用于晶格共振主动调谐的混合相变等离子体晶体。
Hybrid phase-change plasmonic crystals for active tuning of lattice resonances.
作者信息
Chen Y G, Kao T S, Ng B, Li X, Luo X G, Luk'yanchuk B, Maier S A, Hong M H
机构信息
Department of Electrical and Computer Engineering, National University of Singapore, Singapore.
出版信息
Opt Express. 2013 Jun 3;21(11):13691-8. doi: 10.1364/OE.21.013691.
Tunable lattice resonances are demonstrated in a hybrid plasmonic crystal incorporating the phase-change material Ge2Sb2Te5 (GST) as a 20-nm-thick layer sandwiched between a gold nanodisk array and a quartz substrate. Non-volatile tuning of lattice resonances over a range Δλ of about 500 nm (1.89 µm to 2.27 µm) is achieved experimentally via intermediate phase states of the GST layer. This work demonstrates the efficacy and ease of resonance tuning via GST in the near infrared, suggesting the possibility to design broadband non-volatile tunable devices for optical modulation, switching, sensing and nonlinear optical devices.
在一种混合等离子体晶体中展示了可调谐晶格共振,该晶体包含相变材料Ge2Sb2Te5(GST)作为夹在金纳米盘阵列和石英衬底之间的20纳米厚层。通过GST层的中间相态,实验实现了晶格共振在约500纳米(1.89微米至2.27微米)的Δλ范围内的非易失性调谐。这项工作证明了通过GST在近红外波段进行共振调谐的有效性和简便性,暗示了设计用于光调制、开关、传感和非线性光学器件的宽带非易失性可调谐器件的可能性。
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