ISSN:
0171-8096
Content:
The extension of nanopositioning and nanomeasuring machines (NPM-machines) to fabrication machines by using a femtosecond laser for the implementation of direct laser writing by means of two-photon absorption (2PA) is a promising approach for cross-scale metrological fabrication in the field of lithographic techniques [24]. To this end, a concept for integrating two-photon technology into an NPM machine was developed and implemented, followed by a characterization of the system and targeted investigations to provide evidence for the synergy of the two techniques. On this basis, a new approach to high-throughput micro- and nano-fabrication was developed and investigated, demonstrating new possibilities in cross-scale, high-precision manufacturing [6]. This mix-and-match approach is based on a combination of 2PA laser writing with field emission lithography to fabricate masters for subsequent nanoimprint lithography. Not only the advantages of the large positioning range of the NMM-1 could be highlighted, but also the advantages resulting from the highly accurate positioning. A systematic reduction of the distance between two adjacent lines resulted in a minimum photoresist width of less than [Math Processing Error] [16], which can be classified among the smallest distances between two laser-written lines described in the literature [4], [10], [20]. The center-to-center distance of the lines of about [Math Processing Error] at a numerical aperture of 0.16 and a wavelength of 801 nm is only about [Math Processing Error] of the Rayleigh diffraction limit extended for the two-photon process. Thus, for the first time, a resist width far below the diffraction limit could be realized with conventional two-photon laser writing in positive photoresist.
Note:
Sprache der Zusammenfassung: Englisch und Deutsch
In:
Technisches Messen, Berlin : de Gruyter, Oldenbourg, 1976, 89(2022), 7/8, Seite 507-514, 0171-8096
In:
volume:89
In:
year:2022
In:
number:7/8
In:
pages:507-514
Language:
English
DOI:
10.1515/teme-2021-0127
Author information:
Reinhardt, Carsten 1972-
Author information:
Manske, Eberhard 1956-
Author information:
Mohr-Weidenfeller, Laura 1993-
Author information:
Hofmann, Martin 1989-