In this paper, we both theoretically and experimentally demonstrate that 90 % lower optical loss is realized with multimode crossed polymer optical waveguides by introducing graded-index (GI) cores, compared to conventional step-index (SI) core counterparts. First, the light leakage losses of crossed waveguides with SI and GI cores are simulated using a ray-trace simulation. Then, we show that a drastic reduction of the leakage loss is achieved in the GI-core crossed waveguide (only a loss of 0.095 dB for 50 perpendicular crossings), which is less than one-tenth of the leakage loss in the SI-core crossed waveguide (2.5-dB loss for the same 50 perpendicular crossings). Furthermore, even in the GI-core crossed waveguide with a 30-degree crossing angle, the leakage-loss is calculated to be only 0.009 dB/crossing, while 0.086 dB/crossing for the SI-core. This low loss of GI crossed core waveguides stems from the tight optical-field confinement in GI cores. Next, we confirm the validity of the calculated results. We fabricate the GI-core polymer crossed waveguides (multiple crossings) using the photo-address method for the first time to the best of our knowledge. In this method, we use a polynorbornene resin whose refractive index could be controlled by intensity variations of UV exposure during the curing process. The experimental results in the crossed waveguide with GI profile show a very good agreement with the calculated result.
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机译:在本文中,我们在理论上和实验上都证明,与传统的阶跃折射率(SI)磁芯相比,多模交叉聚合物光波导通过引入渐变折射率(GI)磁芯可实现90%的光损耗降低。首先,使用光线跟踪模拟来模拟具有SI和GI磁芯的交叉波导的漏光损耗。然后,我们表明,在GI芯交叉波导中,泄漏损耗得到了极大的降低(对于50个垂直交叉,损耗仅为0.095 dB),不到SI芯泄漏损耗的十分之一。交叉波导(对于相同的50个垂直交叉,损耗为2.5 dB)。此外,即使在具有30度交叉角的GI芯交叉波导中,泄漏损耗经计算也仅为0.009 dB /交叉,而对于SI芯,其泄漏损耗仅为0.086 dB /交叉。 GI交叉芯波导的这种低损耗源于GI芯中严格的光场限制。接下来,我们确认计算结果的有效性。据我们所知,我们首次使用光寻址方法制造了GI芯聚合物交叉波导(多次交叉)。在这种方法中,我们使用的聚降冰片烯树脂的折射率可以通过固化过程中紫外线暴露的强度变化来控制。具有GI轮廓的交叉波导中的实验结果与计算结果非常吻合。
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