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Optical and Quantum Electronics

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01-09-2018

Theoretical study of multiexposure zeroth-order waveguide mode interference lithography

Authors: Zhiyuan Pang, Huan Tong, Xiaoxiong Wu, Jiankai Zhu, Xiangxian Wang, Hua Yang, Yunping Qi

Published in: Optical and Quantum Electronics | Issue 9/2018

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Abstract

A new nanolithography technique in which sample rotation is incorporated into zeroth-order waveguide mode interference lithography is proposed in this report. A 325-nm laser was used to excite zeroth-order waveguide modes, which were loaded by an asymmetric metal-cladding dielectric waveguide structure. The optical field intensity distribution of zeroth-order waveguide modes interference is numerically simulated using the finite element method. The lithography sample consisted of a glass substrate, Al film, and photoresist film, and the rotation operation on the sample is expressed in coordinate matrix transformation. Various subwavelength structures, such as two-dimensional square lattices, two-dimensional hexagonal closed-packed lattices,and circular gratings, were obtained through double, triple, and continuous exposure. These subwavelength structures with different sizes can be produced by changing the thickness of the photoresist. The subwavelength structures simulated with various shapes and sizes can be applied to the field of nano-optics. The proposed technique provides a flexible and promising approach for interference nanolithography because of its simplicity and low cost.

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Title: Theoretical study of multiexposure zeroth-order waveguide mode interference lithography
Authors: Zhiyuan Pang
Huan Tong
Xiaoxiong Wu
Jiankai Zhu
Xiangxian Wang
Hua Yang
Yunping Qi
Publication date: 01-09-2018
Publisher: Springer US
Published in: Optical and Quantum Electronics / Issue 9/2018
Print ISSN: 0306-8919
Electronic ISSN: 1572-817X
DOI: https://doi.org/10.1007/s11082-018-1601-2

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