Aerial imaging study of the mask-induced line-width roughness of EUV lithography masks

EUV lithography uses reflective photomasks to print features on a wafer through the formation of an aerial image. The aerial image is influenced by the mask’s substrate and pattern roughness and by photon shot noise, which collectively affect the line-width on wafer prints, with an impact on local critical dimension uniformity (LCDU). We have used SHARP, an actinic mask-imaging microscope, to study line-width roughness (LWR) in aerial images at sub-nanometer resolution. We studied the impact of photon density and the illumination partial coherence on recorded images, and found that at low coherence settings, the line-width roughness is dominated by photon noise, while at high coherence setting, the effect of speckle becomes more prominent, dominating photon noise for exposure levels of 4 photons/nm2 at threshold on the mask size.

[1]  Farhad Salmassi,et al.  The SEMATECH high-NA actinic reticle review project (SHARP) EUV mask-imaging microscope , 2013, Photomask Technology.

[2]  Eric M. Gullikson,et al.  Understanding EUV mask blank surface roughness induced LWR and associated roughness requirement , 2015, Advanced Lithography.

[3]  Kenneth A. Goldberg,et al.  Mask blank defect printability comparison using optical and SEM mask and wafer inspection and bright field actinic mask imaging , 2015, Other Conferences.

[4]  Patrick P Naulleau Relevance of mask-roughness-induced printed line-edge roughness in recent and future extreme-ultraviolet lithography tests. , 2004, Applied optics.

[5]  Patrick P. Naulleau,et al.  Implications of image plane line-edge roughness requirements on extreme ultraviolet mask specifications , 2009, Photomask Japan.

[6]  Daniel Wintz,et al.  Photon flux requirements for extreme ultraviolet reticle imaging in the 22- and 16-nm nodes , 2010 .

[7]  Pei-Yang Yan,et al.  Evidence of speckle in extreme-UV lithography. , 2012, Optics express.

[8]  Patrick P. Naulleau,et al.  Mask roughness induced LER control and mitigation: aberrations sensitivity study and alternate illumination scheme , 2011, Advanced Lithography.

[9]  Kenneth A. Goldberg,et al.  Extreme ultraviolet mask substrate surface roughness effects on lithographic patterning , 2010 .

[10]  Anne McGuire,et al.  EUV mask line edge roughness , 2012, Advanced Lithography.

[11]  Patrick P. Naulleau,et al.  Spatial scaling metrics of mask-induced line-edge roughness , 2008 .