image: By implementing pseudomagnetic field (PMF) in the array with non-Hermitian skin effect (NHSE), the team from Singapore and Hong Kong discovered that the skin states can be suppressed into the bulk. The skin topological area is also suppressed, followed by recovery of flat energy levels (Landau levels).
Credit: ©Science China Press
This study is led by Prof. Baile Zhang (School of Physical and Mathematical Sciences, Nanyang Technological University) and Prof. Haoran Xue (Department of Physics, The Chinese University of Hong Kong). Due to the presence of non-Hermitian components, the wave intensities tend to localize at the system boundary, namely the non-Hermitian skin effect. The skin behaviour is protected by topology, making it insensitive to minor changes. Nevertheless, it has been recently shown that the non-Hermitian skin effect can be suppressed by real magnetic fields.
Zhang, Xue, and Zhang’s graduate student Hau Tian Teo wondered, “can a ‘fake’ magnetic field – pseudomagnetic field – also suppress the non-Hermitian skin effect?” The team then performed theoretical calculations on a two-dimensional lattice array to study the topology and movement of the skin behaviour.
By switching on the pseudomagnetic field, the team discovered that the skin states can be pushed into the bulk. “This movement from skin to bulk can be precisely traced by a theoretically predicted trajectory,” Teo suggests. In addition to the movement, the suppression also reflects in the reduction of topological number.
Although this is a non-Hermitian setting, the team also found that the pseudomagnetic field can also recover the flat energy levels as if it is a Hermitian system. “Together with the precise location of the state, we can even trace its flat and quantized energy levels. This could contribute to the precise localization of states in space and energy,” Xue says.
“These exciting new results provide a time-reversal invariant way to control non-Hermitian systems. As our ‘fake’ magnetic field is unchanged if we reverse the arrow of time, this protocol could be promising in controlling classical wave devices that are able to host the non-Hermitian skin effect but inert to magnetic fields,” Zhang suggests.
The work entitled “Pseudomagnetic suppression of non-Hermitian skin effect” was published in Science Bulletin.
Hau Tian Teo, Subhaskar Mandal, Yang Long, Haoran Xue, Baile Zhang. Pseudomagnetic suppression of non-Hermitian skin effect. Science Bulletin 2024;69(11):
https://www.sciencedirect.com/science/article/pii/S2095927324002573
http://engine.scichina.com/doi/10.1016/j.scib.2024.04.023
Journal
Science Bulletin