Topologically electronic state receives great attention during the past decades, owing to their topologically protected metallic edge states. Topological phase transition between nontrivial and trivial states is thus intriguing for not only information storage but also for dissipationless information transport, which is usually driven by pressure or gate voltage. Triggering topological phase transition without physical contact fascinates the scientific community. Due to contrast band topology, the trivial and nontrivial topological materials possess different optical responses. Based on this, a novel non-contacting optical illumination scheme is predicted by first-principles calculations to drive topological phase transition in IV–VI semiconductors.
- Jian Zhou
- Shunhong Zhang
- Ju Li
