Shi Kezhang, Chen Zhaoyang, Xing Yuxin, Yang Jianxin, Xu Xinan, Evans Julian S, He Sailing
Centre for Optical and Electromagnetic Research, National Engineering Research Center for Optical Instruments, Zhejiang University, Hangzhou 310058, China.
Centre for Optical and Electromagnetic Research, ZJU-SCNU Joint Center of Photonics, South China Academy of Advanced Optoelectronics, South China Normal University, Guangzhou 510006, China.
Nano Lett. 2022 Oct 12;22(19):7753-7760. doi: 10.1021/acs.nanolett.2c01286. Epub 2022 Sep 26.
Modulating near-field radiative heat transfer (NFRHT) with a high dynamic range is challenging in nanoscale thermal science and engineering. Modulation depths [(maximum value - minimum value)/(maximum value + minimum value) × 100%] of ≈2% to ≈15.7% have been reported with matched modes, but breaking the constraint of mode matching theoretically allows for higher modulation depth. We demonstrate a modulation depth of ≈32.2% by a pair of graphene-covered SU8 heterostructures at a gap distance of ≈80 nm. Dissimilar Fermi levels tuned by bias voltages enable mismatched surface plasmon polaritons which improves the modulation. The modulation depth when switching from a matched mode to a mismatched mode is ≈4.4-fold compared to that when switching between matched modes. This work shows the importance of symmetry in polariton-mediated NFRHT and represents the largest modulation depth to date in a two-body system with fixed gap distance and temperature.
在纳米尺度热科学与工程领域,以高动态范围调制近场辐射热传递(NFRHT)具有挑战性。据报道,匹配模式下的调制深度[(最大值 - 最小值)/(最大值 + 最小值)× 100%]约为2%至约15.7%,但从理论上讲,打破模式匹配的限制可实现更高的调制深度。我们展示了一对石墨烯覆盖的SU8异质结构在约80 nm的间隙距离下实现了约32.2%的调制深度。通过偏置电压调节不同的费米能级可实现不匹配的表面等离激元极化激元,从而改善调制效果。从匹配模式切换到不匹配模式时的调制深度相比于在匹配模式之间切换时约为4.4倍。这项工作表明了对称性在极化激元介导的NFRHT中的重要性,并且代表了在固定间隙距离和温度的两体系统中迄今为止最大的调制深度。
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