Kazemi, F., Boehm, G., & Arnold, T. (2021). Recursive algorithm for modeling non-linear etching rates in reactive plasma jet based optical surface machining of borosilicate crown glass. Precision Engineering, 72, 205-214. https://doi.org/10.1016/j.precisioneng.2021.04.013

KAZEMI, Faezeh, BOEHM, Georg und ARNOLD, Thomas, 2021. Recursive algorithm for modeling non-linear etching rates in reactive plasma jet based optical surface machining of borosilicate crown glass. Precision Engineering. 1 November 2021. Vol. 72, , p. 205-214. DOI 10.1016/j.precisioneng.2021.04.013.

Kazemi, F., G. Boehm, und T. Arnold. „Recursive Algorithm for Modeling Non-Linear Etching Rates in Reactive Plasma Jet Based Optical Surface Machining of Borosilicate Crown Glass“. Precision Engineering, Bd. 72, November 2021, S. 205-14, https://doi.org/10.1016/j.precisioneng.2021.04.013.

Kazemi, Faezeh/Boehm, Georg/Arnold, Thomas: Recursive algorithm for modeling non-linear etching rates in reactive plasma jet based optical surface machining of borosilicate crown glass, Precision Engineering 2021, 205-214.

Kazemi, F., Boehm, G. und Arnold, T. (2021), „Recursive algorithm for modeling non-linear etching rates in reactive plasma jet based optical surface machining of borosilicate crown glass“, Precision Engineering, Vol. 72, S. 205-214.