Project QuMat.1-TUE-2.1C in Pillar 2

PhD student:

Project Leader: Martin Lee

Co-supervisor: Bert Koopmans

In-situ twistronics of 2D materials

Twisting 2D materials to their “magic” state leads to the emergence of correlated states such as superconductivity and topological edge channels. We will develop the quantum twisting microscope which allows simultaneous transport measurements while twisting in-situ to tune the 2D materials with large spin-orbit coupling into their “magic” states.

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