Entanglement generation for non-local photonic qubits using quantum dot within the optical micro-cavity

被引:0
|
作者
Amit Kumar Sharma
Ritu Sharma
Shishir Kumar Sharma
机构
[1] MNIT Jaipur,Department of Electronics and Communication Engineering
[2] Penn State University,BS. Computer Engineering
[3] SKIT,Department of Computer Science and Engineering
[4] Ramnagaria,undefined
[5] Jagatpura Jaipur,undefined
来源
Optical and Quantum Electronics | 2023年 / 55卷
关键词
Quantum computing; Linear optics; Quantum dot; Entanglement; Teleportation; Concurrence; Coupling strength (g); Quantum noise; Side leakage rate (ks); Field decay rate (k);
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摘要
This paper presents the analytical inquisition of photonic entanglement generation circuit (PEGC) for non-local qubits designed using quantum dot within the optical micro-cavity, considering the realistic environment. It is established that the concurrence of the PEGC is considerably contingent on the interplay between the spin of quantum dot and photon within the optical micro-cavity. The maximum concurrence obtained is 0.6124 at normalized coupling strength (g/k) = 0.3 and normalized side leakage rate (ks/k) = 0.1 and 0.9011 at g/k = 4 and ks/k = 0.1 with and without a noisy environment, respectively. Different quantum cryptography-based protocols may be implemented using reported work.
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