MUMBAI, India, May 1 -- Intellectual Property India has published a patent application (202641049725 A) filed by Sr University, Warangal, Telangana, on April 18, for 'hybrid quantum-nanomaterial platform for scalable quantum computing architectures.'
Inventor(s) include Dr. E. Purushotham; and Mr. Endla Akhil Balaji.
The application for the patent was published on May 1, under issue no. 18/2026.
According to the abstract released by the Intellectual Property India: "The current invention is associated with Hybrid QuantumNanomaterial Platform to Scalable Quantum Computing Architectures; this is a combination of nano materials and quantum computing materials to improve qubit performance, stability and scalability. The invention is in the domain of quantum information science and nanotechnology where the engineered nanostructures are being used to enhance the efficiency and reliability of quantum computation. The platform is a combination of quantum processing units with nanomaterials that include graphene, carbon nanotubes, semiconductor quantum dots, and other low-dimensional materials to facilitate enhanced quantum state control and decoherence.The system offers a scalable platform enabling a high density of qubit integration and efficient inter-qubit communication using nanomaterial-based interconnects. To reduce environmental noise, thermal effects, and electromagnetic noise, it includes a stabilization mechanism to improve the qubit coherence time and operational fidelity. The invention also has a control and readout module which allows accurate quantum control gates and quantification of quantum states. Also, the platform presents hardware-level error mitigation with the use of inherent nanomaterial characteristics to minimize quantum computation errors and limit the use of sophisticated error correction mechanisms. Energy efficient quantum operations and enhanced fabrication compatibility with semiconductor and nanoscale manufacturing processes is also supported in the hybrid design.In general, the invention offers a coherent and scalable quantum computing system that is much more practical to large-scale quantum systems. It facilitates the powerful quantum calculation of sophisticated applications such as cryptography, optimization, material simulation, artificial intelligence, and complex scientific modelling, thus helping to develop the next generation quantum technologies."
Disclaimer: Curated by HT Syndication.
