Author:
Nadgaran Hamid,Izadi Mohammad Amin,Nouroozi Rahman
Abstract
AbstractIn this article, a full numerical method to study the squeezing procedure through second harmonic generation process is proposed. The method includes complex nonlinear coupling coefficient, phase mismatch, and pump depletion. Attention has been also paid to the effects of accumulated noises in this work. The final form of the numerical formula seems to be much simpler than the analytical solutions previously reported. The function of this numerical method shows that it works accurately for different mechanisms of squeezed state generations and does not suffer from instabilities usually encountered even for non-uniform, coarse steps. The proposed method is used to examine the squeezing procedure in an engineered nonlinear plasmonic waveguide. The results show that using the nonlinear plasmonic waveguide, it is possible to generate the squeezed states for the pump and the second harmonic modes with high efficiency in a propagation length as short as 2 mm which is much shorter than the needed length for the traditional nonlinear lithium niobate- based optical waveguides being of the order of 100 mm. This new method of squeezed states generation may find applications in optical communication with a noise level well below the standard quantum limit, in quantum teleportation, and in super sensitive interferometry.
Funder
Iran National Science Foundation (INSF) and Shiraz University
Publisher
Springer Science and Business Media LLC
Reference44 articles.
1. Loudon, R. The Quantum Theory of Light 3rd edn. (Oxford University Press, 2000).
2. Brien, J. L. O., Furusawa, A. & Vuckovic, J. Photonic quantum technologies. Nat. Photon. 3, 687–695. https://doi.org/10.1038/nphoton.2009.229 (2009).
3. Pile, D. Low uncertainty for an intriguing future. Nat. Photon. 3, 677–677. https://doi.org/10.1038/nphoton.2009.221 (2009).
4. Meystre, P. Quantum Optics. Graduate Texts in Physics 1st edn. (Springer Nature, 2021).
5. Zettili, N. Quantum Mechanics 2nd edn. (Wiley-Blackwell, 2009).
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