Title :
Spectrum-Integral Talbot Effect for UV Photolithography With Extended DOF
Author :
Junbo Liu ; Shaolin Zhou ; Song Hu ; Hongtao Gao ; Yu He ; Yiguang Cheng
Author_Institution :
Univ. of Chinese Acad. of Sci., Beijing, China
Abstract :
A route of spectrum-integral Talbot lithography (SITL) with extended depth-of-focus (DOF) for microfabrication of periodic structures was explored under broadband incoherent illumination in this letter. The transmitted diffraction fields by different spectral components integrate together to generate the successive periodicity since certain distance along the direction of propagation. The mechanism of DOF extension was derived and numerically elucidated using the spectrum of a practical ultraviolet source. Experiments of proximity lithography in term of the numeric results were performed to record the intensity distributions within the DOF area. Finally, the results reveal the validity of SITL and its potentials in high-fidelity lithography of periodic micropatterns with almost unlimited DOF and thus enhanced resolution.
Keywords :
Talbot effect; image resolution; light diffraction; light propagation; microfabrication; photolithography; proximity effect (lithography); UV photolithography; broadband incoherent illumination; extended DOF; extended depth-of-focus; high-fidelity lithography; intensity distributions; microfabrication; periodic micropatterns; periodic structures; propagation direction; proximity lithography; spectral components; spectrum-integral Talbot lithography; transmitted diffraction fields; ultraviolet source; Diffraction; Gratings; Lighting; Lithography; Talbot effect; Ultraviolet sources; Depth-of-Focus; Diffraction; Microfabrication; Talbot Lithography; Talbot lithography; depth-of-focus; microfabrication;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2015.2456184
