CORDIS Project
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This project aims to develop a superconducting cavity qubit with a coherence time of 1 second, significantly improving error resistance in quantum computers. By addressing intrinsic loss mechanisms and employing novel quantum error correction methods, it seeks to enhance the reliability and efficiency of quantum comput…
Quantum computers use highly entangled qubits to achieve their exceptional computational power.
However, the qubits also easily entangle with their environment, leading to errors.
Future quantum computers can be protected against such errors by encoding each logical qubit redundantly in thousands of physical qubits.
This daunting overhead can be reduced exponentially by improving the quality of the physical qubits.
We can also replace the two-level physical qubits with cavities, which are descri…
WEIZMANN INSTITUTE OF SCIENCE
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