Your search keyword '"Norbert Hanisch"' showing total 2 results

1. Integration of e-beam direct write in BEOL processes of 28nm SRAM technology node using mix and match

Author

Kang-Hoon Choi, Christoph Hohle, Xaver Thrun, Katja Steidel, Thomas Werner, Norbert Hanisch, Manuela Gutsch, and Robert Seidel

Subjects

Back end of line, Materials science, business.industry, Extreme ultraviolet lithography, Multiple patterning, Electrical engineering, Electronic engineering, Node (circuits), business, Lithography, Maskless lithography, Next-generation lithography, Electron-beam lithography

Abstract

Many efforts were spent in the development of EUV technologies, but from a customer point of view EUV is still behind expectations. In parallel since years maskless lithography is included in the ITRS roadmap wherein multi electron beam direct patterning is considered as an alternative or complementary approach for patterning of advanced technology nodes. The process of multi beam exposures can be emulated by single beam technologies available in the field. While variable shape-beam direct writers are already used for niche applications, the integration capability of e-beam direct write at advanced nodes has not been proven, yet. In this study the e-beam lithography was implemented in the BEoL processes of the 28nm SRAM technology. Integrated 300mm wafers with a 28nm back-end of line (BEoL) stack from GLOBALFOUNDRIES, Dresden, were used for the experiments. For the patterning of the Metal layer a Mix and Match concept based on the sequence litho - etch - litho – etch (LELE) was developed and evaluated wherein several exposure fields were blanked out during the optical exposure. E-beam patterning results of BEoL Metal and Via layers are presented using a 50kV VISTEC SB3050DW variable shaped electron beam direct writer at Fraunhofer IPMS-CNT. Etch results are shown and compared to the POR. In summary we demonstrate the integration capability of EBDW into a productive CMOS process flow at the example of the 28nm SRAM technology node.

Published

2014

2. Effects on electron scattering and resist characteristics using assisting underlayers for e-beam direct write lithography

Author

Xaver Thrun, Thiago Figueiro, Douglas J. Guerrero, Johann W. Bartha, Christoph Hohle, Kang-Hoon Choi, Katja Steidel, and Norbert Hanisch

Subjects

Materials science, Optics, Optical coating, Resist, Stack (abstract data type), business.industry, Electron beam processing, Optoelectronics, Wafer, Substrate (electronics), business, Lithography, Electron-beam lithography

Abstract

Resist processing for future technology nodes becomes more and more complex. The resist film thickness is getting thinner and hardmask concepts (trilayer) are needed for reproducible etch transfer into the stack. Additional layers between resist and substrate are influencing the electron scattering in e-beam lithography and may also improve sensitivity and resolution. In this study, bare silicon wafers with different assisting underlayers were processed in a 300 mm CMOS manufacturing environment and were exposed on a 50 keV VISTEC SB3050DW variable-shaped electron beam direct writer at Fraunhofer CNT. The underlayers are organic-inorganic hybrid coatings with different metal additives. The negative-tone resist was evaluated in terms of contrast, sensitivity, resolution and LWR/LER as a function of the stack. The interactions between resist and different assisting underlayers on e-beam direct writing will be investigated. These layers could be used to optimize the trade-off among resolution, LWR and sensitivity in future applications.

Published

2013