Univ.-Prof. Dr. Patrick Görrn

M.Sc. Maximilian Buchmüller

Bergische Universität Wuppertal
Fakultät für Elektrotechnik, Informationstechnik und Medientechnik
Lehrstuhl für Großflächige Optoelektronik
Rainer-Gruenter-Strasse 21
D-42119 Wuppertal
Gebäude: FG / Raum: 1.08

Tel: +49 (0)202 439-1805
Fax: +49 (0)202 439-1804
E-mail: buchmueller{at}uni-wuppertal.de

Publikationen

A. Henkel, C. Knoth, M. Buchmüller, and P.Görrn
Electric Control of the In-Plane Deflection of Laser Beam Pairs within a Photonic Slab Waveguide
Optics (2024)
DOI: 10.3390/opt5030025

N. Kurahashi, M. Runkel, C. Kreusel, M. Schiffer, T. Maschwitz, T. Kraus, K. O. Brinkmann, R. Heiderhoff, M. Buchmüller, S. O. Schumacher, J. Brunner, D. Rogalla, S. Özen, F. Lang, Y. Vaynzof, P. Görrn, and T. Riedl
Distributed Feedback Lasing in Thermally Imprinted Phase-Stabilized CsPbI3 Thin Films
Adv. Funct. Mater. (2024)
DOI: 10.1002/adfm.202405976

M. Buchmüller
Light-Controlled Disorder-Engineering of Optical Metasurfaces
MRS Graduate Student Award Presentation, MRS Spring Meeting, Seattle (USA), (2024)

M. Buchmüller, S.O. Schumacher, and P. Görrn
Light-Controlled Disorder-Engineering of Optical Metasurfaces: Aspects of Design and Applications
MRS Spring Meeting, Seattle (USA), (2024)

M. Buchmüller, A. Henkel, S.O. Schumacher, C. Knoth, and P. Görrn
Zero Diffraction: A Novel Approach for High-Contrast Switching of Light
MRS Spring Meeting, Seattle (USA), (2024)

S.R. Bongu, M. Buchmüller, D. Neumaier, and P. Görrn
Introducing Optical Nonlinearity in PDMS Using Organic Solvent Swelling
Optics (2024)
DOI: 10.3390/opt5010005

S.R. Bongu, M. Buchmüller, D. Neumaier, and P. Görrn
Electric Control of Thermal Contributions to the Nonlinear Optical Properties of Nitrobenzene
Adv. Physics Res. 2300053 (2024)
DOI: 10.1002/apxr.202300053

M. Buchmüller, I. Shutsko, S. O. Schumacher, and P. Görrn:
Harnessing Short-Range Surface Plasmons in Planar Silver Films via Disorder-Engineered Metasurfaces
ACS Applied Optical Materials 1, 11, 1777–1782 (2023)
DOI: 10.1021/acsaom.3c00228

A. Henkel, S. O. Schumacher, M. Meudt, C. Knoth, M. Buchmüller, P. Görrn
High‐Contrast Switching of Light Enabled by Zero Diffraction
Adv. Photonics Res. 2300230 (2023)
DOI: 10.1002/adpr.202300230

M. Buchmüller, I. Shutsko, S. O. Schumacher, and P. Görrn:
Harnessing Short-Range Surface Plasmons in Planar Silver Films via Disorder-Engineered Metasurfaces
Preprint on ArXiv:  arXiv:2305.09983 [physics.optics] (2023).

M. Buchmüller, I.Shutsko, and P. Görrn
Light-Controlled Disorder-Engineering for Functional Optical Metasurfaces
5th World Congress of Advanced Materials Science, Barcelona, Spain, (2023) 

P. Görrn, A. Henkel, M. Meudt, and M. Buchmüller
Optical Sensors Based on Symmetric Waveguide Gratings
5th World Congress of Advanced Materials Science, Barcelona, Spain, (2023) 

I. Shutsko, M. Buchmüller, M. Meudt, and P. Görrn:
Light-Controlled Fabrication of Disordered Hyperuniform Metasurfaces
Adv. Mater. Technol. 7, 2200086 (2022).
DOI: 10.1002/admt.202200086

I. Shutsko, M. Buchmüller, M. Meudt, and P. Görrn:
Plasmon‐Induced Disorder Engineering for Robust Optical Sensors
Adv. Optical Mat. 10, 2102783 (2022).
DOI: 10.1002/adom.202102783

M. Meudt, A. Henkel, M. Buchmüller, and P. Görrn:
A Theoretical Description of Node-Aligned Resonant Waveguide Gratings
Optics 3 (1), 60-69 (2022).
DOI: 10.3390/opt3010008

M. Buchmüller, A. Henkel, M. Meudt, and P. Görrn
Hybrid Photonic-Plasmonic Bound States in Continuum
MRS Spring Meeting, Honolulu (USA), EQ10.09.10 (2022)
(Nanophotonics Best Student Presentation Award).

A. Henkel, M. Meudt, M. Buchmüller, C.Knoth, and P. Görrn
Switchable Waveguides for Novel Laser Displays and Scanners
MRS Spring Meeting, Honolulu (USA), EQ10.08.08 (2022).

A. Henkel, M. Meudt, M. Buchmüller, and P. Görrn:
Electrically Switchable Broadband Photonic Bound States in the Continuum
Preprint on ArXiv: arXiv:2102.01686 [physics.optics] (2021).

N. Pourdavoud, A. Mayer, M. Buchmüller, K. Brinkmann, T. Häger, T. Hu, R. Heiderhoff, I. Shutsko, P. Görrn, Y. Chen, H.-C. Scheer, and T. Riedl:
Distributed Feedback Lasers Based on MAPbBr3
Adv. Mater. Technol. 3, 1700253 (2018).
DOI: 10.1002/admt.201700253.

A. Mayer, M. Buchmüller, S. Wang, C. Steinberg, M. Papenheim, H.-C. Scheer, N. Pourdavoud, T. Haeger, and T. Riedl:
Thermal nanoimprint to improve the morphology of MAPbX3
J. Vac. Sci. & Technol. B 35, 06G803 (2017).
DOI: 10.1116/1.4991619

N. Pourdavoud, A. Mayer, M. Buchmüller, K. Brinkmann, T. Häger, T. Hu, R. Heiderhoff, I. Shutsko, P. Görrn, Y. Chen, H.-C. Scheer, and T. Riedl:
Low-Threshold Distributed Feedback Lasers Based on Thermally Imprinted MAPbBr3
MRS Fall Meeting, Boston (USA) ES01.12.09 (2017).

N. Pourdavoud, A. Mayer, S. Wang ,M. Buchmüller, K. Brinkmann, T. Haeger, T. Hu, R. Heiderhoff, A. Marianovich, I. Shutsko, P. Görrn,Y. Chen, W. Kowalsky, H.-C. Scheer, T. Riedl:
Low-threshold Distributed Feedback Lasers Prepared By Direct Thermal Nanoimprint Of Resonator Gratings Into Organo-metal Halide Perovskites 
Photonics @ SG, Singapore (Singapore) 3-1D-5 (2017)
(Nature Photonics Best Student Paper Award).

Weitere Infos über #UniWuppertal: