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首页> 外文期刊>Journal of Modern Optics >Flat broadband wavelength conversion based on cascaded second-harmonic generation and difference frequency generation in segmented quasi-phase matched gratings
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Flat broadband wavelength conversion based on cascaded second-harmonic generation and difference frequency generation in segmented quasi-phase matched gratings

机译:分段准相位匹配光栅中基于级次谐波产生和差频产生的宽带宽带波长转换

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摘要

Bandwidth enhancement and response flattening of wavelength conversion based on single-pass and double-pass cascaded second harmonic generation and difference frequency generation were investigated in segmented quasi-phase matched (QPM) gratings. It is shown that the signal and pump bandwidths are both efficiently widened by increasing the segment number of the QPM grating and optimising the poling period of each segment. The ripple on the matching response is also very small. The conversion bandwidth in a 3-cm-long three-segment waveguide reaches 150-160nm, which is over the whole conventional band and long-wavelength band. Larger signal bandwidth can be obtained with a little response flatness penalty and conversion efficiency penalty, which can be compensated by increasing the input pump power. Compared with a sinusoidally chirped optical superlattice device, a wavelength converter based on the segmented gratings has higher conversion efficiency, broader bandwidth and better pump-wavelength tolerance, and is easier to fabricate in practice.
机译:在分段准相位匹配(QPM)光栅中研究了基于单通和双通级联二次谐波产生和差频产生的波长转换的带宽增强和响应平坦化。结果表明,通过增加QPM光栅的段数并优化每个段的极化周期,可以有效地拓宽信号和泵浦带宽。匹配响应上的纹波也很小。 3厘米长的三段式波导中的转换带宽达到150-160nm,超过了整个常规波段和长波长波段。可以获得较小的响应平坦度和转换效率损失的较大信号带宽,这可以通过增加输入泵浦功率来补偿。与正弦chi光学超晶格器件相比,基于分段光栅的波长转换器具有更高的转换效率,更宽的带宽和更好的泵浦波长容限,并且在实践中更易于制造。

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