双折射
材料科学
平面的
切断
紫外线
二次谐波产生
非线性光学
非线性光学
卤素
对称(几何)
工作(物理)
非线性系统
光电子学
领域(数学)
带隙
航程(航空)
光学
群(周期表)
分子物理学
谐波
高次谐波产生
光学材料
光子学
极端紫外线
化学物理
截止频率
作者
Lilin Yang,Qinghe Li,Dongling Yang,Hongyuan Sha,Zujian Wang,Xiaoming Yang,Rongbing Su,Bin Su,Chao He,Xifa Long
摘要
ABSTRACT Short‐wavelength ultraviolet (UV) nonlinear optical (NLO) crystals are critical components in all‐solid‐state UV lasers, as they could extend the tunable range of lasers. NLO sulfates always exhibit a large bandgap and a moderate second harmonic generation response, which should be a rich source of NLO materials. However, due to the high symmetry of the [SO 4 ] 2− tetrahedron, most sulfates present insufficient phase‐matching capability. In terms of this, we proposed the π‐conjugated [C(NH 2 ) 3 ] + modulating strategy to improve the birefringence of sulfates, and obtained two NLO crystals, [C(NH 2 ) 3 ] 4 Cl 2 SO 4 (GCS) and [C(NH 2 ) 3 ] 4 Br 2 SO 4 (GBS). They both exhibit a moderate birefringence (0.050 for GCS and 0.052 for GBS at 546 nm), while retaining short UV cutoff edges. Besides, GBS presents a strong second‐order NLO response (1.2 × KH 2 PO 4 ), resulting from the synergy of almost uniformly arranged π‐conjugated planar [C(NH 2 ) 3 ] + cations, [SO 4 ] 2− groups, and halogen anions. These results confirm the validity of the strategy. Therefore, this work provides a novel perspective in improving the sulfate's phase‐matching capability, and further expands the research field of UV NLO crystals.
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