Controlled fabrication of advanced functional structures on the nanoscale by means of electron beam-induced processing

Sebastian W. Schmidt; Johann Foucher; Christian Penzkofer; Bernd Irmer

doi:10.1117/12.2017430

17 May 2013 Controlled fabrication of advanced functional structures on the nanoscale by means of electron beam-induced processing

Sebastian W. Schmidt, Johann Foucher, Christian Penzkofer, Bernd Irmer

Author Affiliations +

Proceedings Volume 8763, Smart Sensors, Actuators, and MEMS VI; 876316 (2013) https://doi.org/10.1117/12.2017430
Event: SPIE Microtechnologies, 2013, Grenoble, France

Abstract

The controlled deposition of materials by means of electron beam induced processing (EBIP) is a well-established patterning method, which allows for the fabrication of nanostructures with high spatial resolution in a highly precise and flexible manner. Applications range from the production of ultrathin coatings and nanoscaled conductivity probes to super sharp atomic force microscopy (AFM) tips, to name but a few. The latter are typically deposited at the very end of silicon or silicon-nitride tips, which are fabricated with MEMS technologies. EBIP therefore provides the unique ability to converge MEMS to NEMS in a highly controllable way, and thus represents an encouraging opportunity to refine or even develop further MEMS-based features with advanced functionality and applicability. In this paper, we will present and discuss exemplary application solutions, where we successfully applied EBIP to overcome dimensional and/or functional limitations. We therefore show the fabrication stability and accuracy of “T-like-shaped” AFM tips made from high density, diamond-like carbon (HDC/DLC) for the investigation of undercut structures on the base of CDR30-EBD tips. Such aggressive CD-AFM tip dimensions are mandatory to fulfill ITRS requirements for the inspection of sub-28nm nodes, but are unattainable with state-of-art Si-based MEMS technologies today. In addition to that, we demonstrate the ability of EBIP to realize field enhancement in sensor applications and the fabrication of cold field emitters (CFE). For example: applying the EBIP approach allows for the production of CFEs, which are characterized by considerably enhanced imaging resolution compared to standard thermal field emitters and stable operation properties at room temperature without the need for periodic cathode flashing – unlike typical CFEs. Based on these examples, we outline the strong capabilities of the EBIP approach to further downscale functional structures in order to meet future demands in the semiconductor industry, and demonstrate its promising potential for the development of advanced functionalities in the field of NEMS.

Citation Download Citation

Sebastian W. Schmidt, Johann Foucher, Christian Penzkofer, and Bernd Irmer "Controlled fabrication of advanced functional structures on the nanoscale by means of electron beam-induced processing", Proc. SPIE 8763, Smart Sensors, Actuators, and MEMS VI, 876316 (17 May 2013); https://doi.org/10.1117/12.2017430

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