due to anharmonic coupling with optical phonons. Consequently, phasons are overdamped at low frequencies, reflecting that in this regime the moiré pattern relaxes via internal diffusive processes rather than by collective oscillations. This reflects, more broadly, that the "acoustic phonons" of the moiré superlattice are not protected by a conservation law [2]. I will discuss physical consequences of this observation for twisted bilayer graphene, including the widespread presence of “twist angle disorder”. This is governed by the collective pinning of stacking domain walls caused by lattice relaxation. The phason spectrum acquires then a gap, which displays a universal dependence on the twist-angle variance.
[1] H. Ochoa, Phys. Rev. B 100, 155426 (2019).
[2] H. Ochoa and R. M. Fernandes, Phys. Rev. Lett. 128, 065901 (2022).