Ultrabroadband mid-infrared supercontinuum generation through dispersion engineering of chalcogenide microstructured fibers

Karim M. R.; Rahman B. M. A.; Azabi Y. O.; Agrawal A.; Agrawal Govind P.

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Ultrabroadband mid-infrared supercontinuum generation through dispersion engineering of chalcogenide microstructured fibers

机译：硫族化物微结构纤维的分散工程产生超宽带中红外超连续谱

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We demonstrate numerically that the use of dispersion-engineered microstrucured fibers made with chalcogenide glasses allows one to generate ultrabroadband supercontinuum spectra in the mid-infrared region by launching optical pulses at a suitable wavelength. As a specific example, numerical simulations show that such a 1 cm long fiber, made with Ge11.5As24Se64.5 glass and pumped at a wavelength of 3.1 mu m using short pulses with a relatively modest peak power of 3 kW, can produce a spectrum extending from 1.3 mu m to beyond 11 mu m ( more than 3 octaves). We consider three fiber structures with microstrucured air holes in their cladding and find their optimum designs through dispersion engineering. Among these, equiangular spiral microstrucured fiber is found to be the most promising candidate for generating an ultrawide supercontinuum in the mid-infrared region. (C) 2015 Optical Society of America

机译：我们用数值方法证明，使用由硫族化物玻璃制成的色散工程化微结构纤维，可以通过在合适的波长发射光脉冲来在中红外区域生成超宽带超连续谱。作为一个特定的例子，数值模拟表明，用Ge11.5As24Se64.5玻璃制成的这种1厘米长的光纤，并使用短脉冲以3.1微米的波长泵浦，具有相对适中的3 kW峰值功率，可以产生光谱。从1.3微米扩展到超过11微米（超过3个八度）。我们考虑了在包层中具有微结构气孔的三种光纤结构，并通过色散工程找到了它们的最佳设计。其中，等角螺旋微结构纤维被认为是在中红外区域产生超宽超连续谱的最有希望的候选者。（C）2015年美国眼镜学会

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《Journal of the Optical Society of America, B. Optical Physics》 |2015年第11期|共9页
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Karim M. R.; Rahman B. M. A.; Azabi Y. O.; Agrawal A.; Agrawal Govind P.;
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1. Ultrabroadband mid-infrared supercontinuum generation through dispersion engineering of chalcogenide microstructured fibers [J] . Karim M. R., Rahman B. M. A., Azabi Y. O., Journal of the Optical Society of America, B. Optical Physics . 2015,第11期

机译：硫族化物微结构纤维的分散工程产生超宽带中红外超连续谱
2. Ultrabroadband and coherent mid-infrared supercontinuum generation in all-normal dispersion Te-based chalcogenide all-solid microstructured fiber [J] . Journal of the Optical Society of America, B. Optical Physics . 2020,第2期

机译：全正常分散TE基硫属化物全固体微结构纤维的超高压带和连贯的中红外超连续体产生
3. Coherent mid-infrared supercontinuum generation in all-solid chalcogenide microstructured fibers with all-normal dispersion [J] . Liu Lai, Cheng Tonglei, Nagasaka Kenshiro, Optics Letters . 2016,第2期

机译：具有全正态色散的全固态硫族化物微结构纤维中相干中红外超连续谱的产生
4. Coherent mid-infrared supercontinuum generation in all-solid chalcogenide microstructured fibers with all-normal dispersion [C] . Lai Liu, Tonglei Cheng, Kenshiro Nagasaka, Optical components and materials XIII . 2016

机译：具有全正态色散的全固态硫族化物微结构纤维中相干中红外超连续谱的产生
5. Dispersion and nonlinearities associated with supercontinuum generation in microstructure fibers. [D] . Washburn, Brian Richard. 2002

机译：与超连续谱在微结构纤维中产生相关的色散和非线性。
6. In-situ Tapering of Chalcogenide Fiber for Mid-infrared Supercontinuum Generation [O] . Charles W. Rudy, Alireza Marandi, Konstantin L. Vodopyanov, 2013

机译：硫族化物纤维的原位锥化用于产生中红外超连续谱
7. Ultra-broadband mid-infrared supercontinuum generation through dispersion engineering of chalcogenide microstructured fibers [O] . Karim, M. R., Rahman, B. M., Azabi, Y. O., 2015

机译：硫族化物微结构纤维的分散工程产生超宽带中红外超连续谱
8. Maximizing the Bandwidth from Supercontinuum Generation in Photonic Crystal Chalcogenide Fibers. [R] . Menyuk, C. R., Shaw, L., Sanghera, J. S., 2010

机译：最大化光子晶体硫属化物纤维中超连续谱产生的带宽。

Ultrabroadband mid-infrared supercontinuum generation through dispersion engineering of chalcogenide microstructured fibers

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