Multistack structure for an extreme-ultraviolet pellicle with out-of-band radiation reduction

Abstract. We report on out-of-band (OoB) radiation that can cause degradation to the image quality in extreme-ultraviolet (EUV) lithography systems. We investigated the effect of OoB radiation with an EUV pellicle and found the maximum allowable reflectivity of OoB radiation from the EUV pellicle that can satisfy certain criteria (i.e., the image critical dimension error, contrast, and normalized image log slope). We suggested a multistack EUV pellicle that can obtain a high EUV transmission, minimal reflectivity of OoB radiation, and sufficient deep ultraviolet transmission for defect inspection and alignment without removing the EUV pellicle in an EUV lithography system.

[1]  Guk-Jin Kim,et al.  Imaging performance of mesh supported pellicle for extreme ultraviolet lithography , 2014 .

[2]  Makoto Shimizu,et al.  Effects of out-of-band radiation on EUV resist performance , 2012, Advanced Lithography.

[3]  Hye-Keun Oh,et al.  Mechanical deflection of a free-standing pellicle for extreme ultraviolet lithography , 2015 .

[4]  Roel Moors,et al.  Extreme-ultraviolet source specifications: tradeoffs and requirements , 2012 .

[5]  Theodore H. Fedynyshyn,et al.  Deep ultraviolet out-of-band contribution in extreme ultraviolet lithography: predictions and experiments , 2011, Advanced Lithography.

[6]  Patrick P. Naulleau,et al.  Out of band radiation effects on resist patterning , 2011, Advanced Lithography.

[7]  Jun-Taek Park,et al.  Effect of extreme-ultraviolet pellicle support to patterned mask , 2012, Advanced Lithography.

[8]  John Zimmerman,et al.  Progress on EUV pellicle development , 2014, Advanced Lithography.

[9]  Shang-Chieh Chien,et al.  An accurate method to determine the amount of out-of-band light in an EUV scanner , 2015, Advanced Lithography.

[10]  Theodore H. Fedynyshyn,et al.  Sensitivity of EUV resists to out-of-band radiation , 2009, Advanced Lithography.

[11]  Luigi Scaccabarozzi,et al.  Investigation of EUV pellicle feasibility , 2013, Advanced Lithography.

[12]  Patrick P. Naulleau,et al.  Assessing out-of-band flare effects at the wafer level for EUV lithography , 2010, Advanced Lithography.

[13]  Bryan J. Rice,et al.  EUV pellicle development for mask defect control , 2006, SPIE Advanced Lithography.

[14]  K. H. Jolliffee Optical properties of thin solid films , 1954 .

[15]  Insung Kim,et al.  Prospects of DUV OoB suppression techniques in EUV lithography , 2014, Advanced Lithography.

[16]  Eytan Barouch,et al.  Aerial image of mesh supported extreme ultraviolet pellicle , 2014, Advanced Lithography.

[17]  V. Bakshi EUV Lithography , 2008 .

[18]  Harry J. Levinson,et al.  Principles of Lithography , 2001 .