“Imaging quantum states in two-dimensional materials is a major step forward for quantum technology. Researchers at the University of Bristol have developed a method for imaging quantum states in two-dimensional materials, such as graphene and transition metal dichalcogenides. This breakthrough could help to create more efficient and powerful quantum devices and systems.

By using a technique called quantum-confined Stark effect (QCSE) spectroscopy, the team was able to image quantum states in two-dimensional materials with high spatial resolution. This technique, which uses the electric field generated by a laser to control the energy levels of electrons, enabled them to observe quantum states with unprecedented clarity. This breakthrough is an important step in the development of quantum technology, as it allows scientists to design and build more efficient and powerful quantum devices.”

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source: Phys.org