Design of a hyper-numerical-aperture deep ultraviolet lithography objective with freeform surfaces

Shanshan Mao; Yanqiu Li; Jiahua Jiang; Shihuan Shen; Ke Liu; Meng Zheng

doi:10.3788/COL201816.030801

Design of a hyper-numerical-aperture deep ultraviolet lithography objective with freeform surfaces

Shanshan Mao, Yanqiu Li^*, Jiahua Jiang, Shihuan Shen, Ke Liu, Meng Zheng

^*Corresponding author for this work

School of Optics and Photonics

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

12 Citations (Scopus)

Abstract

We have proposed and developed a design method of a freeform surfaces (FFSs) based hyper-numerical-aperture deep ultraviolet (DUV) projection objective (PO) with low aberration. With an aspheric initial configuration, lens-form parameters were used to determine the best position to remove elements and insert FFSs. The designed FFSs PO reduced two elements without increasing the total thickness of the glass materials. Compared with aspheric initial configuration, the wavefront error of the FFSs PO decreased from 0.006λ to 0.005λ, the distortion reduced from 1 to 0.5 nm, and the aspheric departure decreased from 1.7 to 1.35 mm. The results show that the design method of the FFSs PO is efficient and has improved the imaging performance of PO. The design method of FFSs PO provides potential solutions for DUV lithography with low aberrations at 10-5 nm nodes.

Original language	English
Article number	030801
Journal	Chinese Optics Letters
Volume	16
Issue number	3
DOIs	https://doi.org/10.3788/COL201816.030801
Publication status	Published - 10 Mar 2018

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title = "Design of a hyper-numerical-aperture deep ultraviolet lithography objective with freeform surfaces",

abstract = "We have proposed and developed a design method of a freeform surfaces (FFSs) based hyper-numerical-aperture deep ultraviolet (DUV) projection objective (PO) with low aberration. With an aspheric initial configuration, lens-form parameters were used to determine the best position to remove elements and insert FFSs. The designed FFSs PO reduced two elements without increasing the total thickness of the glass materials. Compared with aspheric initial configuration, the wavefront error of the FFSs PO decreased from 0.006λ to 0.005λ, the distortion reduced from 1 to 0.5 nm, and the aspheric departure decreased from 1.7 to 1.35 mm. The results show that the design method of the FFSs PO is efficient and has improved the imaging performance of PO. The design method of FFSs PO provides potential solutions for DUV lithography with low aberrations at 10-5 nm nodes.",

author = "Shanshan Mao and Yanqiu Li and Jiahua Jiang and Shihuan Shen and Ke Liu and Meng Zheng",

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doi = "10.3788/COL201816.030801",

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T1 - Design of a hyper-numerical-aperture deep ultraviolet lithography objective with freeform surfaces

AU - Mao, Shanshan

AU - Li, Yanqiu

AU - Jiang, Jiahua

AU - Shen, Shihuan

AU - Liu, Ke

AU - Zheng, Meng

PY - 2018/3/10

Y1 - 2018/3/10

N2 - We have proposed and developed a design method of a freeform surfaces (FFSs) based hyper-numerical-aperture deep ultraviolet (DUV) projection objective (PO) with low aberration. With an aspheric initial configuration, lens-form parameters were used to determine the best position to remove elements and insert FFSs. The designed FFSs PO reduced two elements without increasing the total thickness of the glass materials. Compared with aspheric initial configuration, the wavefront error of the FFSs PO decreased from 0.006λ to 0.005λ, the distortion reduced from 1 to 0.5 nm, and the aspheric departure decreased from 1.7 to 1.35 mm. The results show that the design method of the FFSs PO is efficient and has improved the imaging performance of PO. The design method of FFSs PO provides potential solutions for DUV lithography with low aberrations at 10-5 nm nodes.

AB - We have proposed and developed a design method of a freeform surfaces (FFSs) based hyper-numerical-aperture deep ultraviolet (DUV) projection objective (PO) with low aberration. With an aspheric initial configuration, lens-form parameters were used to determine the best position to remove elements and insert FFSs. The designed FFSs PO reduced two elements without increasing the total thickness of the glass materials. Compared with aspheric initial configuration, the wavefront error of the FFSs PO decreased from 0.006λ to 0.005λ, the distortion reduced from 1 to 0.5 nm, and the aspheric departure decreased from 1.7 to 1.35 mm. The results show that the design method of the FFSs PO is efficient and has improved the imaging performance of PO. The design method of FFSs PO provides potential solutions for DUV lithography with low aberrations at 10-5 nm nodes.

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Design of a hyper-numerical-aperture deep ultraviolet lithography objective with freeform surfaces

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