Carsten Backhaus

Thomson Researcher ID: A-3741-2019



Organisation


Lehrstuhl für Experimentalphysik (Optik)


Project member


TP 6: Modellbildung und Simulation optischer Komponenten auf opto-mechatronischen Baugruppen zur Abbildung charakteristischer Kenngrößen
Prof. Dr. Norbert Lindlein
(01/05/2018 - 30/04/2021)

(FOR 1660: Optical Design and Interconnection Technology for Assembly-Integrated Bus Systems):
FOR 1660: Integrated information technology for the optical simulation and the function/production oriented design of spatial optomechatronic assemblies
Prof. Dr. Norbert Lindlein
(01/11/2014 - 31/12/2017)


Publications (Download BibTeX)

Go to first page Go to previous page 1 of 2 Go to next page Go to last page

Backhaus, C., Lindlein, N., Zeitler, J., & Franke, J. (2019). Beeinflussung der optischen Eigenschaften von Polymer Optischen Wellenleitern durch das Druckpfad-Design. In DGaO Proceedings. Darmstadt.
Reitberger, T., Zeitler, J., Backhaus, C., Hoffmann, G.-A., Wienke, A., Lorenz, L.,... Franke, J. (2019). Modeling, Simulation and Manufacturing of Polymer Optical Waveguides by Using the OPTAVER Process. In Proceedings of the Applied Industrial Optics: Spectroscopy, Imaging and Metrology 2019.
Zeitler, J., Reitberger, T., Reichle, A., Backhaus, C., Lindlein, N., & Franke, J. (2019). Technical Modelling Approach for Spatial Integrated Optomechatronic Products. In Goran D. Putnik (Eds.), Procedia CIRP, Volume 84 (pp. 713-718). Póvoa de Varzim, PT: Elsevier.
Backhaus, C., Loosen, F., Vögl, C., Mansuroglu, R., & Lindlein, N. (2018). Anwendung von Beam-Propagation-Method und Wave-Propagation-Method zur Simulation innovativ gedruckter Lichtwellenleiter. In DGaO Proceedings 2018. Aalen, DE.
Loosen, F., Backhaus, C., Vögl, C., & Lindlein, N. (2018). Simulationen zur Erfassung der Güte gedruckter Polymer Optischer Wellenleiter (POWs) bei Variation signifikanter Charakteristika. In DGaO (Hrg.), Proceeding, 119. DGaO-Jahrestagung. Aalen.
Loosen, F., Backhaus, C., Zeitler, J., Hoffmann, G.-A., Reitberger, T., Lorenz, L.,... Bock, K. (2017). Approach for the production chain of printed polymer optical waveguides–an overview. Applied Optics, 56(31), 8607-8617. https://dx.doi.org/10.1364/AO.56.008607
Backhaus, C., Loosen, F., & Lindlein, N. (2017). Effiziente Berechnung der Impulsantwort zeitabhängiger Signale in gedruckten Polymer Optischen Wellenleitern (POWs). In DGaO (Eds.), Proceeding, 118. DGaO-Jahrestagung. Dresden.
Zeitler, J., Reichle, A., Franke, J., Loosen, F., Backhaus, C., & Lindlein, N. (2016). Computer-Aided Design and Simulation of Spatial Opto-Mechatronic Interconnect Devices. In Proceedings of the 26th CIRP Design Conference, 2016 (pp. 727-732). Elsevier.
Loosen, F., Backhaus, C., Lindlein, N., Zeitler, J., & Franke, J. (2016). Design and simulation rules for printed optical waveguides with implemented scattering methods in CAD and raytracing software. In Proceeding, 117. DGaO-Jahrestagung. Hannover: DGaO.
Loosen, F., Backhaus, C., Lindlein, N., Zeitler, J., & Franke, J. (2016). Implementation of a Scattering Method for Rough Surfaces in a Raytracing Software linked with a CAD (Computer-Aided Design) Toolbox. In Frontiers in Optics 2016, OSA Technical Digest (online) (Optical Society of America, 2016), paper FW3H.2. Rochester: OSA.

Last updated on 2019-02-09 at 14:58