Speaker
Description
Quantum Error Correction (QEC) is crucial for any practical implementation of Quantum Information protocols. It mitigates decoherence, compensates for imperfections in quantum operations, and is fundamental for scaling quantum algorithms. QEC enables reliable quantum computation on a larger scale. Our research focuses on establishing criteria to construct a logical basis for a Hybrid Quantum System (HQS) comprising solid-state spins and oscillators. Appropriate stabilizers, error operations, and recovery operations will be designed and analyzed. The hybrid logical encoding obtained here will be used to find robust qubit states that are resilient errors within the hybrid degrees of freedom. Further logical operations among these qubits will also be constructed and analyzed for experimental parameters.