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Refractive index dispersion of chalcogenide glasses for ultra-high numerical-aperture fiber for mid-infrared supercontinuum generation

机译：用于中红外超连续谱产生的超高数值孔径光纤硫属化物玻璃的折射率色散

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We select a chalcogenide core glass, AsSe, and cladding glass, GeAsSe, for their disparate refractive indices yet sufficient thermal-compatibility for fabricating step index fiber (SIF) for mid-infrared supercontinuum generation (MIR-SCG). The refractive index dispersion of both bulk glasses is measured over the 0.4 μm–33 μm wavelength-range, probing the electronic and vibrational behavior of these glasses. We verify that a two-term Sellmeier model is unique and sufficient to describe the refractive index dispersion over the wavelength range for which the experimentally determined extinction coefficient is insignificant. A SIF composed of the glasses is fabricated and calculated to exhibit an ultra-high numerical aperture 0.97 over the entire wavelength range 0.4-33 μm suggesting that the SIF glass pair is a promising candidate for MIR-SCG. Material dispersion characteristics and the zero dispersion wavelength, bothcritical design parameters for SIF for MIR-SCG, are derived

机译：我们选择硫属化物芯玻璃AsSe和包层玻璃GeAsSe，因为它们具有不同的折射率，但具有足够的热相容性，可以制造用于中红外超连续谱（MIR-SCG）的阶跃折射率光纤（SIF）。两种大块玻璃的折射率色散都是在0.4 μm–33μm波长范围内测量的，从而探查了这些玻璃的电子和振动行为。我们验证了两个Sellmeier模型是唯一的，并且足以描述在波长范围内的折射率色散，对于该波长范围，实验确定的消光系数无关紧要。制作并计算出由玻璃组成的SIF，并在整个0.4-33μm的波长范围内显示出大于0.97的超高数值孔径，这表明SIF玻璃对是MIR-SCG的有希望的候选者。推导了材料色散特性和零色散波长，这是用于MIR-SCG的SIF的两个关键设计参数

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Dantanarayana Harshana G.; Abdel-Moneim Nabil; Tang Zhuoqi; Sojka Lukasz; Sujecki Slawomir; Furniss David; Seddon Angela B.; Kubat Irnis; Bang Ole; Benson Trevor M.;
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年度 2014
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专利

1. 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
2. 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
3. Mid-infrared supercontinuum generation spanning from 1.9 to 5.7μm in a chalcogenide fiber taper with ultra-high NA [J] . Yingying Wang, Shixun Dai, Xuefeng Peng, Infrared physics and technology . 2018,第期

机译：中红外超高度产生从硫族化物纤维锥度的1.9至5.7μm，用超高NA
4. Mid-infrared supercontinuum generation in chalcogenide multi-step index fibers with normal chromatic dispersion [C] . K. Nagasaka, Tong Hoang Tuan, Lai Liu, Optical components and materials XIV . 2017

机译：具有正常色散的硫族化物多步折射率光纤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。

Refractive index dispersion of chalcogenide glasses for ultra-high numerical-aperture fiber for mid-infrared supercontinuum generation

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