We investigate the effects of the curved geometry on a massless relativistic electron
constrained to a graphene strip with a Möbius strip shape. The anisotropic and parity …

We investigate the effects of nonuniform uniaxial strain and triaxial strain on the α-T 3 lattice.
The analytical expressions of the pseudo-Landau levels (pLLs) are derived based on low …

Nonuniform elastic strain is known to induce pseudo-Landau levels in Dirac materials. But
these pseudo-Landau levels are hardly resolvable in an analytic fashion when the strain is …

The pseudomagnetic field created by a nonuniform uniaxial strain is introduced into the
antiferromagnetic honeycomb nanoribbons. The formation of magnon pseudo-Landau …

The recently discovered Van der Waals antiferromagnets have suffered from the lack of a
comprehensive method to study their magnetic properties. Here, we propose an ac intrinsic …

The honeycomb antiferromagnet under a triaxial strain is studied using the quantum Monte
Carlo simulation. The strain dimerizes the exchange couplings near the corners, thus …

Collinear magnets in honeycomb lattices under the action of time-dependent strains are
investigated. Given the limits of high-frequency periodically varying deformations, we derive …

We theoretically investigate the magnetoacoustic oscillation and the attenuation oscillation
of long-wavelength acoustic phonons in nodal-line semimetals. Because of the electron …

Elastic strain can displace the massless Dirac fermions in monolayer graphene in a space-
dependent fashion, similar to the effect of an external magnetic field, thus giving rise to …

We have investigated the effects of strain on two-dimensional square lattices and examined
the methods for inducing pseudomagnetic fields. In both the columnar and staggered π-flux …