Non-adiabatic holonomic manipulation of the polariton qubit in circuit QED
Zheng-Yuan Xue, Wei-Can Yu, Li-Na Yang, Yong Hu
TL;DR
This paper proposes a fast, robust method for manipulating polariton qubits in circuit QED using non-adiabatic holonomy, enhancing quantum computation reliability and speed.
Contribution
It introduces a novel non-adiabatic holonomic scheme for polariton qubit control in circuit QED, emphasizing robustness against low-frequency noise.
Findings
Polariton qubits are robust against low-frequency noise.
The scheme enables fast, holonomic manipulation with external microwave fields.
Potential for on-chip solid-state quantum computation.
Abstract
As a qubit usually has a limited lifetime, its manipulation should be as fast as possible, and thus non-adiabatic operation is more preferable. Moreover, as a qubit inevitably interacts with its surrounding environment, robust operations are of great significance. Here, we propose a scheme for quantum manipulation of the polariton qubit in circuit QED using non-adiabatic holonomy, which is inherently fast and robust. In particularly, the polariton qubit is shown to be robust against arbitrary low-frequency noise due to its near symmetric spectrum, which can also be convenient manipulated by external microwave driven fields in a holonomic way. Therefore, our scheme presents a promising way of manipulating polariton qubits for on-chip solid-state quantum computation.
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