2009 - OSA Fellows For pioneering results in the theory of nonlinear guided waves, discrete optical solitons, and nonlinear optics of dissipative and periodic structures.
Falk Lederer mainly investigates Optics, Nonlinear system, Metamaterial, Classical mechanics and Condensed matter physics. Optics is closely attributed to Optoelectronics in his work. The Nonlinear system study combines topics in areas such as Dispersion relation and Dielectric.
His Metamaterial research integrates issues from Wave propagation, Polarization and Terahertz radiation. His Classical mechanics research incorporates themes from Vortex and Nonlinear medium. As a member of one scientific family, he mostly works in the field of Condensed matter physics, focusing on Photonics and, on occasion, Photonic crystal.
Falk Lederer mostly deals with Optics, Optoelectronics, Nonlinear system, Nonlinear optics and Metamaterial. His Optics study is mostly concerned with Photonic crystal, Refractive index, Resonator, Diffraction and Plasmon. His studies in Optoelectronics integrate themes in fields like Thin film and Absorption.
In his study, which falls under the umbrella issue of Nonlinear system, Instability is strongly linked to Classical mechanics. His Nonlinear optics study integrates concerns from other disciplines, such as Second-harmonic generation and Bistability. His Metamaterial research includes themes of Dispersion relation and Condensed matter physics.
Falk Lederer mainly focuses on Optics, Optoelectronics, Metamaterial, Plasmon and Condensed matter physics. The concepts of his Optics study are interwoven with issues in Dielectric and Nonlinear system. His Nonlinear system study incorporates themes from Wavelength and Diffraction.
He has included themes like Thin film and Absorption in his Optoelectronics study. The various areas that Falk Lederer examines in his Metamaterial study include Magnetism and Permittivity. Classical mechanics is closely connected to Wave propagation in his research, which is encompassed under the umbrella topic of Transformation optics.
The scientist’s investigation covers issues in Optics, Optoelectronics, Metamaterial, Plasmon and Surface plasmon polariton. His Optics study combines topics in areas such as Dipole and Nonlinear system. His Nonlinear system research is multidisciplinary, incorporating elements of Condensed matter physics and Topology.
His work in the fields of Optoelectronics, such as Terahertz radiation, overlaps with other areas such as Coupling. Falk Lederer combines subjects such as Absorption, Plasmonic metamaterials and Superlattice with his study of Metamaterial. His work carried out in the field of Plasmon brings together such families of science as Cloaking, Nanochemistry, Self assembled, Magnetic dipole and Dielectric.
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Discretizing light behaviour in linear and nonlinear waveguide lattices.
Demetrios N. Christodoulides;Falk Lederer;Yaron Silberberg.
Discrete Solitons in Optics
Falk Lederer;George I. Stegeman;Demetri N. Christodoulides;Gaetano Assanto.
Physics Reports (2008)
High-power air-clad large-mode-area photonic crystal fiber laser.
Jens Limpert;T. Schreiber;S. Nolte;H. Zellmer.
Optics Express (2003)
Asymmetric transmission of linearly polarized light at optical metamaterials.
C. Menzel;C. Helgert;C. Rockstuhl;E.-B. Kley.
Physical Review Letters (2010)
A perfect absorber made of a graphene micro-ribbon metamaterial.
Rasoul Alaee;Mohamed Farhat;Carsten Rockstuhl;Falk Lederer.
Optics Express (2012)
Coupling between a dark and a bright eigenmode in a terahertz metamaterial
Ranjan Singh;Carsten Rockstuhl;Falk Lederer;Weili Zhang.
Physical Review B (2009)
Discrete self-trapping, soliton interactions, and beam steering in nonlinear waveguide arrays.
A. B Aceves;C. De Angelis;T. Peschel;R. Muschall.
Physical Review E (1996)
Anomalous refraction and diffraction in discrete optical systems.
T. Pertsch;T. Zentgraf;U. Peschel;A. Bräuer.
Physical Review Letters (2002)
Analogue of electromagnetically induced transparency in a terahertz metamaterial
Sher-Yi Chiam;Ranjan Singh;Carsten Rockstuhl;Falk Lederer.
Physical Review B (2009)
Optical Bloch oscillations in waveguide arrays.
U Peschel;T Pertsch;F Lederer.
Optics Letters (1998)
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