TOPOLOGICAL QUANTUM ELECTRONICS LABORATORY

Anh Lab

Where future materialises

Welcome to
Anh Lab!

Opening up a new future for semiconductors at the forefront of quantum technology and material science

At Anh Lab, we are interested in integrating dissimilar material systems using state-of-the-art epitaxial crystal growth techniques, and by that bridging different research fields. Crossing many fields such as solid-state physics, magnetism, superconducting physics, topological physics, quantum information, and semiconductor devices, we put ourselves at the unexplored forefront of material and quantum sciences and technologies, with curious eyes and open minds.


Currently, our focus is to integrate “magnetism”, “superconductivity” and “topology” to all-in-one semiconductor platforms, using nanoscale semiconductor/ferromagnet/superconductor hybrid structures. These integrated material platforms would pave new ways to fundamental technologies for ultra-low power-consumption electronics and fault-tolerant quantum information.

Lab leader

Assoc. Prof. Le Duc Anh

Department of Electrical Engineering and Information Systems, The University of Tokyo

News & Highlights

The latest industry news, interviews, technologies, and resources.

A New Material Platform for Topological Quantum Circuits Realized

Research Blogs​

The latest industry news, interviews, technologies, and resources.

Research

How fast one can magnetize a magnetic material is an essentially important question from the viewpoints of both fundamental solid-state physics and practical application to ultrafast information processing.

Research

A new phenomenon found in hidden edge channels of a mainstream semiconductor spurs fundamental interests and challenges.

Related Links

Our partners, sponsors and co-operators

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