CORDIS Project
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This project addresses the challenge of decoherence in quantum computing by developing topological crystalline insulator nanowires. These materials aim to stabilize Majorana modes for robust quantum bits, facilitating groundbreaking experiments in quantum teleportation and advancing the field of quantum computation.
The key challenge in quantum computation is decoherence - the collapse of a quantum state due to local perturbations.
In this proposal we address this challenge by developing a new nanomaterials system, which forms the core of a future topological quantum computer.
In a topological quantum bit, information is encoded in Majorana modes, which are topologically protected by a local symmetry and therefore have long coherence times.In this project we develop a new state of matter -topological crysta…
TECHNISCHE UNIVERSITEIT EINDHOVEN
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