俘获
电介质
纳米结构
材料科学
反向
光电子学
纳米技术
数学
几何学
生态学
生物
作者
Beñat Martinez de Aguirre Jokisch,Ole Sigmund,Rasmus E. Christiansen,Kishan Dholakia,Halina Rubinsztein‐Dunlop,Giovanni Volpe
摘要
Optical trapping in nanostructures has usually been achieved utilizing the strong field gradients of plasmonics resonances. However, given the inherent optical losses in metals to heat dissipation, their use can prove detrimental to biological trapping settings and can affect other trapping properties. Dielectric nanostructures do not suffer these intrinsic losses, but it remains challenging to design dielectric structures with strong field gradients. In this work, we use inverse design by topology optimization to design a dielectric nanostructure that confines light to trap nanoparticles in air. The obtained trapping potential is deep enough – with a trapping depth below -10 kBT – to overcome thermal fluctuations.
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