Broadband heterodyne electro-optic sampling using a lithium niobate ridge-waveguide

Applied Physics Express Pub Date : 2024-03-25 DOI:10.35848/1882-0786/ad3799
Sota Mine, G. Gandubert, J. E. Nkeck, X. Ropagnol, K. Murate, F. Blanchard
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Abstract

We demonstrated the bandwidth broadening of terahertz waves detected by heterodyne electro-optical sampling by implementing a ridge waveguide structure in a lithium niobate (LiNbO3) crystal. Such an approach effectively reduces absorption loss, eases the phase matching condition and enhances the nonlinear interaction length through the optical confinement effect. As a result, we have more than doubled the bandwidth and improved the signal-to-noise ratio compared with an equivalent approach in a bulk LiNbO3 crystal. Heterodyne electro-optic sampling in a ridged-waveguide structure is only marginally dependent on the probe beam wavelength, suggesting its potential as a versatile method for broadband terahertz detection.
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利用铌酸锂脊波导进行宽带异频电光采样
我们通过在铌酸锂(LiNbO3)晶体中实施脊波导结构,证明了通过外差电光采样探测到的太赫兹波的带宽拓宽。这种方法有效地降低了吸收损耗,简化了相位匹配条件,并通过光约束效应增强了非线性相互作用长度。因此,与在块状铌酸锂晶体中采用的同等方法相比,我们的带宽增加了一倍多,信噪比也有所提高。在脊状波导结构中进行的异调电光采样对探针光束波长的依赖性很小,这表明它有可能成为宽带太赫兹探测的一种多功能方法。
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Applied Physics Express
Applied Physics Express
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