论文信息 - Alternative materials for high numerical aperture extreme ultraviolet lithography mask stacks

Alternative materials for high numerical aperture extreme ultraviolet lithography mask stacks

In this paper we compare the imaging performance of several options currently under consideration for use in 0.33 and higher numerical aperture (NA) extreme ultraviolet (EUV) mask stacks, Mo/Si ML reflective coatings with 40 bilayers, Ru/Si multilayer (ML) reflective coatings with 20 bilayers, and a new thinner Ni-based absorber layer on each of these mask stacks. The use of a Ru/Si ML coating with its shallower effective reflectance plane and a 2x thinner Ni-based absorber is expected to significantly reduce both shadow bias requirements and mask telecentricity errors. The conclusions of the paper are supported with the results of both experimental measurements and rigorous simulations.

[1] 다케루 기노시타. Reflective mask blank for euv lithography, and reflective mask for euv lithography , 2009 .

[2] Kenneth A. Goldberg,et al. Experimental measurements of telecentricity errors in high-numerical-aperture extreme ultraviolet mask images , 2014 .

[3] Naoya Hayashi,et al. Patterning of EUVL binary etched multilayer mask , 2013, Photomask Technology.

[4] Vicky Philipsen,et al. Actinic characterization and modeling of the EUV mask stack , 2013, Other Conferences.

[5] Norihito Fukugami,et al. Experimental approach to EUV imaging enhancement by mask absorber height optimization , 2013, Other Conferences.

[6] Johannes Ruoff. Impact of mask topography and multilayer stack on high NA imaging of EUV masks , 2010, Photomask Technology.

[7] Bernhard Kneer,et al. EUV lithography optics for sub-9nm resolution , 2015, Advanced Lithography.

[8] Jens Timo Neumann,et al. Modeling studies on alternative EUV mask concepts for higher NA , 2013, Advanced Lithography.

[9] Sudhar Raghunathan,et al. Imaging impact of multilayer tuning in EUV masks, experimental validation , 2014, Photomask Technology.

[10] E. Spiller. Low-Loss Reflection Coatings Using Absorbing Materials , 1972 .

[11] T. Barbee,et al. Molybdenum-silicon multilayer mirrors for the extreme ultraviolet. , 1985, Applied optics.