Joerg Petschulat
Joerg Petschulat
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Cited by
Cited by
Multipole approach to metamaterials
J Petschulat, C Menzel, A Chipouline, C Rockstuhl, A Tünnermann, ...
Physical Review A 78 (4), 043811, 2008
Security element
M Rahm, M Dichtl, M Heim, H Lochbihler, T Kampfe, T Pertsch, ...
US Patent 9,004,540, 2015
The origin of magnetic polarizability in metamaterials at optical frequencies-an electrodynamic approach
C Rockstuhl, T Zentgraf, E Pshenay-Severin, J Petschulat, A Chipouline, ...
Optics express 15 (14), 8871-8883, 2007
Scattering properties of meta-atoms
C Rockstuhl, C Menzel, S Mühlig, J Petschulat, C Helgert, C Etrich, ...
Physical Review B 83 (24), 245119, 2011
Doubly resonant optical nanoantenna arrays for polarization resolved
J Petschulat, D Cialla, N Janunts, C Rockstuhl, U Hübner, R Möller, ...
Optics Express 18 (5), 4184-4197, 2010
High-resolution wavefront shaping with a photonic crystal fiber for multimode fiber imaging
LV Amitonova, A Descloux, J Petschulat, MH Frosz, G Ahmed, F Babic, ...
Optics letters 41 (3), 497-500, 2016
Understanding the electric and magnetic response of isolated metaatoms by means of a multipolar field decomposition
J Petschulat, J Yang, C Menzel, C Rockstuhl, A Chipouline, P Lalanne, ...
Optics express 18 (14), 14454-14466, 2010
Simple and versatile analytical approach for planar metamaterials
J Petschulat, A Chipouline, A Tünnermann, T Pertsch, C Menzel, ...
Physical Review B 82 (7), 075102, 2010
Investigation on the second part of the electromagnetic SERS enhancement and resulting fabrication strategies of anisotropic plasmonic arrays
D Cialla, J Petschulat, U Hübner, H Schneidewind, M Zeisberger, ...
ChemPhysChem 11 (9), 1918-1924, 2010
Ultrafast plasmon dynamics and evanescent field distribution of reproducible surface-enhanced Raman-scattering substrates
D Cialla, R Siebert, U Hübner, R Möller, H Schneidewind, R Mattheis, ...
Analytical and bioanalytical chemistry 394 (7), 1811-1818, 2009
Multipole nonlinearity of metamaterials
J Petschulat, A Chipouline, A Tünnermann, T Pertsch, C Menzel, ...
Physical Review A 80 (6), 063828, 2009
Comparison of femtosecond laser-induced damage on unstructured vs. nano-structured Au-targets
C Kern, M Zürch, J Petschulat, T Pertsch, B Kley, T Käsebier, U Hübner, ...
Applied Physics A 104 (1), 15-21, 2011
Design rules for customizable optical materials based on nanocomposites
D Werdehausen, I Staude, S Burger, J Petschulat, T Scharf, T Pertsch, ...
Optical Materials Express 8 (11), 3456-3469, 2018
Optical resonances of self-organized monocrystalline Au nanoparticles embedded in SrTiO 3 matrix
S Christke, C Katzer, V Grosse, F Schmidl, G Schmidl, W Fritzsche, ...
Optical Materials Express 1 (5), 890-897, 2011
Optical properties of metamaterials based on asymmetric double-wire structures
E Pshenay-Severin, A Chipouline, J Petschulat, U Hübner, A Tünnermann, ...
Optics express 19 (7), 6269-6283, 2011
Multipole approach in electrodynamics of metamaterials
A Chipouline, J Petschulat, A Tuennermann, T Pertsch, C Menzel, ...
Applied Physics A 103 (3), 899-904, 2011
Plasmonic modes of extreme subwavelength nanocavities
J Petschulat, C Helgert, M Steinert, N Bergner, C Rockstuhl, F Lederer, ...
Optics letters 35 (16), 2693-2695, 2010
Simulating multiple diffraction in imaging systems using a path integration method
M Mout, M Wick, F Bociort, J Petschulat, P Urbach
Applied optics 55 (14), 3847-3853, 2016
Negative-index materials: Two approaches for nanofabricated metamaterials
U Huebner, J Petschulat, E Pshenay-Severin, A Chipouline, T Pertsch, ...
Microelectronic engineering 86 (4-6), 1138-1141, 2009
Optical properties of stochastic subwavelength surface structures
R Leitel, J Petschulat, A Kaless, U Schulz, O Stenzel, N Kaiser
Optical Fabrication, Testing, and Metrology II 5965, 59651O, 2005
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