Busch, Kurt - Department of Physics, Univ. Karlsruhe

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Busch, Kurt - Department of Physics, Univ. Karlsruhe

Measuring randomness with periodic media Alain Hache a,*, Mohit Malik a
Three-dimensional face-centered-cubic photonic crystal templates by laser holography: fabrication, optical characterization, and band-structure
INSTITUTE OF PHYSICS PUBLISHING NANOTECHNOLOGY Nanotechnology 14 (2003) 177183 PII: S0957-4484(03)52714-3
Chaotic scattering of solitons on point defects in fiber Bragg gratings
Attenuation of optical transmission within the band gap of thin two-dimensional macroporous silicon photonic crystals
Lasing mechanisms in organic photonic crystal lasers with two-dimensional distributed feedback
VOLUME 82, NUMBER 9 P H Y S I C A L R E V I E W L E T T E R S 1 MARCH 1999 Comment on "Energy Velocity of Diffusing Waves
Quantenfluktuationen im EinzelElektronenTransistor
Near-field optical microscopy and spectroscopy of one-dimensional metallic photonic crystal slabs Institut fr Nanotechnologie, Forschungszentrum Karlsruhe in der Helmholtz-Gemeinschaft, D-76021 Karlsruhe, Germany
VOLUME 83, NUMBER 5 P H Y S I C A L R E V I E W L E T T E R S 2 AUGUST 1999 Liquid-Crystal Photonic-Band-Gap Materials: The Tunable Electromagnetic Vacuum
Transport Theorie fur wechselwirkende Quantenpunkte
Anleitung zu measure dynamics Nach dem Start des Programms kann mit einen Klick auf ,,Video laden" und der Auswahl des Vi-
Z. angew. Math. Phys. 57 (2006) 905939 0044-2275/06/060905-35
Radiating dipoles in photonic crystals Kurt Busch,1,2
EUROPHYSICS LETTERS 1 October 1999 Europhys. Lett., 48 (1), pp. 22-28 (1999)
Physics Reports 444 (2007) 101202 www.elsevier.com/locate/physrep
EXTRACTION OF SIGNALS IN THE PRESENCE OF STRONG NOISE: CONCEPTS AND EXAMPLES
Suppression of the critical angle of diffraction in thin-film colloidal photonic crystals Sergei G. Romanov*
Arbitrary angle waveguiding applications of two-dimensional curvilinear-lattice photonic crystals
Institutsseminar Laboratorium fr Elektronenmikroskopie Seminarraum F229-3(2. Stock, Physik Flachbau), Seminarbeginn 16:30 Uhr
Submitted to Reviews of Modern Physics Quantum state engineering with Josephsonjunction devices
Microscopic theory of semiconductor nano-structure optics
Prof. Peter Wlfle 1 Publication Listing Professor Dr. Peter Wlfle List of Publications
www.kit.edu Monika Landgraf
IOP PUBLISHING JOURNAL OF OPTICS A: PURE AND APPLIED OPTICS J. Opt. A: Pure Appl. Opt. 11 (2009) 114015 (10pp) doi:10.1088/1464-4258/11/11/114015
Annual Progress Report Theoretical and Experimental Studies of Topological Excitations
Three-dimensional photonic crystals by holographic lithography using the umbrella configuration: Symmetries and complete photonic band gaps
IOP PUBLISHING JOURNAL OF OPTICS A: PURE AND APPLIED OPTICS J. Opt. A: Pure Appl. Opt. 11 (2009) 114009 (8pp) doi:10.1088/1464-4258/11/11/114009
Diploma thesis: Experiments on phase qubit coupled
Far-off-resonant wave interaction in one-dimensional photonic crystals with quadratic nonlinearity Johannes-Geert Hagmann,* Lasha Tkeshelashvili, and Kurt Busch
KIT Universitt des Landes Baden-Wrttemberg und nationales Forschungszentrum in der Helmholtz-Gemeinschaft www.kit.edu Karlsruher Institut fr Technologie (KIT)
Modulhandbuch Studiengang Bachelor Physik
ERASMUS Mundus Master Program Europhotonics (EMMC)
Karlsruher Institut fr Technologie Universitt des Landes Baden-Wrttemberg und
Amtliche Bekanntmachung 2008 Ausgegeben Karlsruhe, den 10. September 2008 Nr. 81
Amtliche Bekanntmachung 2008 Ausgegeben Karlsruhe, den 10. September 2008 Nr. 84
Karlsruher Institut fr Technologie Universitt des Landes Baden-Wrttemberg und
Amtliche Bekanntmachung 2008 Ausgegeben Karlsruhe, den 10. September 2008 Nr. 82
Schema BSc/MSc Geophysik Seite 1/1 schema 02.06.2008 11:11:18
Universitt Karlsruhe (TH) Amtliche Bekanntmachung
Nr. 1 / WS 2009/2010Nr. 1 / WS 2009/2010Eulen-Info der Fachschaft Physik
Transport in Nanostrukturen CFN Ringvorlesung 2009/2010
Facility Online Manager Instruction for users
Generation of adaptive coordinates and their use in the Fourier Modal Method
Diploma thesis: Experiments with superconducting
Transport properties of random media: An energy-density CPA approach Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011
Optical nonlinear response of a single nonlinear dielectric layer sandwiched between two linear dielectric structures
Thermal emission from finite photonic crystals Christian J. Schuler,1
Two-dimensional Green's function and local density of states in photonic crystals consisting of a finite number of cylinders of infinite length
Optical trapping, Field enhancement and Laser cooling in photonic crystals
Discontinuous Galerkin time-domain computations of metallic nanostructures
August 2002 Einfhrung zur Fehlerrechnung im Praktikum
Early View publication on wileyonlinelibrary.com (issue and page numbers not yet assigned;
Analysis of light propagation in slotted resonator based systems via
Journal of Modern Optics Vol. 58, Nos. 56, 1020 March 2011, 365383
Photonic-crystal time-domain simulations using Wannier functions
The Discontinuous Galerkin Time-Domain method for Maxwell's equations with anisotropic materials
Electromagnetic interaction of split-ring resonators: The role of separation and relative
Few-Photon Transport in Low-Dimensional Systems: Interaction-Induced Radiation Trapping Paolo Longo
Appl Phys B (2009) 96: 749755 DOI 10.1007/s00340-009-3527-7
IOP PUBLISHING JOURNAL OF OPTICS A: PURE AND APPLIED OPTICS J. Opt. A: Pure Appl. Opt. 11 (2009) 114012 (6pp) doi:10.1088/1464-4258/11/11/114012
Absolute extinction cross-section of individual magnetic split-ring resonators
Wannier-function based scattering-matrix formalism for photonic crystal circuitry
Efficient modeling of nonlinear wave propagation and radiation dynamics in nano-photonic systems
phys. stat. sol. (b) 244, No. 10, 34793496 (2007) / DOI 10.1002/pssb.200743290 2007 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim
DOI: 10.1007/s00340-005-2120-y Appl. Phys. B 82, 539541 (2006)
Theory of light diffusion in disordered media with linear absorption or gain A. Lubatsch and J. Kroha
2858 OPTICS LETTERS / Vol. 29, No. 24 / December 15, 2004 Tunable photonic crystal circuits: concepts and designs based
Europhys. Lett., 68 (2), pp. 205211 (2004) DOI: 10.1209/epl/i2004-10181-x
All-optical diode in an asymmetrically apodized Kerr nonlinear microresonator system
INSTITUTE OF PHYSICS PUBLISHING JOURNAL OF PHYSICS: CONDENSED MATTER J. Phys.: Condens. Matter 15 (2003) R1233R1256 PII: S0953-8984(03)36570-1
A solid state theoretical approach to the optical properties of photonic crystals
April 15, 2003 / Vol. 28, No. 8 / OPTICS LETTERS 619 Scattering matrix approach to large-scale
INSTITUTE OF PHYSICS PUBLISHING WAVES IN RANDOM MEDIA Waves Random Media 13 (2003) 925 PII: S0959-7174(03)52428-4
Photonic band structure computations Daniel Hermann, Meikel Frank, Kurt Busch,
JOURNAL OF LIGHTWAVE TECHNOLOGY, VOL. 17, NO. 11, NOVEMBER 1999 1931 Photonic Bandgap Formation and Tunability
Macroporous silicon with a complete two-dimensional photonic band gap centered at 5 m
The First International Workshop on Theoretical and Computational Nano-Photonics
Prof. Dr. Uli Lemmer Light Technology Institute, Universitt Karlsruhe (TH)
Demo -/F -Praktikum im SS 11 Gruppe 1 Gruppe 2 Gruppe 3 Gruppe 4 Gruppe 5 Gruppe 6
Theoretical and computational concepts for periodic
The Route to NegativeThe Route to Negative--IndexIndex MetamaterialsMetamaterialsMetamaterialsMetamaterials
Unified framework for numericalUnified framework for numerical algorithms to solve the timealgorithms to solve the time--
Zuse Institute Berlin DFG Research Center
Diploma thesis: Evaluation of dielectric loss in
PHOTONS AND PHOTON CORRELATION SPECTROSCOPY RALPH V. BALTZ
Prof. Peter Wlfle 1 Publication Listing Professor Dr. Peter Wlfle
KIT University of the State of Baden-Wuerttemberg and National Research Center of the Helmholtz Association www.kit.edu Karlsruhe Institute of Technology (KIT)
www.wiley-vch.de Stimulated by the pioneering work of Sajeev John and Eli Yablono-
Prof. Dr. Peter Wlfle Institut fr Theorie der Kondensierten Materie
INSTITUTE OF PHYSICS PUBLISHING JOURNAL OF OPTICS A: PURE AND APPLIED OPTICS J. Opt. A: Pure Appl. Opt. 3 (2001) S121S132 PII: S1464-4258(01)26774-9
Universit de Provence Universit Aix-Marseille III
Semiclassical theory of lasing in photonic crystals Lucia Florescu
Fluorescence and lasing in three-dimensional photonic crystals Nipun Vats, Kurt Busch and Sajeev John
Stretched-coordinate PMLs for Maxwell's equations in the discontinuous
Europhys. Lett., 73 (2), pp. 225231 (2006) DOI: 10.1209/epl/i2005-10388-3
444 nature materials | VOL 3 | JULY 2004 | www.nature.com/naturematerials hepastdecadehaswitnessedintensiveresearcheffortsrelatedtothe
Electromagnetic Green's function calculation with finite difference time domain method
Diploma thesis: Error correction methods
Autor: U. Lemmer CFN-Ringvorlesung 2009/2010 Organische Leuchtdioden (OLEDs)
IOP PUBLISHING JOURNAL OF OPTICS A: PURE AND APPLIED OPTICS J. Opt. A: Pure Appl. Opt. 11 (2009) 114005 (10pp) doi:10.1088/1464-4258/11/11/114005
Prof. Dr. Uli Lemmer Lichttechnisches Institut, Universitt Karlsruhe (TH)
Boundary Methods for Optical Nano Christian Hafner
Transport properties of random arrays of dielectric cylinders A. Kirchner
Photonic band gap formation in certain self-organizing systems Kurt Busch and Sajeev John
SingleElectron Tunneling Gerd Schon
Curriculum vitae Name: Prof. Dr. Uli Lemmer
Negative-index or left-handed materials (LHM) are characterised by simultaneously negative permeability and permittivity . Due to these
Diffraction properties of two-dimensional photonic crystals G. von Freymanna)
Optical characterisation of 2D macroporous silicon photonic crystals with bandgaps around 3.5 and 1.3 lm
Second-harmonic generation from split-ring resonators on a GaAs substrate
Dr. Martina Gerken Lichttechnisches Institut, Universitt Karlsruhe (TH)
phys. stat. sol. (a) 204, No. 11, 35913599 (2007) / DOI 10.1002/pssa.200776409 2007 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim
Theory of fluorescence in photonic crystals Nipun Vats* and Sajeev John
Diploma thesis: Searching for "Mnchhausen effect"
Photonic crystals with anomalous dispersion: Unconventional propagating modes in the photonic band gap
8:00-8:45 Breakfast 8:45-9:00 Welcome Address
Program Abstract Booklet
Studienplan Das Studium des Fachs Physik fr das Lehramt an Gymnasien
IEEE TRANSACTIONS ON ANTENNAS AND PROPAGATION, VOL. 57, NO. 2, FEBRUARY 2009 475 Time-Domain Simulations of the Nonlinear Maxwell
Highly localized Wannier functions for the efficient modeling of Photonic Crystal Circuits
Appl. Phys. B 81, 225229 (2005) Applied Physics B DOI: 10.1007/s00340-005-1815-4 Lasers and Optics
IEEE PHOTONICS TECHNOLOGY LETTERS, VOL. 17, NO. 9, SEPTEMBER 2005 1875 Wannier Basis Design and Optimization of a
RELAXATION AND DECOHERENCE: WHAT'S NEW? RALPH V. BALTZ
Higher-order time-domain methods for the analysis of nano-photonic systems
Ann. Phys. (Berlin) 18, No. 12, 882 886 (2009) / DOI 10.1002/andp.200910387 Light transport and correlation length in a random laser
Nonlinear wave interaction in photonic band gap materials Lasha Tkeshelashvili a,b
Thermal radiation in photonic crystals Marian Florescu,1,2,
Promotionsordnung der Universitt Karlsruhe (TH) fr die Fakultt fr Physik
Dr. rer. nat. habil. Hans-Jurgen Eisler Professional
Materials Science in Semiconductor Processing 3 (2000) 487491 Transmission of a microcavity structure in a two-dimensional
2010 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim 4731 www.advmat.de
Thomas Sndergaard, 386 WE-Heraeus Seminar "Computational Nano-Photonics", Feb. 27, 2007 Modeling of Plasmonic Nanostructures
C. R. Physique 3 (2002) 5366 lectromagntisme, optique/Electromagnetism, optics
Silicon-Based Photonic Crystals** By Albert Birner, Ralf B. Wehrspohn,
Martin Wegener Nanophotonics
Amtliche Bekanntmachung 2008 Ausgegeben Karlsruhe, den 10. September 2008 Nr. 85
Diplomarbeit Am Physikalischen Institut ist in der Arbeitsgruppe von PD Dr. Goll sofort
Modulhandbuch Studiengang Bachelor Geophysik
Amtliche Bekanntmachung 2008 Ausgegeben Karlsruhe, den 10. September 2008 Nr. 83
Modulhandbuch Studiengang Bachelor Meteorologie
Studienplan fr den Bachelor-Studiengang Physik Stand 16.03.2009
Amtliche Bekanntmachung 2008 Ausgegeben Karlsruhe, den 10. September 2008 Nr. 80
Studienplan fr den Bachelor-Studiengang Physik Stand 05.07.2010
LightLight--MatterMatter Interaction inInteraction in PhotonicPhotonic CrystalCrystal SlabsSlabs
The Karlsruhe Institute of Technology has recently established a research group "Electronic properties of graphene". In this research group, two doctorate student positions are available.
Tunable two-dimensional photonic crystals using liquid-crystal infiltration S. W. Leonard, J. P. Mondia, H. M. van Driel, O. Toader, and S. John
2010 WILEY-VCH Verlag GmbH & Co. KGaA, WeinheimAdv. Mater. 2010, 22, 51735177 5173 www.advmat.de
DOI: 10.1002/adma.200600412 Shrinkage Precompensation of Holographic Three-Dimensional
5-Mar-07 www.com.dtu.dk 1 Department of Communications, Optics & Materials
"There is nothing more practical than a good theory." Immanuel Kant (1724-1804), Konigsberg Kaliningrad
Prof. Dr. Uli Lemmer Light Technology Institute
A2.8 (Kalt / Hetterich) [A2.8:1] * D. Litvinov, D. Gerthsen, A. Rosenauer, M. Schowalter, T. Passow, P.
C5.4 (H. Puchta) [C5.4:1] S. Blanck, D. Kobbe, F. Hartung, K. Fengler, M. Focke, and H. Puchta, A SRS2
Title & Speaker until 12:15 Arrival, check-in, registration
A2.5 (D. Litvinov / D. Gerthsen) [A2.5:1] * W. Lffler, D. Trndle, J. Fallert, H. Kalt, D. Litvinov, D. Gerthsen, J. Lupaca-
all day Arrival and check-in 18:00 Informal get-together and light snack
all day arrival and check-in 18:00 informal get-together and light snack
Lichttechnisches Institut (LTI) DFG-Heisenberg-Group ,,Nanoscale Science"
F3.2 (C. Feldmann) [F3.2:1] E. Hammarberg and C. Feldmann, In0
E2.3 (M. Bastmeyer) [E2.3:1] A.C. von Philipsborn, S. Lang, J. Loeschinger, A. Bernard, C. David, D. Lehnert,
Gremienarbeit Dr.-Ing. Karl Manz United Nations Economic and Social Council -Economic Commission for Europe
Spatio-spectral characterization of photonic meta-atoms with electron energy-loss
F1.2 (D. Gerthsen / U. Lemmer) [F1.2:1] A. Colsmann, J. Junge, C. Kayser, and U. Lemmer, Organic tandem solar cells
A2.3 (H. Kalt, M. Hetterich) [A2.3:1] * W. Lffler, D. Trndle, J. Fallert, H. Kalt, D. Litvinov, D. Gerthsen, J. Lupaca-
F2.1 (D. Gerthsen / E. Ivers-Tiffe) [F2.1:1] M. Burriel, C. Niedrig, W. Menesklou, S.F. Wagner, J. Santiso, and E. Ivers-
PHYSICAL REVIEW A 84, 013814 (2011) Scalar wave propagation in random amplifying media: Influence of localization effects on length
ANATOLIY SLOBODSKYY LIST OF PUBLICATIONS
PHYSICAL REVIEW A 83, 063828 (2011) Few-photon transport in low-dimensional systems
C4.10 (W. Wulfhekel) [C4.10:1] A.F. Takacs, F. Witt, S. Schmaus, T. Balashov, M. Bowen, E. Beaurepaire, and
Distance-dependence of the coupling between split-ring resonators and single-quantum-well gain
A5.4 (H. Kalt) [A5.4:1] S.-Y. Seo, R.-J. Zhang, W. Lffler, H. Kalt, K.J. Kim, and M. Zacharias, Far-field
C3.3 (W. Klopper) [C3.3:1] H. Fliegl, C. Httig, and W. Klopper, Coupled-cluster response theory with linear-
KIT -Universitt des Landes Baden-Wrttemberg und nationales Forschungszentrum in der Helmholtz-Gemeinschaft
Computing electron energy loss spectra with the Discontinuous Galerkin Time-Domain method
Physikalisches Demonstrationspraktikum Versuch: Moderne Physik
Vorlufiger Studienplan Das Studium des Fachs Physik fr das Lehramt an Gymnasien
Prof. Dr. Uli Lemmer Light Technology Institute, Karlsruhe Institute of Technology (KIT)
Publikationsliste: [16] S. Bubel, N. Mechau, R. Schmechel, "Electronic properties of polyvinylpyrrolidone at the zinc
1 Die Kosmische Kanne Mit diesem Versuchsaufbau sollen auf der Erde auftreffende Myonen gemes-
Anleitung fur die Benutzung der optischen Andreas Langendorfer
Demo -/F -Praktikum im WS 11/12 Gruppe 1 Gruppe 2 Gruppe 3 Gruppe 4 Gruppe 5 Gruppe 6 Gruppe 7
A5.5 Lemmer Subproject A5.5
F3.3 (H. Hahn) [F3.3:1] S. Indris, M. Scheuermann, S. Becker, V. Sepelk, J. Suffner, C. Feldmann, A.
E2.2 Wedlich, Gliemann Subproject E2.2
Project F2 `Nanomaterials for Fuel Cells' F2.1 ,Nanostructured Functional Layers for Advanced Oxygen Separation Membranes'
B2.11 Mirlin Subproject B2.11
B2.02 Schn, Teilprojekt B2.02
C4.11 Evers/Woelfle Subproject C4.11
A4.6 (T. Schimmel) [A4.6:1] * Ch. Poulton, Ch. Koos, M. Fujii, A. Pfrang, Th. Schimmel, J. Leuthold, and W.
A4.4 (J. Leuthold / W. Freude) [A4.4:1] C. Koos, M. Fujii, C.G. Poulton, R. Steingrueber, J. Leuthold, and W. Freude,
Research Area C `Molecular Nanostructures' Project C1 `Synthesis and Structural Characterization of Molecule-Based
B1.9 Krupke Subproject B1.9
E1.2 Ulrich Subproject E1.2
C1.4 Feldmann Subproject C1.4
Project C5 `Bio-Assembly of Nanostructured Crystals' C5.1 `Simulating Nanoscale Structure Formation' (W. Wenzel)
Research Area F `Nano-Energy' Project F1 `Organic Solar Cells'
Subproject E1.5 Use of Nanoparticles to Study and Manipulate the Polarity of
B2.11 (Mirlin) [B2.11:1] S. Florens, L. Fritz, and M. Vojta, The Kondo effect in bosonic spin liquids, Phys.
A1.1 (K. Busch) [A1.1:1] * K. Forberich, A. Gombert, S. Pereira, J. Crewett, U. Lemmer, M. Diem, and
F2.1 Gerthsen, Ivers-Tiffe
C3.12 Feldmann Subproject C3.12
C1.5 (P. Roesky) [C1.5:1] * M.T. Gamer, P.W. Roesky, S.N. Konchenko, P. Nava, and R. Ahlrichs,
C4.1 (H. von Lhneysen / R. Krupke / M. Lukas) [C4.1:1] * R. Krupke, S. Linden, M. Rapp, and F. Hennrich, Thin films of metallic carbon
A2.7 Schaadt Subproject A2.7
A2.3 Kalt, Hetterich Subproject A2.3
E1.2 (A. Ulrich) [E1.2:1] P.K. Mikhailiuk, S. Afonin, A.N. Chernega, E.B. Rusanov, M.O. Platonov, G.G.
C1.2 Powell... Subproject C1.2
C4.6 (M. Kappes) [C4.6:1] D. Lffler, S. Jester, P. Weis, A. Bttcher, and M.M. Kappes, Cn Films (n=50, 52,
C3.3 (W. Klopper) [C3.3:1] H. Fliegl, C. Httig, and W. Klopper, Coupled-cluster response theory with linear-
C1.2 (A. Powell) [C1.2:1] S.B. Mukkamala, R. Clrac, C.E. Anson, and A.K. Powell, Structures and
B2.9 (P. Wlfle) [B2.9:1] J. Paaske, A. Rosch, P. Wlfle, N. Mason, C.M. Marcus and J. Nygaard,
Research Area B `Nano-Electronics' Project B1 `Fabrication and Characterization of Nanostructures'
B1.6 Schimmel Subproject B1.6
B2.10 (F. Evers / P. Schmitteckert / P. Wlfle) [B2.10:1] K. Burke, M. Kntopp, and F. Evers, Zero-bias molecular electronics: Exchange
B3.07 Shnirman Teilprojekt B3.07
A1.4 Wegener Subproject A1.4
C3.2 (H. Hippler / M. Kappes / A. Unterreiner) [C3.2:1] B. Concina, M. Neumaier, O. Hampe, and M. Kappes, Photodetachment of
A2.8 Kalt, Hetterich Subproject A2.8
Project B3 `Nano-Electronics Devices' B3.3 ,Modeling of Quantum Information Devices` (G. Schn, A. Shnirman)
B3.6 Ustinov, v.Lhneysen/Schfer
B3.03 Shnirman, Teilprojekt B3.03
A5.7_ Fruk_Photoactivable Nanoparticles Project A5.7: Light Activable Nanoparticles and Biomoleculs as Structural
C3.11 (F. Evers) [C3.11:1] M.J. van Setten, R. Gremaud, G. Brocks, B. Dam, G. Kresse, and G.A. de Wijs,
A4.6 Schimmel Subproject A4.6
C4.10 Wulfhekel Subproject C4.10
Project E2 `Design of Nanostructured Surfaces for Manipulating Cells' E2.2 `Nanostructured Templates with Cadherin Specific Adhesive Properties' (D.
C3.8 (M. Mayor) [C3.8:1] L. Shu, Z. Mu, H. Fuchs, L. Chi, and M. Mayor, A self assembled molecular
C3.13 (Ch. Jacob) [C3.13:1] S. Fux, Ch. R. Jacob, J. Neugebauer, L. Visscher, and M. Reiher, Accurate
C1.05 Roesky Subproject C1.05
A1.4 (G. v. Freymann / M. Wegener) [A1.4:1] * N. Ttreault, G. von Freymann, M. Deubel, M. Hermatschweiler, F. Prez-
Research Area E `Nano-Biology' Project E1 `Transport of Functional Nanoparticles through Membranes'
C3.13 Jacob Subproject C3.13
Research Area C `Molecular Nanostructures' Project C1 `Synthesis and Structural Characterization of Molecule-Based
B1.8 Mirlin, Gornyi Teilprojekt B1.8 (originally B2.14)
B1.4 v. Lhneysen, Srgers, Hoffmann
B1.5 (A. Ustinov / G. Weiss / M. Siegel) [B1.5:1] S. Poletto, F. Chiarello, M.G. Castellano, J. Lisenfeld, A. Lukashenko, C.
C1.3 Schnckel Subproject C1.3
Research Area F `Nano-Energy' Project F1 `Organic Solar Cells'
Subproject A5.6 Modeling of Micro-Disk Resonator Arrays
C4.1 v. Lhneysen, Krupke, Lukas Subproject C4.1
A2.3 (H. Kalt, M. Hetterich) [A2.3:1] * W. Lffler, D. Trndle, J. Fallert, H. Kalt, D. Litvinov, D. Gerthsen, J. Lupaca-
B2.9 Wlfle Subproject B2.9
Research Area E `Nano-Biology' Project E1 `Transport of Functional Nanoparticles through Membranes'
E2.2 (Schimmel / Wedlich) [E2.2:1] S.M. Pancera, H. Gliemann, Th. Schimmel, D.F.S. Petri, Effect of pH on the
Research Area A ,Nano-Photonics` Project A1 `Photonic Crystals'
B1.6 (T. Schimmel) [B1.6:1] * F.-Q. Xie, R. Maul, A. Augenstein, Ch. Obermair, E.B. Starikov, G. Schn, Th.
C5.4 Puchta Subproject C5.4
KIT -Universitt des Landes Baden-Wrttemberg und nationales Forschungszentrum in der Helmholtz-Gemeinschaft
A4.4 Leuthold, Freude Subproject A1.4
A5.7 (Lj. Fruk) [A5.7:1] F. Bano, Lj. Fruk, B. Sanavio, M. Glettenberg, L. Casalis, C.M. Niemeyer, and G.
C1.4 (C. Feldmann) [C1.4:1] * C. Zimmerman, C. Feldmann, M. Wanner, and D. Gerthsen, Nanoscale Gold
C4.8 Schuster Subproject C4.8
F2.1 (D. Gerthsen / E. Ivers-Tiffe) [F2.1:1] M. Burriel, C. Niedrig, W. Menesklou, S.F. Wagner, J. Santiso, and E. Ivers-
F1.3 Feldmann Subproject F1.3
E2.4 (C. Franz) [E2.4:1] C.M. Franz and P.-H. Puech, Atomic force microscopy a versatile tool for
A4.2 Lemmer Subproject A4.2
Project A5 `Bio-Photonics' A5.4 `Optical Biosensors on the Basis of Microdisk-Resonators' (H. Kalt)
Project C4 `Molecular Nanostructures on Surfaces' C4.1 ,Site-Selective Coupling to Electrodes and Transport through Single Molecules
F2.2 Ivers-Tiffe Subproject F2.2
B2.15 Mirlin Teilprojekt B2.15
Subproject A5.4 Optical Biosensors on the Basis of Microdisk Resonators
B2.7 (H. von Lhneysen / C. Srgers / D. Beckmann) [B2.7:1] A. Helzel, I. Kokanovi, L.V. Litvin, F. Rohlfing, F. Otto, D. Babi, C. Srgers,
F1.1 (U. Lemmer / H. Kalt) [F1.1:1] * H.J. Zhou, J. Fallert, J. Sartor, R.J.B. Dietz, C. Klingshirn, H. Kalt, D.
A1.5 Wegener Subproject A1.5
B1.5 Ustinov, Weiss, Siegel Subproject B1.5
F3.3 Indris, Ulrich, Subproject F3.3
F3.2 Feldmann Subproject F3.2
Research Area B `Nano-Electronics' Project B1 `Fabrication and Characterization of Nanostructures'
B1.9 (R. Krupke) [B1.9:1] M. Oron-Carl and R. Krupke, Raman spectroscopic evidence for hot phonon
C3.12 (C. Feldmann) [C3.12:1] G. Bhler, A. Zharkouskaya, and C. Feldmann, Ionic Liquid based Approach to
F3.4 Indris, Mechau, Hahn Subproject F 3.04
C1.06 Brse, Roesky Subproject C1.06
E4.1 (G. U. Nienhaus) [E4.1:1] V. Adam, P. Carpentier, S. Violot, M. Lelimousin, C. Darnault, G.U. Nienhaus, and
Project F3 `Nanomaterials for Lithium-Ion Batteries' F3.2 `Materials for Lithium-Ion Batteries' (C. Feldmann)
B2.06 Schn, Eschrig Teilprojekt B2.06
B3.5 Ustinov Subproject B3.5
Project A2 `Spintronics' A2.3 `Spin Injection, Manipulation, and Read-Out' (H. Kalt, M. Hetterich)
C3.3 Klopper Subproject C3.3
F3.1 Eichhfer, Fenske Subproject F3.1
F1.3 (C. Feldmann) [F1.3:1] E. Hammarberg, A. Prodi-Schwab, and C. Feldmann, Microwave-assisted
C3.2 Kappes/Unterreiner Subproject C3.2
Subproject C3.8 Self-Assembled Molecules as Pre-Organized Building Blocks
A4.5 Schaadt Subproject A4.5
E2.3 Bastmeyer Subproject E2.3
B2.2 (G. Schn / A. Shnirman) [B2.2:1] J. Aghassi, A. Thielmann, M.H. Hettler, and G. Schn, Strongly enhanced shot
B3.4 (M. Siegel / A.V. Ustinov) [B3.4:1] S. Wnsch, T. Ortlepp, E. Crocoll, F.H. Uhlmann, and M. Siegel, Cryogenic Semi-
E1.5 (P. Nick) [E1.5:1] K. Schwarzerov, J. Petrsek, K.C.S. Panigrahi, S. Zelenkov, Z. Opatrn, and
B1.4 (H. v. Lhneysen / C. Srgers / R. Hoffmann) [B1.4:1] C. Grtner, R. Hoffmann, F. Prez-Willard, M. Sauter, C. Srgers, and H. v.
Subproject F1.1 New Concepts for hybrid solar cells
Project A4 `Nano-Photonic Devices' A4.2 `Nanostructured Organic Photodiodes' (U. Lemmer / H.-J. Eisler)
C5.1 (W. Wenzel) [C5.1:1] * F. Hennrich, K. Arnold, S. Lebedkin, A. Quintill, W. Wenzel, and M.M. Kappes
Research Area A ,Nano-Photonics` Project A1 `Photonic Crystals'
E4.1 `Super-Resolution Optical Microscopy' (G. U. Nienhaus) [E4.1:1] V. Adam, P. Carpentier, S. Violot, M. Lelimousin, C. Darnault, G.U. Nienhaus,
A2.7 (D. Schaadt) [A2.7:1] * P.R. Ganz, C. Srgers, G. Fischer, and D.M. Schaadt, Cu-doped GaN grown by
B2.7 v. Lhneysen, Srgers, Beckmann
A2.8 (Kalt / Hetterich) [A2.8:1] * D. Litvinov, D. Gerthsen, A. Rosenauer, M. Schowalter, T. Passow, P.
E1.01 Brse Subproject E1.01
C1.1 (D. Fenske / A. Eichhfer / O. Fuhr) [C1.1:1] * P. Sevillano, O. Fuhr, M. Kattanek, P. Nava, O. Hampe, S. Lebedkin, R. Ahlrichs, D.
C4.11 (P. Wlfle / F. Evers) [C4.11:1] * S. Bera, A. Arnold, F. Evers, R. Narayanan, and P. Wlfle, Elastic properties of
F1.02 Lemmer Subproject F1.02
F3.2 (C. Feldmann) [F3.2:1] E. Hammarberg and C. Feldmann, In0
A2.5 (D. Litvinov / D. Gerthsen) [A2.5:1] * W. Lffler, D. Trndle, J. Fallert, H. Kalt, D. Litvinov, D. Gerthsen, J. Lupaca-
C4.6 Kappes Subproject C4.6
Project C3 ,Properties of Molecule Based Nanostructures` C3.2 ,Frequency and Time-Domain Electronic Spectroscopy of Isolated Clusters and
Subproject C5.2 Synthesis of Functionalized Organic Nanostructures
C1.6 (S. Brse / P. Roesky) [C1.6:1] P. Pierrat, C. Rthor, T. Muller, and S. Brse, Design and Efficient Synthesis of
A2.6 (D. Schaadt) [A2.6:1] I. Lo, C.H. Hsieh, Y.L. Chen, W.Y. Pang, Y.C. Hsu, J.C. Chiang, M.C. Chou,
A5.4 (H. Kalt) [A5.4:1] S.-Y. Seo, R.-J. Zhang, W. Lffler, H. Kalt, K.J. Kim, and M. Zacharias, Far-
B2.10 Evers, Schmitteckert, Wlfle Teilprojekt B2.10
C5.2 (S. Brse) [C5.2:1] C.I. Schilling and S. Brse, Stable organic azides based on rigid tetrahedral
C4.9 Schuster Subproject C4.9
C1.3 (H. Schnckel) [C1.3:1] J. Vollet, K. Baranowska, J.R. Hartig, and H. Schnckel, The anion [Mg6Cl8Cp*5]-
Project B2 `Electron Transport in Nanostructures' B2.2 ,Single-Electron Effects in Nanostructures` (G. Schn, A. Shnirman)
Subproject E2.4 Cell adhesion and migration on micro-and nanostructured
B1.8 (Mirlin / Gornyi) [B2.14:1] P.M. Ostrovsky, I.V. Gornyi, and A.D. Mirlin. Quantum criticality and minimal
E2.3 (M. Bastmeyer) [E2.3:1] A.C. von Philipsborn, S. Lang, J. Loeschinger, A. Bernard, C. David, D. Lehnert,
A5.5 (U. Lemmer) [A5.5:1] D. Schneider, U. Lemmer, W. Kowalsky, and T. Riedl, Low Threshold Organic
A4.2 (Lemmer / Eisler) [A4.2:1] J. Hetterich, G. Bastian, N.A. Gippius, S.G. Tikhodeev, G. von Plessen, and U.
E1.1 (S. Brse) [E1.1:1] * K.-H. Merz, T. Muller, S. Vanderheiden, G. Eisenbrand, D. Marko, and S. Brse,
A2.5 Litvinov / Gerthsen Subproject A2.5
C3.11 Evers Subproject C3.11
Subproject A1.6 Tunable Photonic Metamaterials
KIT -Universitt des Landes Baden-Wrttemberg und nationales Forschungszentrum in der Helmholtz-Gemeinschaft
F1.2 (D. Gerthsen / U. Lemmer) [F1.2:1] A. Colsmann, J. Junge, C. Kayser, and U. Lemmer, Organic tandem solar cells
B1.7 (since 07.2009), B2.4 (before 07.2009) (Schn) [B2.4:1] M. Pletyukhov, V. Gritsev, and N. Pauget, Tunneling conductance of a
A1.5 (S. Linden / M. Wegener) [A1.5:1] S. Linden, C. Enkrich, G. Dolling, M.W. Klein, J. Zhou, T. Koschny, C.M.
B2.6 (G. Schn / M. Eschrig) [B2.6:1] V. Shelukhin, A. Tsukernik, M. Karpovski, Y. Blum, K.B. Efetov, A.F. Volkov, T.
C3.6 (G. Schn / F. Pauly) [C3.6:1] H. van Zalinge, D.J. Schiffrin, A.D. Bates, E.B. Starikov, W. Wenzel, and R.J.
A1.2 (K. Busch) [A1.2:1] A. Hache, L. Tkeshelashvili, M. Diem, and K. Busch, Testing random numbers
C4.5 Gerthsen Subproject C4.5
C1.1 Fenske Subproject C1.1
Subproject A1.2 Light-Matter Interaction in Nano-Photonic Systems
C4.5 (D. Gerthsen) [C4.5:1] M. Wanner, D. Bach, D. Gerthsen, R. Werner, and B. Tesche, Electron
Subproject A1.1 Theory of Photonic Crystal Structures and Concepts for
C5.1 Report 12/2010 1 C5.1 Wenzel
E4.01 Nienhaus Subproject E4.01
A2.6 Schaadt Subproject A2.6
B3.4 Ustinov and Siegel Subproject B3.4
F2.2 (E. Ivers-Tiffe) [F2.2:1] C. Peters, M. Bockmeyer, R. Krger, A. Weber, and E. Ivers-Tiffe, Processing of
B3.3 (G. Schn / A. Shnirman) [B3.3:1] J. Schriefl, Y. Makhlin, A. Shnirman, and G. Schn, Decoherence from
C3.06 Schn, Pauly Subproject C3.06