Rapid production of large-area deep sub-wavelength hybrid structures by femtosecond laser light-field tailoring

Lei Wang; Qi Dai Chen; Rui Yang; Bin Bin Xu; Hai Yu Wang; Hai Yang; Cheng Song Huo; Hong Bo Sun; Hai Ling Tu

doi:10.1063/1.4832878

Rapid production of large-area deep sub-wavelength hybrid structures by femtosecond laser light-field tailoring

Lei Wang, Qi Dai Chen^*, Rui Yang, Bin Bin Xu, Hai Yu Wang, Hai Yang, Cheng Song Huo, Hong Bo Sun, Hai Ling Tu

^*Corresponding author for this work

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

32 Citations (Scopus)

Abstract

The goal of creation of large-area deep sub-wavelength nanostructures by femtosecond laser irradiation onto various materials is being hindered by the limited coherence length. Here, we report solution of the problem by light field tailoring of the incident beam with a phase mask, which serves generation of wavelets. Direct interference between the wavelets, here the first-order diffracted beams, and interference between a wavelet and its induced waves such as surface plasmon polariton are responsible for creation of microgratings and superimposed nanogratings, respectively. The principle of wavelets interference enables extension of uniformly induced hybrid structures containing deep sub-wavelength nanofeatures to macro-dimension.

Original language	English
Article number	031904
Journal	Applied Physics Letters
Volume	104
Issue number	3
DOIs	https://doi.org/10.1063/1.4832878
Publication status	Published - 20 Jan 2014
Externally published	Yes

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abstract = "The goal of creation of large-area deep sub-wavelength nanostructures by femtosecond laser irradiation onto various materials is being hindered by the limited coherence length. Here, we report solution of the problem by light field tailoring of the incident beam with a phase mask, which serves generation of wavelets. Direct interference between the wavelets, here the first-order diffracted beams, and interference between a wavelet and its induced waves such as surface plasmon polariton are responsible for creation of microgratings and superimposed nanogratings, respectively. The principle of wavelets interference enables extension of uniformly induced hybrid structures containing deep sub-wavelength nanofeatures to macro-dimension.",

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AU - Wang, Lei

AU - Chen, Qi Dai

AU - Yang, Rui

AU - Xu, Bin Bin

AU - Wang, Hai Yu

AU - Yang, Hai

AU - Huo, Cheng Song

AU - Sun, Hong Bo

AU - Tu, Hai Ling

PY - 2014/1/20

Y1 - 2014/1/20

N2 - The goal of creation of large-area deep sub-wavelength nanostructures by femtosecond laser irradiation onto various materials is being hindered by the limited coherence length. Here, we report solution of the problem by light field tailoring of the incident beam with a phase mask, which serves generation of wavelets. Direct interference between the wavelets, here the first-order diffracted beams, and interference between a wavelet and its induced waves such as surface plasmon polariton are responsible for creation of microgratings and superimposed nanogratings, respectively. The principle of wavelets interference enables extension of uniformly induced hybrid structures containing deep sub-wavelength nanofeatures to macro-dimension.

AB - The goal of creation of large-area deep sub-wavelength nanostructures by femtosecond laser irradiation onto various materials is being hindered by the limited coherence length. Here, we report solution of the problem by light field tailoring of the incident beam with a phase mask, which serves generation of wavelets. Direct interference between the wavelets, here the first-order diffracted beams, and interference between a wavelet and its induced waves such as surface plasmon polariton are responsible for creation of microgratings and superimposed nanogratings, respectively. The principle of wavelets interference enables extension of uniformly induced hybrid structures containing deep sub-wavelength nanofeatures to macro-dimension.

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JO - Applied Physics Letters

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Rapid production of large-area deep sub-wavelength hybrid structures by femtosecond laser light-field tailoring

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