Abstract
The present invention is located in the field of topologically protected quantum computing, with particular reference to the implementation of qubits based on Majorana fermions in nanoscopic superconducting structures. This technological field represents an innovative convergence between condensed matter
in physics, quantum computing and superconducting materials engineering. The system object of the present invention operates in a technological domain where quantum hardware based on Majorana fermions is integrated with sophisticated topological protection mechanisms of quantum states. This integration is achieved through the implementation of qubits that exploit topologically protected states within nanoscopic superconducting structures, allowing a coherent manipulation of non-abelian quantum states. This architecture represents a significant advance over conventional quantum systems, introducing a new paradigm of quantum information protection based on fundamental topological principles.
Creative Commons License
This work is licensed under a Creative Commons Attribution-Noncommercial-No Derivative Works 4.0 License.
Recommended Citation
Bernardini, Lorenzo LBN and Origines Technologies, "SYSTEM AND METHOD FOR TOPOLOGICALLY PROTECTED QUANTUM COMPUTING BASED ON MAJORANA FERMIONS IN SUPERCONDUCTING NANOSTRUCTURES WITH INTEGRATED CRYOGENIC CONTROL", Technical Disclosure Commons, (October 24, 2025)
https://www.tdcommons.org/dpubs_series/8785
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