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Journal Articles


2017

  1. Refractory Plasmonics without Refractory Materials
    G. Albrecht, S. Kaiser, H. Giessen, and M. Hentschel
    Nano Lett. (2017), in press.
  2. Light-induced superconductivity in high-Tc cuprates
    S. Kaiser
    Phys. Scripta 92, 103001 (2017).
  3. Temperature dependent two-photon photoluminescence of CH3NH3PbBr3: Structural phase and exciton to free carrier transition
    H. Linnenbank, M. Saliba, L. Gui, B. Metzger, S. G. Tikhodeev, J. Kadro, G. Nasti, A. Abate, A. Hagfeldt, M. Graetzel, and H. Giessen
    submitted (2017).
  4. Single mode fiber based delivery of OAM light by 3D direct laser writing
    K. Weber, F. Hütt, S. Thiele, T. Gissibl, A. Herkommer, and H. Giessen
    Opt. Express 25, 19672 (2017).
    This paper was one of the most downloaded Optics Express articles in August 2017.
  5. Analysis and efficient numerical simulations of subfemtosecond time-resolved PEEM experiments with plasmons
    T. J. Davis, B. Frank, H. Giessen, D. Podbiel, P. Kahl, and F.-J. Meyer zu Heringdorf
    ACS Photonics (2017), in press.
  6. Refractive index measurements of photo-resists for three-dimensional direct laser writing
    T. Gissibl, S. Wagner, J. Sykora, M. Schmid, and H. Giessen
    Opt. Mater. Express 7, 2293 (2017).
    This paper was one of the most downloaded Optical Materials Express articles in June 2017.
  7. All-optical modulation based on period doubling and its application to stimulated Raman scattering microscopy
    T. Steinle, M. Floess, A. Steinmann, and H. Giessen
    submitted (2017).
  8. Short-range Surface Plasmonics: Localized Electron Emission Dynamics from a 60 nm Spot on Atomically Flat Single Crystalline Gold
    B. Frank, P. Kahl, D. Podbiel, G. Spektor, M. Orenstein, L. Fu, T. Weiss, M. Horn-von Hoegen, T. J. Davis, F.-J. Meyer zu Heringdorf, and H. Giessen
    Science Advances 3, e1700721 (2017).
  9. Nanoantenna-Enhanced Hyperspectral Infrared Chemical Imaging
    L. Kühner, M. Hentschel, U. Zschieschang, H. Klauk, J. Vogt, C. Huck, H. Giessen, and F. Neubrech
    ACS Sens. 2, 655 (2017).
  10. Chiral Plasmonics
    M. Hentschel, M. Schäferling, X. Duan, H. Giessen, and N. Liu
    Science Advances 3, e1602735 (2017).
  11. Analytical normalization of resonant states in photonic crystal slabs and periodic arrays of nanoantennas at oblique incidence
    T. Weiss, M. Schäferling, H. Giessen, N. A. Gippius, S. G. Tikhodeev, W. Langbein, and E. A. Muljarov
    Phys. Rev. B 96, 045129 (2017).
  12. Single Quantum Dot with microlens and 3D printed microobjective as integrated bright single photon source
    S. Fischbach, A. Schlehahn, A. Thoma, N. Srocka, T. Gissibl, S. Ristok, S. Thiele, A. Kaganskiy, A. Strittmatter, T. Heindel, S. Rodt, A. Herkommer, H. Giessen, and S. Reitzenstein
    ACS Photonics 4, 1327 (2017).
  13. Revealing the subfemtosecond dynamics of orbital angular momentum in nanoplasmonic vortices
    G. Spektor, D. Kilbane, A. K. Mahro, B. Frank, S. Ristok, L. Gal, P. Kahl, D. Podbiel, S. Mathias, H. Giessen, F.-J. Meyer zu Heringdorf, M. Orenstein, and M. Aeschlimann
    Science 355, 1187 (2017).
  14. Surface-Enhanced Infrared Spectroscopy using Resonant Nanoantennas
    F. Neubrech, C. Huck, K. Weber, A. Pucci, and H. Giessen
    Chem. Rev. 117, 5110 (2017).
  15. Chemical Identification of Individual Fine Dust Particles with Resonant Plasmonic Enhancement of Nanoslits in the Infrared
    J. Vogt, S. Zimmermann, C. Huck, M. Tzschoppe, F. Neubrech, S. Fatikow, and A. Pucci
    ACS Photonics 4, 560 (2017).
  16. Phase-resolved pulse propagation through metallic photonic crystal slabs: plasmonic slow light
    A. Schönhardt, D. Nau, C. Bauer, A. Christ, H. Gräbeldinger, and H. Giessen
    Phil. Trans. R. Soc. A 375, 20160065 (2017).
  17. 3D printed eagle eye: Compound microlens system for foveated imaging
    S. Thiele, K. Arzenbacher, T. Gissibl, H. Giessen, and A. M. Herkommer
    Science Advances 3, e1602655 (2017).
  18. Plasmonic analog of electromagnetically induced absorption leads to giant thin film Faraday rotation of 14°
    D. Floess, M. Hentschel, T. Weiss, H.-U. Habermeier, J. Jiao, S. G. Tikhodeev, and H. Giessen
    Phys. Rev. X 7, 021048 (2017).
  19. Probing the Near-Field of Second-Harmonic Light around Plasmonic Nanoantennas
    B. Metzger, M. Hentschel, and H. Giessen
    Nano Lett. 17, 1931 (2017).
  20. Hybrid organic-plasmonic nanoantennas with enhanced third harmonic generation
    G. Albrecht, M. Hentschel, S. Kaiser, and H. Giessen
    ACS Omega 2, 2577 (2017).
  21. High-repetition-rate mid-infrared supercontinuum generation from 1.3-5.3 µm in robust step-index tellurite fibers
    S. Kedenburg, C. Strutynski, B. Kibler, P. Froidevaux, F. Désévédavy, G. Gadret, J.-C. Jules, T. Steinle, F. Mörz, A. Steinmann, H. Giessen, and F. Smektala
    J. Opt. Soc. Am. B 34, 601 (2017).
  22. Wavelength Scaling in Antenna-Enhanced Infrared Spectroscopy: Towards the Far-IR and THz Region
    K. Weber, M. L. Nesterov, T. Weiss, M. Scherer, M. Hentschel, J. Vogt, C. Huck, W. Li, M. Dressel, H. Giessen, and F. Neubrech
    ACS Photonics 4, 45 (2017).
  23. Analytic Optimization of Near-Field Optical Chirality Enhancement
    C. Kramer, M. Schäferling, T. Weiss, H. Giessen, and T. Brixner
    ACS Photonics 4, 396 (2017).
  24. Combining in-situ lithography with 3D printed solid immersion lenses for single quantum dot spectroscopy
    M. Sartison, S. L. Portalupi, T. Gissibl, M. Jetter, H. Giessen, and P. Michler
    Sci. Rep. 7, 39916 (2017).
  25. Beam switching and bifocal lensing using active plasmonic metasurfaces
    X. Yin, T. Steinle, L. Huang, T. Taubner, M. Wuttig, T. Zentgraf, and H. Giessen
    Nature Light Science and Applications 6, e17016 (2017).
  26. Chiral Nanophotonics: Chiral Optical Properties of Plasmonic Systems
    M. Schäferling
    In: Springer Series in Optical Sciences, Vol. 205, Springer International Publishing (2017).

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2016

  1. Dynamical decoherence of the light induced interlayer coupling in YBa2Cu3O6+\δ
    C. R. Hunt, D. Nicoletti, S. Kaiser, D. Pröpper, T. Loew, J. Porras, B. Keimer, and A. Cavalleri
    Phys. Rev. B 94, 224303 (2016).
  2. Spectroscopy of Graphene at the Saddle Point
    D. Wolf, D. H. Chae, T. Utikal, P. Herlinger, J. Smet, H. Giessen, and M. Lippitz
    Book chapter in: Optical Properties of Graphene, pp. 325–348, edited by R. Binder, World Scientific Publishing (2016).
  3. Circularly polarized lasing in chiral modulated semiconductor microcavity with GaAs quantum wells
    A. A. Demenev, V. D. Kulakovskii, C. Schneider, S. Brodbeck, M. Kamp, S. Höfling, S. V. Lobanov, T. Weiss, N. A. Gippius, and S. G. Tikhodeev
    Appl. Phys. Lett. 109, 171106 (2016).
    This article has been selected as an APL Editor's Pick by Alessandro Tredicucci.
  4. Das kleinste Endoskop der Welt per 3D-Druck
    H. Giessen, T. Gissibl, S. Thiele, and A. Herkommer
    Physik in unserer Zeit 47, 214 (2016).
  5. Ultra-stable high average power femtosecond laser system tunable from 1.33 to 20 µm
    T. Steinle, F. Mörz, A. Steinmann, and H. Giessen
    Opt. Lett. 41, 4863 (2016).
    This paper was one of the three most downloaded Optics Letters articles in October 2016 and November 2016.
  6. Low drift cw-seeded high-repetition-rate optical parametric amplifier for fingerprint coherent Raman spectroscopy
    J. Krauth, T. Steinle, B. Liu, M. Floess, H. Linnenbank, A. Steinmann, and H. Giessen
    Opt. Express 24, 22296 (2016).
  7. Nonlinear Refractory Plasmonics with Titanium Nitride Nanoantennas
    L. Gui, S. Bagheri, N. Strohfeldt, M. Hentschel, C. M. Zgrabik, B. Metzger, H. Linnenbank, E. L. Hu, and H. Giessen
    Nano Lett. 16, 5708 (2016).
  8. Ultrafast Nonlinear Plasmonics: From Dipole Nanoantennas to Complex Hybrid Plasmonic Structures
    B. Metzger, M. Hentschel, and H. Giessen
    ACS Photonics 3, 1336 (2016).
  9. Large-Area Low-Cost Plasmonic Perfect Absorber Chemical Sensor Fabricated by Laser Interference Lithography
    S. Bagheri, N. Strohfeldt, F. Sterl, A. Berrier, A. Tittl, and H. Giessen
    ACS Sensors 1, 1148 (2016).
    This article appeared on the cover of the September issue of ACS Sensors.
  10. Simple ps microchip Nd:YVO4 laser with 3.3 ps pulses at 0.2 - 1.4 MHz and single-stage amplification to the microjoule level
    E. Türkyilmaz, J. Lohbreier, C. Günther, E. Mehner, D. Kopf, H. Giessen, and B. Braun
    Opt. Eng. 55, 066126 (2016).
  11. Two-photon direct laser writing of ultracompact multi-lens objectives
    T. Gissibl, S. Thiele, A. Herkommer, and H. Giessen
    Nature Photonics 10, 554 (2016).
    Please take also a look at the Nature Photonics News and Views Manufacturing: 3D printed micro-optics by Saulius Juodkazis.
  12. Ultra-compact on-chip LED collimation optics by 3D-printing
    S. Thiele, T. Gissibl, H. Giessen, and A. Herkommer
    Opt. Lett. 41, 3029 (2016).
  13. Narrowband cw injection seeded high power femtosecond double-pass optical parametric generator at 43 MHz: Gain and noise dynamics
    H. Linnenbank, T. Steinle, and H. Giessen
    Opt. Express 24, 19558 (2016).
  14. Sub-micrometre accurate free-form optics by three-dimensional printing on single-mode fibres
    T. Gissibl, S. Thiele, A. Herkommer, and H. Giessen
    Nature Communications 7, 11763 (2016).
  15. Lorentz nonreciprocal model for hybrid magnetoplasmonics
    D. Floess, T. Weiss, S. G. Tikhodeev, and H. Giessen
    Phys. Rev. Lett. 117, 063901 (2016).
  16. From Dark to Bright: First-Order Perturbation Theory with Analytical Mode Normalization for Plasmonic Nanoantenna Arrays Applied to Refractive Index Sensing
    T. Weiss, M. Mesch, M. Schäferling, H. Giessen, W. Langbein, and E. A. Muljarov
    Phys. Rev. Lett. 116, 237401 (2016).
  17. Experimental long term survey of mid-infrared supercontinuum source based on As2S3 suspended-core fibers
    O. Mouawad, S. Kedenburg, T. Steinle, A. Steinmann, B. Kibler, F. Désévédavy, G. Gadret, J.-C. Jules, H. Giessen, and F. Smektala
    Appl. Phys. B 122, 177 (2016).
  18. Solitonic supercontinuum of femtosecond mid-IR pulses in W-type index tellurite fibers and their application to absorption spectroscopy
    S. Kedenburg, T. Steinle, F. Mörz, A. Steinmann, D. Nguyen, D. Rhonehouse, J. Zong, A. Chavez-Pirson, and H. Giessen
    APL Photonics 1, 086101 (2016).
  19. Nonlinear Plasmonic Sensing
    M. Mesch, B. Metzger, M. Hentschel, and H. Giessen
    Nano Lett. 16, 3155 (2016).
  20. The role of plasmon-generated near-fields for enhanced circular dichroism spectroscopy
    M. Nesterov, X. Yin, M. Schäferling, H. Giessen, and T. Weiss
    ACS Photonics 3, 578 (2016).
  21. Synchronization-free all-solid-state laser system for stimulated Raman scattering microscopy
    T. Steinle, V. Kumar, M. Floess, A. Steinmann, M. Marangoni, C. Koch, C. Wege, G. Cerullo, and H. Giessen
    Nature Light Science and Applications 5, e16149 (2016).
  22. Spatial beam intensity shaping using phase masks on single mode optical fibers fabricated by femtosecond direct laser writing
    T. Gissibl, M. Schmid, and H. Giessen
    Optica 3, 448 (2016).
    Please have also a look at the OSA press release (also distributed via BusinessWire) as well as the article on 3DPrint.com. This paper was one of the most downloaded Optica articles from April to June 2016.
  23. High-Field High-Repetition-Rate Sources for the Coherent THz Control of Matter
    B. Green, S. Kovalev, V. Asgekar, G. Geloni, U. Lehnert, T. Golz, M. Kuntzsch, C. Bauer, J. Hauser, J. Voigtlaender, B. Wustmann, I. Koesterke, M. Schwarz, M. Freitag, A. Arnold, J. Teichert, M. Justus, W. Seidel, C. Ilgner, N. Awari, D. Nicoletti, S. Kaiser, Y. Laplace, S. Rajasekaran, L. Zhang, S. Winnerl, H. Schneider, G. Schay, I. Lorincz, A. A. Rauscher, I. Radu, S. Mährlein, T. H. Kim, J. S. Lee, T. Kampfrath, S. Wall, J. Heberle, A. Malnasi-Csizmadia, A. Steiger, A. S. Müller, M. Helm, U. Schramm, T. Cowan, P. Michel, A. Cavalleri, A. S. Fisher, N. Stojanovic, and M. Gensch
    Sci. Rep. 6, 22256 (2016).
  24. Reducing the complexity: Enantioselective chiral near-fields by diagonal slit and mirror configuration
    M. Schäferling, N. Engheta, H. Giessen, and T. Weiss
    ACS Photonics 3, 1076 (2016).
  25. Possible light-induced superconductivity in K3C60 at high temperature
    M. Mitrano, A. Cantaluppi, D. Nicoletti, S. Kaiser, A. Perucchi, S. Lupi, P. Di Pietro, D. Pontiroli, M. Riccò, S. R. Clark, D. Jaksch, and A. Cavalleri
    Nature 530, 461 (2016).
  26. Thermodynamics of the hybrid interaction of hydrogen with palladium nanoparticles
    R. Griessen, N. Strohfeldt, and H. Giessen
    Nature Materials 15, 311 (2016).
  27. The optimal antenna for nonlinear spectroscopy of weakly and strongly scattering nanoobjects
    T. Schumacher, M. Brandstetter, D. Wolf, K. Kratzer, M. Hentschel, H. Giessen, and M. Lippitz
    Appl. Phys. B 122, 91 (2016).
  28. Nonlinear optics of complex plasmonic structures: linear and third-order optical response of orthogonally coupled metallic nanoantennas
    B. Metzger, M. Hentschel, M. Nesterov, T. Schumacher, M. Lippitz, and H. Giessen
    Appl. Phys. B 122, 77 (2016).
  29. Diffractive Spectral-Splitting Optical Element Designed by Adjoint-Based Electromagnetic Optimization and Fabricated by Femtosecond 3D Direct Laser Writing
    T. P. Xiao, O. S. Cifci, S. Bhargava, H. Chen, T. Gissibl, W. Zhou, H. Giessen, K. C. Toussaint Jr., E. Yablonovitch, and P. V. Braun
    ACS Photonics 3, 886 (2016).
  30. Imaging and Steering Unidirectional Emission from Nanoantenna Array Metasurfaces
    K. Lindfors, D. Dregely, M. Lippitz, N. Engheta, M. Totzeck, and H. Giessen
    ACS Photonics 3, 286 (2016).
  31. Linear and nonlinear optical properties of hybrid metallic-dielectric plasmonic nanoantennas
    M. Hentschel, B. Metzger, B. Knabe, K. Buse, and H. Giessen
    Beilstein J. Nanotechnol. 7, 111 (2016).
  32. Hydrogen-regulated chiral nanoplasmonics
    X. Duan, S. Kamin, F. Sterl, H. Giessen, and N. Liu
    Nano Lett. 16, 1462 (2016).

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2015

  1. Controlling circular polarization of light emitted by quantum dots using chiral photonic crystal slab
    S. V. Lobanov, S. G. Tikhodeev, N. A. Gippius, A. A. Maksimov, E. V. Filatov, I. I. Tartakovskii, V. D. Kulakovskii, T. Weiss, C. Schneider, J. Geßler, M. Kamp, and S. Höfling
    Phys. Rev. B 92, 205309 (2015).
  2. THz-Frequency Modulation of the Hubbard U in an Organic Mott Insulator
    R. Singla, G. Cotugno, S. Kaiser, M. Först, M. Mitrano, H. Y. Liu, A. Cartella, C. Manzoni, H. Okamoto, T. Hasegawa, S. R. Clark, D. Jaksch, and A. Cavalleri
    Phys. Rev. Lett. 115, 187401 (2015).
  3. Optimum sensitivity in smart-dust-based chemical detection geometries
    A. Tittl, N. Strohfeldt, C. Kremers, D. N. Chigrin, T. Weiss, and H. Giessen
    submitted (2015).
  4. Surface- and tip-enhanced resonant Raman scattering from CdSe nanocrystals
    E. Sheremet, A. G. Milekhin, R. D. Rodriguez, T. Weiss, M. Nesterov, E. E. Rodyakina, O. D. Gordan, L. L. Svesnikova, T. A. Duda, V. A. Gridchin, V. M. Dzhagan, M. Hietschold, and D. R. T. Zahn
    Phys. Chem. Chem. Phys. 17, 21198 (2015).
  5. Magnesium as Novel Material for Active Plasmonics in the Visible Wavelength Range
    F. Sterl, N. Strohfeldt, R. Walter, R. Griessen, A. Tittl, and H. Giessen
    Nano Lett. 15, 7949 (2015).
    This article appeared on the cover of the December issue of Nano Letters.
  6. Sensitivity Engineering in Direct Contact Palladium-Gold Nano-Sandwich Hydrogen Sensors
    N. Strohfeldt, J. Zhao, A. Tittl, and H. Giessen
    Opt. Mater. Express 5, 2525 (2015).
  7. Large-Area Fabrication of TiN Nanoantenna Arrays for Refractory Plasmonics in the Mid-Infrared by Femtosecond Direct Laser Writing and Interference Lithography
    S. Bagheri, C. M. Zgrabik, T. Gissibl, A. Tittl, F. Sterl, R. Walter, S. De Zuani, A. Berrier, T. Stauden, G. Richter, E. L. Hu, and H. Giessen
    Opt. Mater. Express 5, 2625 (2015).
    This paper has been highlighted in the OSA Spotlight on Optics. Please have also a look at the spotlight summary by Brad Deutsch. Additionally, this paper was the second most downloaded article in Optical Materials Express in December 2015 and amongst the most downloaded articles in November 2015 and January 2016.
  8. Plasmon-Polaron Coupling in Conjugated Polymer on Infrared Nanoantennas
    Z. Wang, J. Zhao, B. Frank, Q. Ran, G. Adamo, H. Giessen, and C. Soci
    Nano Lett. 15, 5382 (2015).
  9. Multi-Watt femtosecond optical parametric master oscillator power amplifier at 43 MHz
    F. Mörz, T. Steinle, A. Steinmann, and H. Giessen
    Opt. Express 23, 23960 (2015).
  10. A Switchable Mid-Infrared Plasmonic Perfect Absorber with Multispectral Thermal Imaging Capability
    A. Tittl, A. U. Michel, M. Schäferling, X. Yin, B. Gholipour, L. Cui, M. Wuttig, T. Taubner, F. Neubrech, and H. Giessen
    Adv. Mater. 27, 4597 (2015).
    This article has been highlighted on the inside front cover.
  11. Retardation-induced phase singularities in coupled plasmonic oscillators
    S. M. Hein and H. Giessen
    Phys. Rev. B 91, 205402 (2015).
  12. Simple analytical expression for the frequency shifts of plasmonic resonances for sensing
    J. Yang, H. Giessen, and P. Lalanne
    Nano Lett. 15, 3439 (2015).
  13. Polarization control of quantum dot emission by chiral photonic crystal slabs
    S. V. Lobanov, T. Weiss, N. A. Gippius, S. G. Tikhodeev, V. D. Kulakovskii, K. Konishi, and M. Kuwata-Gonokami
    Opt. Lett. 40, 1528 (2015).
  14. High-power mid-infrared high repetition-rate supercontinuum source based on a chalcogenide step-index fiber
    S. Kedenburg, T. Steinle, F. Mörz, A. Steinmann, and H. Giessen
    Opt. Lett. 40, 2668 (2015).
  15. Interaction effects between magnetic and chiral building blocks: A new route for tunable magneto-chiral plasmonic structures
    G. Armelles, A. Cebollada, H. Feng, A. García-Martín, J. Zhao, and H. Giessen
    ACS Photonics 2, 1272 (2015).
  16. Fabrication of Square-Centimeter Plasmonic Nanoantenna Arrays by Femtosecond Direct Laser Writing Lithography: Effects of Collective Excitations on SEIRA Enhancement
    S. Bagheri, K. Weber, T. Gissibl, T. Weiss, F. Neubrech, and H. Giessen
    ACS Photonics 2, 779 (2015).
  17. Functionalized Hydrogel on Plasmonic Nanoantennas for Noninvasive Glucose Sensing
    M. Mesch, C. Zhang, P. V. Braun, and H. Giessen
    ACS Photonics 2, 475 (2015).
  18. Strong enhancement of second harmonic emission by plasmonic resonances at the second harmonic wavelength
    B. Metzger, L. Gui, J. Fuchs, D. Floess, M. Hentschel, and H. Giessen
    Nano Lett. 15, 3917 (2015).
  19. Mid-infrared Fourier-transform spectroscopy with a high-brilliance tunable laser source: investigating sample areas down to 5 µm diameter
    T. Steinle, F. Neubrech, A. Steinmann, X. Yin, and H. Giessen
    Opt. Express 23, 11105 (2015).
  20. Controlled synthesis and enhanced hydrogen sensing of single tailored Au@Pd nanorods and nanoarrows
    D. Paone, X. Ye, A. Tittl, N. Strohfeldt, C. Zheng, Y. Gao, C. B. Murray, and H. Giessen
    submitted (2015).
  21. High-power femtosecond mid-infrared optical parametric oscillator at 7 µm based on CdSiP2
    C. S. Kumar, J. Krauth, A. Steinmann, K. T. Zawilski, P. G. Schunemann, H. Giessen, and M. Ebrahim-Zadeh
    Opt. Lett. 40, 1398 (2015).
  22. Tunable and switchable polarization rotation with nonreciprocal plasmonic thin-films at designated wavelengths
    D. Floess, J. Y. Chin, A. Kawatani, D. Dregely, H. Habermeier, T. Weiss, and H. Giessen
    Nature Light Science and Applications 4, e284 (2015).
  23. Compact, low-noise, all-solid state laser system for stimulated Raman scattering microscopy
    T. Steinle, V. Kumar, A. Steinmann, M. Marangoni, G. Cerullo, and H. Giessen
    Opt. Lett. 40, 593 (2015).
    This article was selected for publication in the Virtual Journal for Biomedical Optics.
  24. Repetitive hole-mask colloidal lithography for the fabrication of large-area low-cost multishape plasmonic nanostructures
    J. Zhao, S. Jaber, P. Mulvaney, P. V. Braun, and H. Giessen
    Adv. Opt. Mater. 3, 680 (2015).
  25. Active Chiral Plasmonics
    X. Yin, M. Schäferling, A. Michel, A. Tittl, M. Wuttig, T. Taubner, and H. Giessen
    Nano Lett. 15, 4255 (2015).
  26. Large-Area low-cost tunable plasmonic perfect absorber in the near-infrared by colloidal etching lithography
    R. Walter, A. Tittl, A. Berrier, F. Sterl, T. Weiss, and H. Giessen
    Adv. Opt. Mater. 3, 398 (2015).
    This article has been selected for the Best of Advanced Optical Materials – 2015 edition.

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2014

  1. Towards integration of a liquid-filled fiber capillary for mid-IR supercontinuum generation
    S. Kedenburg, T. Gissibl, T. Steinle, A. Steinmann, and H. Giessen
    Opt. Express 23, 8281 (2014).
  2. Tailoring the plasmonic Fano resonance in metallic photonic crystals
    C. Bauer and H. Giessen
    submitted (2014).
  3. Microcavity plexcitons: Far-field coupling of plasmons and excitons
    D. E. Gómez, X. Yin, F. Neubrech, D. Dregely, K. Lindfors, T. J. Davis, and H. Giessen
    submitted (2014).
  4. Quantitative angle-resolved small-spot reflectance measurements on plasmonic perfect absorbers: impedance matching and disorder effects
    A. Tittl, M. Harats, R. Walter, X. Yin, M. Schäferling, N. Liu, R. Rapaport, and H. Giessen
    ACS Nano 8, 10885 (2014).
  5. Ultrabroadband chirped pulse second harmonic spectroscopy: Measuring the frequency-dependent second-order response of different metal films
    B. Metzger, L. Gui, and H. Giessen
    Opt. Lett. 39, 5293 (2014).
  6. Optical properties of aperiodic metallic photonic crystal structures: Quasicrystals and Disorder
    C. Bauer and H. Giessen
    J. Opt. 16, 114001 (2014).
  7. Damage-free single-mode transmission of deep-UV light in hollow-core PCF
    F. Gebert, M. H. Frosz, T. Weiss, Y. Wan, A. Ermolov, N. Y. Joly, O. G. Schmidt, and P. S. J. Russell
    Opt. Express 22, 15388 (2014).
  8. High-power femtosecond mid-IR sources for s-SNOM applications
    R. Hegenbarth, A. Steinmann, S. Mastel, S. Amarie, A. Huber, R. Hillenbrand, S. Sarkisov, and H. Giessen
    J. Opt. 16, 094003 (2014).
  9. Optical anisotropies of single-meander plasmonic metasurfaces analyzed by Mueller matrix spectroscopy
    A. Berrier, B. Gompf, L. Fu, T. Weiss, and H. Schweizer
    Phys. Rev. B 89, 195434 (2014).
  10. Semi-classical plexcitonics: Simple approach for designing plexcitonic nanostructures
    D. Gomez, H. Giessen, and T. J. Davis
    J. Phys. Chem. C 118, 23963 (2014).
  11. Large-Area Antenna-Assisted SEIRA Substrates by Laser Interference Lithography
    S. Bagheri, H. Giessen, and F. Neubrech
    Adv. Opt. Mater. 11, 1049 (2014).
    This article appeard as frontispiece in the November issue of Advanced Optical Materials.
  12. Imaging and steering an optical wireless nanoantenna link
    D. Dregely, K. Lindfors, M. Lippitz, N. Engheta, M. Totzeck, and H. Giessen
    Nature Communications 5, 4354 (2014).
    Please take also a look at the Science Editor's Choise by Ian S. Osborne (PDF).
  13. Third harmonic mechanism in complex plasmonic Fano structures
    B. Metzger, T. Schumacher, M. Hentschel, M. Lippitz, and H. Giessen
    ACS Photonics 6, 471 (2014).
    This article has been selected to be featured in ACS Editor's Choice.
  14. DNA-assembled bimetallic plasmonic nanosensors
    N. Li, A. Tittl, S. Yue, H. Giessen, C. Song, B. Ding, and N. Liu
    Nature Light Science and Applications 3, e226 (2014).
    Please take also a look at the Science Perspective article Nanoplasmonic sensing and detection (PDF) by Mark Stockman.
  15. Doubling the efficiency of third harmonic generation by positioning ITO nanocrystals into the hot-spot of plasmonic gap-antennas
    B. Metzger, M. Hentschel, T. Schumacher, M. Lippitz, X. Ye, C. B. Murray, B. Knabe, K. Buse, and H. Giessen
    Nano Lett. 14, 2867 (2014).
  16. Spatial Extent of Plasmonic Enhancement of Vibrational Signals in the Infrared
    F. Neubrech, S. Beck, T. Glaser, M. Hentschel, H. Giessen, and A. Pucci
    ACS Nano 8, 6250 (2014).
  17. Nonlinear refractive indices of nonlinear liquids: Wavelength dependence and influence of retarded response
    S. Kedenburg, A. Steinmann, R. Hegenbarth, T. Steinle, and H. Giessen
    Appl. Phys. B 117, 803 (2014).
  18. Hole-mask colloidal nanolithography combined with tilted-angle-rotation evaporation: A versatile method for fabrication of low-cost and large-area complex plasmonic nanostructures and metamaterials
    J. Zhao, B. Frank, F. Neubrech, C. Zhang, P. V. Braun, and H. Giessen
    Beilstein J. Nanotechnol. 5, 577 (2014).
    Please have also a look at the videos that belong to the paper: Concept, Fabrication Process
  19. Combining cw-seeding with highly nonlinear fibers in a broadly tunable femtosecond optical parametric amplifier at 42 MHz
    T. Steinle, S. Kedenburg, A. Steinmann, and H. Giessen
    Opt. Lett. 39, 4851 (2014).
  20. Nonlinear Plasmon Optics
    M. Hentschel, T. Utikal, B. Metzger, H. Giessen, and M. Lippitz
    Book chapter in: Progress in Nonlinear Nano-Optics, pp. 153–181, edited by S. Sabake, C. Lienau, and R. Grunwald, Springer, ISBN 978-3-319-12217-5 (2014).
  21. Helical Plasmonic Nanostructures as Prototypical Chiral Near-Field Sources
    M. Schäferling, X. Yin, N. Engheta, and H. Giessen
    ACS Photonics 1, 530 (2014).
    Corrigendum in: ACS Photonics 3, 2000 (2016).
    This article appeared on the cover of the June 2014 issue of ACS Photonics. It won the CST University Publication Award 2015.
  22. Yttrium Hydride Nanoantennas for Active Plasmonics
    N. Strohfeldt, A. Tittl, M. Schäferling, F. Neubrech, U. Kreibig, R. Griessen, and H. Giessen
    Nano Lett. 14, 1140 (2014).
  23. Near and Far-Field Properties of Plasmonic Oligomers under Radially and Azimuthally Polarized Light Excitation
    A. Yanai, M. Grajower, G. M. Lerman, M. Hentschel, H. Giessen, and U. Levy
    ACS Nano 8, 4969 (2014).
  24. Accuracy of the capillary approximation for gas-filled kagomé-style photonic crystal fibers
    M. A. Finger, N. Y. Joly, T. Weiss, and P. S. J. Russell
    Opt. Lett. 4, 821 (2014).
  25. Watt-level optical parametric amplifier at 42 MHz tunable from 1.35 to 4.5 µm coherently seeded with solitons
    T. Steinle, A. Steinmann, R. Hegenbarth, and H. Giessen
    Opt. Express 22, 9567 (2014).
  26. Sub-20 ps pulses from a passively Q-switched microchip laser at 1 MHz repetition rate
    E. Mehner, B. Bernard, H. Giessen, D. Kopf, and B. Braun
    Opt. Lett 39, 2940 (2014).
  27. Plasmonic gas and chemical sensing
    A. Tittl, H. Giessen, and N. Liu
    Nanophotonics 3, 157 (2014).
  28. Eleven Nanometer Alignment Precision of a Plasmonic Nanoantenna with a Self-Assembled GaAs Quantum Dot
    M. Pfeiffer, K. Lindfors, H. Zhang, B. Fenk, F. Phillipp, P. Atkinson, A. Rastelli, O. G. Schmidt, H. Giessen, and M. Lippitz
    Nano Lett. 14, 197 (2014).

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2013

  1. Three-dimensional Winged Nanocone Optical Antennas
    M. J. Huttunen, K. Lindfors, D. Andriano, J. Mäkitalo, G. Bautista, M. Lippitz, and M. Kauranen
    Opt. Lett. 39, 3686 (2013).
  2. Interpreting chiral spectra: The plasmonic Born-Kuhn model
    X. Yin, M. Schäferling, B. Metzger, and H. Giessen
    Nano Lett. 13, 6238 (2013).
  3. Plasmonic analog of Electromagnetically Induced Absorption: Simulations, experiments, and coupled oscillator analysis
    R. Taubert, M. Hentschel, and H. Giessen
    J. Opt. Soc. Am. B 30, 3123 (2013).
  4. Babinet to the Half: Coupling of Solid and Inverse Plasmonic Structures
    M. Hentschel, T. Weiss, S. Bagheri, and H. Giessen
    Nano Lett. 13, 4428 (2013).
  5. Au Nanotip as Luminescent Near-Field Probe
    S. Jäger, A. M. Kern, M. Hentschel, R. Jäger, K. Braun, D. Zhang, H. Giessen, and A. J. Meixner
    Nano Lett. 13, 3566 (2013).
  6. Tailoring magnetic dipole emission with plasmonic split-ring resonators
    S. M. Hein and H. Giessen
    Phys. Rev. Lett. 111, 026803 (2013).
  7. Waveguide-plasmon polaritons enhance transverse magneto-optical Kerr effect
    L. E. Kreilkamp, V. I. Belotelov, J. Y. Chin, S. Neutzner, D. Dregely, T. Wehlus, I. A. Akimov, M. Bayer, B. Stritzker, and H. Giessen
    Phys. Rev. X 3, 041019 (2013).
  8. Vibrational near-field mapping of planar and buried 3D plasmonic nanostructures
    D. Dregely, F. Neubrech, H. Duan, R. Vogelgesang, and H. Giessen
    Nature Communications 4, 2237 (2013).
  9. Large-area 3D chiral plasmonic structures
    B. Frank, X. Yin, M. Schäferling, J. Zhao, S. Hein, P. V. Braun, and H. Giessen
    ACS Nano 7, 6321 (2013).
  10. Broadly tunable femtosecond near- and mid-IR source by direct pumping of an OPA with a 7.4 W Yb:KGW oscillator
    J. Krauth, A. Steinmann, R. Hegenbarth, M. Conforti, and H. Giessen
    Opt. Express 21, 11516 (2013).
  11. Light harvesting enhancement in solar cells with quasicrystalline plasmonic structures
    C. Bauer and H. Giessen
    Opt. Express 21, A363 (2013).
  12. Stable MHz-repetition-rate passively Q-switched microchip laser frequency doubled by MgO:PPLN
    E. Mehner, A. Steinmann, R. Hegenbarth, H. Giessen, and B. Braun
    Appl. Phys. B 112, 231 (2013).
  13. Plasmonic Smart Dust for Probing Local Chemical Reactions
    A. Tittl, X. Yin, H. Giessen, X.-D. Tian, Z.-Q. Tian, C. Kremers, D. N. Chigrin, and N. Liu
    Nano Lett. 13, 1816 (2013).
    Please take also a look at the article Plasmonic smart dust' conjures kinetics clues in Chemistry World as well as the Nanowerk article Plasmonic smart dust to probe local chemical reactions.
  14. Microcavity Plasmonics: Strong Coupling of Photonic Cavities and Plasmons
    R. Ameling and H. Giessen
    Laser Photonics Rev. 7, 141 (2013).
  15. Nonreciprocal plasmonics enables giant enhancement of thin film Faraday rotation
    J. Y. Chin, T. Steinle, T. Wehlus, D. Dregely, T. Weiss, V. I. Belotelov, B. Stritzker, and H. Giessen
    Nature Communications 4, 1599 (2013).
    Please take also a look at the Nature Materials Research Highlight Non-reciprocal plasmonics as well as the Nature Photonics News and Views Nano-optics: Plasmon-boosted magneto-optics.
  16. Plasmonic Diastereomers: Adding up Chiral Centers
    M. Hentschel, M. Schäferling, B. Metzger, and H. Giessen
    Nano Lett. 13, 600 (2013).
    Please take also a look at the Nature Nanotechnology Research Highlight Metamolecules: Now with added chiral centre (PDF).
  17. Ultrafast spectroscopy of quantum confined states in a single CdSe nanowire
    T. Schumacher, H. Giessen, and M. Lippitz
    Nano Lett. 13, 1706 (2013).
  18. Plasmonic oligomers in cylindrical vector light beams
    M. Hentschel, J. Dorfmüller, H. Giessen, S. Jäger, A. M. Kern, K. Braun, D. Zhang, and A. J. Meixner
    Beilstein J. Nanotechnol. 4, 57 (2013).
  19. Long-term stability of capped and buffered palladium-nickel thin films and nanostructures for plasmonic hydrogen sensing applications
    N. Strohfeldt, A. Tittl, and H. Giessen
    Opt. Mater. Express 3, 194 (2013).

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2012

  1. Diamond nanophotonics
    K. Beha, H. Fedder, M. Wolfer, M. C. Becker, P. Siyushev, M. Jamali, A. Batalov, C. Hinz, J. Hees, L. Kirste, H. Obloh, E. Gheeraert, B. Naydenov, I. Jakobi, F. Dolde, S. Pezzagna, D. Twittchen, M. Markham, D. Dregely, H. Giessen, J. Meijer, F. Jelezko, C. E. Nebel, R. Bratschitsch, A. Leitenstorfer, and J. Wrachtrup
    Beilstein J. Nanotechnol. 3, 895 (2012).
  2. Optical Properties of Chiral Three-dimensional Plasmonic Oligomers at the Onset of Charge-transfer Plasmons
    M. Hentschel, L. Wu, M. Schäferling, P. Bai, E. P. Li, and H. Giessen
    ACS Nano 6, 10355 (2012).
  3. Formation of chiral fields in a symmetric environment
    M. Schäferling, X. Yin, and H. Giessen
    Opt. Express 20, 26326 (2012).
  4. Plasmon hybridization in stacked metallic nanocups
    L. Wollet, B. Frank, M. Schäferling, M. Mesch, S. Hein, and H. Giessen
    Opt. Mater. Express 2, 1384 (2012).
  5. k-dependent optics of nanostructures: Spatial dispersion of metallic nanorings and split-ring resonators
    B. Gompf, B. Krausz, B. Frank, and M. Dressel
    Phys. Rev. B 86, 075462 (2012).
  6. Polarization scramblers with plasmonic meander-type metamaterials
    P. Schau, L. Fu, K. Frenner, M. Schäferling, H. Schweizer, H. Giessen, L. M. G. Venancio, and W. Osten
    Opt. Express 20, 22700 (2012).
  7. 2D quasiperiodic plasmonic crystals
    C. Bauer, G. Kobiela, and H. Giessen
    Sci. Rep. 2, 681 (2012).
  8. Large-Area Low-Cost Plasmonic Nanostructures in the NIR for Fano Resonant Sensing
    J. Zhao, C. Zhang, P. V. Braun, and H. Giessen
    Adv. Mater. 24, OP247 (2012).
    Please take also a look at the news article Large-Area Low-Cost Gold Nanostructures through Colloidal Nanolithography
  9. Experimental demonstration of dispersion engineering through mode interactions in plasmonic microcavities
    L. Fu, P. Schau, K. Frenner, H. Schweizer, J. Zhao, B. Frank, L. Wollet, P. Gaiser, B. Gompf, H. Giessen, and W. Osten
    Proc. SPIE 8423, 84232I (2012).
  10. Third harmonic spectroscopy and modeling of the nonlinear response of plasmonic nanoantennas
    B. Metzger, M. Hentschel, M. Lippitz, and H. Giessen
    Opt. Lett. 37, 4741 (2012).
  11. Linear refractive index and absorption measurements of nonlinear optical liquids in the visible and near-infrared spectral region
    S. Kedenburg, M. Vieweg, T. Gissibl, and H. Giessen
    Opt. Mater. Express 2, 1588 (2012).
    This paper was one of the most downloaded nonlinear papers in Optics Express and Optical Materials Express. It was the most downloaded paper in Optical Matererials Express in August 2015 and among the most downloaded papers in December 2015 and January 2016. It was among the top 10 downloaded papers of the last 12 month from July 2016 – 2017 in Optical Materials Express.
  12. Tailoring enhanced optical chirality: Design principles for chiral plasmonic nanostructures
    M. Schäferling, D. Dregely, M. Hentschel, and H. Giessen
    Phys. Rev. X 2, 031010 (2012).
  13. Quantitative Modelling of the Third Harmonic Emission Spectrum of Plasmonic Nanoantennas
    M. Hentschel, T. Utikal, H. Giessen, and M. Lippitz
    Nano Lett. 12, 3778 (2012).
  14. Ultrafast coherent spectroscopy of a single self-assembled quantum dot
    C. Wolpert, C. Dicken, L. Wang, P. Atkinson, A. Rastelli, O. G. Schmidt, H. Giessen, and M. Lippitz
    Phys. stat. sol. (b) 249, 721 (2012).
  15. Transient absorption spectroscopy of a single lateral InGaAs quantum dot molecule
    C. Wolpert, L. Wang, A. Rastelli, O. G. Schmidt, H. Giessen, and M. Lippitz
    Phys. stat. sol. (b) 249, 731 (2012).
  16. Positioning plasmonic nanostructures on single quantum emitters
    M. Pfeiffer, K. Lindfors, P. Atkinson, A. Rastelli, O. G. Schmidt, H. Giessen, and M. Lippitz
    Phys. stat. sol. (b) 249, 678 (2012).
  17. Milliwatt-level mid-infrared difference frequency generation with a femtosecond dual-signal-wavelength optical parametric oscillator
    R. Hegenbarth, A. Steinmann, and H. Giessen
    Opt. Lett. 37, 3513 (2012).
  18. Emission properties of an oscillating point dipole from a gold Yagi-Uda nanoantenna array
    S. V. Lobanov, T. Weiss, D. Dregely, H. Giessen, N. A. Gippius, and S. G. Tikhodeev
    Phys. Rev. B 85, 155137 (2012).
  19. Spatial solitons in optofluidic waveguide arrays with focusing ultrafast Kerr nonlinearity
    M. Vieweg, T. Gissibl, Y. V. Kartashov, L. Torner, and H. Giessen
    Opt. Lett. 37, 2454 (2012).
  20. Plasmonic antennas, positioning, and coupling of individual quantum systems
    D. Dregely, K. Lindfors, J. Dorfmüller, M. Hentschel, M. Becker, J. Wrachtrup, M. Lippitz, R. Vogelgesang, and H. Giessen
    Phys. stat. sol. (b) 249, 666 (2012).
  21. Three-dimensional Chiral Plasmonic Oligomers
    M. Hentschel, M. Schäferling, T. Weiss, N. Liu, and H. Giessen
    Nano Lett. 12, 2542 (2012).
  22. Tunable ultrafast nonlinear optofluidic coupler
    M. Vieweg, S. Pricking, T. Gissibl, Y. Kartashov, L. Torner, and H. Giessen
    Opt. Lett. 37, 1058 (2012).
    This paper was one of the top 10 downloaded papers in Optics Letters in March 2012.
  23. Metal-dielectric photonic crystal superlattice: 1D and 2D models and empty lattice approximation
    G. Kichin, T. Weiss, S. G. Tikhodeev, T. W. Odom, and H. Giessen
    Physica B 407, 4037 (2012).
  24. Classical Analogue of Electromagnetically Induced Absorption in Plasmonics
    R. Taubert, M. Hentschel, J. Kästel, and H. Giessen
    Nano Lett. 12, 1367 (2012).
  25. Hole-Mask Colloidal Nanolithography for Large-Area Low-Cost Metamaterials and Antenna-Enhanced SEIRA Substrates
    S. Cataldo, J. Zhao, B. Frank, F. Neubrech, C. Zhang, P. V. Braun, and H. Giessen
    ACS Nano 6, 979 (2012).
    Please take also a look at the Perspective Article Fabrication of Anisotropic Metal Nanostructures Using Innovations in Template-Assisted Lithography by Zhao Tang and Alexander Wei.
  26. Preparation and characterization of a large mode area liquid-filled photonic crystal fiber: transition from isolated to coupled spatial modes
    T. Gissibl, M. Vieweg, M. M. Vogel, A. M. Ahmed, T. Graf, and H. Giessen
    Appl. Phys. B 106, 521 (2012).
  27. Transient Reflection: A Versatile Technique for Ultrafast Spectroscopy of a Single Quantum Dot in Complex Environments
    C. Wolpert, C. Dicken, P. Atkinson, L. Wang, A. Rastelli, S. O.G., H. Giessen, and M. Lippitz
    Nano Lett. 12, 453 (2012).
  28. Magnetic plasmon formation and propagation in artificial aromatic molecules
    N. Liu, S. Mukherjee, K. Bao, L. Brown, J. Dorfmüller, P. Nordlander, and N. J. Halas
    Nano Lett. 12, 364 (2012).
  29. Octave-Wide Photonic Band Gap in Three-dimensional Plasmonic Bragg Structures and Limitations of Radiative Coupling
    R. Taubert, D. Dregely, T. Stroucken, A. Christ, and H. Giessen
    Nature Communications 3, 691 (2012).
    This article has been chosen for the Featured Image.
  30. Analytical Model of the Three-Dimensional Plasmonic Ruler
    T. J. Davis, M. Hentschel, N. Liu, and H. Giessen
    ACS Nano 6, 1291 (2012).
    This article has been highlighted in the February issue of ACS Nano.
  31. Spectral shifts in optical nanoantenna-enhanced hydrogen sensors
    A. Tittl, C. Kremers, J. Dorfmüller, D. N. Chigrin, and H. Giessen
    Opt. Mater. Express 2, 111 (2012).
    This paper was one of the most downloaded papers in Optical Materials Express in February 2012.

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2011

  1. Fabrication, characterization and applications of optical antenna arrays
    D. Dregely, J. Dorfmüller, M. Hentschel, and H. Giessen
    Book chapter in: Optical Antennas, edited by A. Alú and M. Agio, Cambridge University Press (2011).
  2. Mode coupling and interaction in a plasmonic microcavity with resonant mirrors
    L. Fu, P. Schau, K. Frenner, W. Osten, T. Weiss, H. Schweizer, and H. Giessen
    Phys. Rev. B 84, 235402 (2011).
  3. High-power widely tunable sub-20 fs Gaussian laser pulses for ultrafast nonlinear spectroscopy
    B. Metzger, A. Steinmann, and H. Giessen
    Opt. Express 19, 24354 (2011).
    This article was selected for publication in the Virtual Journal for Biomedical Optics.
  4. Optical properties of 2D quasicrystalline plasmonic arrays
    C. Bauer, G. Kobiela, and H. Giessen
    Phys. Rev. B 84, 193104 (2011).
  5. Large-Area High-Quality Plasmonic Oligomers Fabricated by Angle-Controlled Colloidal Nanolithography
    J. Zhao, B. Frank, S. Burger, and H. Giessen
    ACS Nano 5, 9009 (2011).
  6. Transmission through subwavelength hole arrays in ultrathin metal films
    J. Braun, B. Gompf, T. Weiss, H. Giessen, and M. Dressel
    Phys. Rev. B 84, 155419 (2011).
  7. Excitation and Tuning of Higher-order Fano Resonances in Plasmonic Oligomer Clusters
    D. Dregely, M. Hentschel, and H. Giessen
    ACS Nano 5, 8202 (2011).
  8. From Near-Field to Far-Field Coupling in the Third Dimension: Retarded Interaction of Particle Plasmons
    R. Taubert, R. Ameling, T. Weiss, A. Christ, and H. Giessen
    Nano Lett. 11, 4421 (2011).
  9. Palladium-Based Plasmonic Perfect Absorber in the Visible Wavelength Range and its Application to Hydrogen Sensing
    A. Tittl, P. Mai, R. Taubert, D. Dregely, N. Liu, and H. Giessen
    Nano Lett. 11, 4366 (2011).
    Please take also a look at the ars technica article "Plasmons on precious metals make for super-sensitive hydrogen leak detector".
  10. Investigation on nonlinear optical metamaterials using second harmonic generation
    M. Gentile, M. Hentschel, R. Taubert, H. Guo, H. Giessen, and M. Fiebig
    Appl. Phys. B 105, 149 (2011).
  11. Influence of the retarded response on an ultrafast nonlinear optofluidic fiber coupler
    S. Pricking, M. Vieweg, and H. Giessen
    Opt. Express 19, 21673 (2011).
  12. Strong resonant mode coupling of Fabry-Perot and grating resonances in stacked two-layer systems
    T. Weiss, N. A. Gippius, G. Granet, S. G. Tikhodeev, R. Taubert, L. Fu, H. Schweizer, and H. Giessen
    Photonic. Nanostruct. 9, 390 (2011).
  13. Resonant multimeander-metasurfaces: A model system for superlenses and communication devices
    H. Schweizer, L. Fu, M. Hentschel, T. Weiss, C. Bauer, P. Schau, K. Frenner, W. Osten, and H. Giessen
    Phys. stat. sol (b) 249, 1415 (2011).
  14. Regression Methods for Ophthalmic Glucose Sensing using Metamaterials
    P. Rapp, M. Mesch, H. Giessen, and C. Tarín
    Journal of Electrical and Computer Engineering 2011, 953064 (2011).
  15. Coupling strength of complex plasmonic structures in the multiple dipole approximation
    L. Langguth and H. Giessen
    Opt. Express 19, 22156 (2011).
  16. Nonlinear Photonics with Metallic Nanostructures on Top of Dielectrics and Waveguides
    T. Utikal, M. Hentschel, and H. Giessen
    Appl. Phys. B 105, 51 (2011).
  17. Photonic-crystal fibers are selectively filled with nonlinear liquids
    M. Vieweg, T. Gissibl, and H. Giessen
    Laser Focus World 47, 53 (2011).
  18. Acceleration of parameter studies in the Fourier modal method by introducing lateral shift matrices
    T. Weiss, N. A. Gippius, S. G. Tikhodeev, G. Granet, and H. Giessen
    J. Comput. Theor. Nanos. 8, 1625 (2011).
  19. Tailoring the photonic band splitting in metallo-dielectric photonic crystal superlattices
    T. Utikal, T. Zentgraf, S. G. Tikhodeev, M. Lippitz, and H. Giessen
    Phys. Rev. B 84, 075101 (2011).
  20. Near-field dynamics of optical Yagi-Uda nanoantennas
    J. Dorfmüller, D. Dregely, M. Eßlinger, W. Khunsin, R. Vogelgesang, K. Kern, and H. Giessen
    Nano Lett. 11, 2819 (2011).
  21. Strong coupling of localized and surface plasmons to microcavity modes
    R. Ameling, D. Dregely, and H. Giessen
    Opt. Lett. 36, 2218 (2011).
    This paper was the most downloaded paper in Optics Letters in June and July 2011.
  22. Three-Dimensional Plasmon Rulers
    N. Liu, M. Hentschel, T. Weiss, A. P. Alivisatos, and H. Giessen
    Science 332, 1407 (2011).
    Please take also a look at the Science Perspective article by Carsten Sönnichsen, the Nature Nanotechnology Research Highlight Plasmon rulers: Measuring in 3D, the "Photonik" article Mikroskopische Messung in 3D and the ChemPhysChem Highlight The Plasmonic Ruler Goes 3D!
  23. Nanoantenna-enhanced gas sensing in a single tailored nanofocus
    N. Liu, M. L. Tang, M. Hentschel, H. Giessen, and A. P. Alivisatos
    Nature Materials 10, 631 (2011).
    Please take also a look at the articles "Sensors in the focus" by Jörg Heber, "Nanoantennas target single particles" by nanotechweb.org.
  24. Nanoantenna-enhanced ultrafast nonlinear spectroscopy of a single gold nanoparticle
    T. Schumacher, K. Kratzer, D. Molnar, M. Hentschel, H. Giessen, and M. Lippitz
    Nature Communications 2, 333 (2011).
  25. The Promise of Metamaterials for New Applications in Optics
    H. Schweizer, L. Fu, N. Liu, T. Weiss, P. Schau, K. Frenner, W. Osten, and H. Giessen
    Proceedings of SPIE 8083, 808302 (2011).
  26. Two-color femtosecond optical parametric oscillator with 1.7 W output pumped by a 7.4 W Yb:KGW laser
    R. Hegenbarth, A. Steinmann, G. Toth, J. Hebling, and H. Giessen
    J. Opt. Soc. Am. B 28, 1344–1352 (2011).
  27. Periodic nanostructures: Spatial dispersion mimics chirality
    B. Gompf, J. Braun, T. Weiss, H. Giessen, U. Hübner, and M. Dressel
    Phys. Rev. Lett. 106, 185501 (2011).
  28. Three-Dimensional Bi-Chiral Plasmonic Crystals Fabricated by Direct Laser Writing and Electroless Silver Plating
    A. Radke, T. Gissibl, T. Klotzbücher, P. V. Braun, and H. Giessen
    Adv. Mater. 23, 3018 (2011).
    This paper was mentioned in Nature Chemistry 4, 1275 (2012).
  29. 3D optical Yagi-Uda nanoantenna-array
    D. Dregely, R. Taubert, J. Dorfmüller, R. Vogelgesang, K. Kern, and H. Giessen
    Nature Communications 2, 267 (2011).
  30. Plasmonic oligomers: the role of individual particles in collective behavior
    M. Hentschel, D. Dregely, R. Vogelgesang, H. Giessen, and N. Liu
    ACS Nano 5, 2042 (2011).
  31. Excitonic Fano Resonance in Freestanding Graphene
    D. H. Chae, T. Utikal, S. Weisenburger, H. Giessen, K. v. Klitzing, M. Lippitz, and J. H. Smet
    Nano Lett. 11, 1379 (2011).
  32. Towards the origin of the nonlinear response in hybrid plasmonic systems
    T. Utikal, T. Zentgraf, T. Paul, C. Rockstuhl, F. Lederer, M. Lippitz, and H. Giessen
    Phys. Rev. Lett. 106, 133901 (2011).
  33. Design of highly transmissive metallic meander stacks with different grating periodicities for subwavelength-imaging applications
    P. Schau, K. Frenner, L. Fu, H. Schweizer, H. Giessen, and W. Osten
    Opt. Express 19, 3627 (2011).
  34. Compact and cost-effective scheme for THz generation via optical rectification in GaP and GaAs using novel fs laser oscillators
    J.-P. Negel, R. Hegenbarth, A. Steinmann, B. Metzger, F. Hoos, and H. Giessen
    Appl. Phys. B 103, 45 (2011).
  35. Generalized retarded response of nonlinear media and its influence on soliton dynamics
    S. Pricking and H. Giessen
    Opt. Express 19, 2895 (2011).
  36. Derivation of plasmonic resonances in the Fourier modal method with adaptive spatial resolution and matched coordinates
    T. Weiss, N. A. Gippius, S. G. Tikhodeev, G. Granet, and H. Giessen
    J. Opt. Soc. Am. A 28, 238 (2011).

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2010

  1. Cavity-enhanced localized plasmon resonance sensing
    R. Ameling, L. Langguth, M. Hentschel, M. Mesch, P. V. Braun, and H. Giessen
    Appl. Phys. Lett. 97, 253116 (2010).
  2. Ultrafast nonlinear optofluidics in selectively liquid-filled photonic crystal fibers
    M. Vieweg, T. Gissibl, S. Pricking, B. J. Eggleton, D. C. Wu, B. T. Kuhlmey, and H. Giessen
    Opt. Express 18, 25232 (2010).
  3. Compact laser source for high-power white-light and widely tunable sub-65 fs laser pulses
    B. Metzger, A. Steinmann, F. Hoos, S. Pricking, and H. Giessen
    Opt. Lett. 35, 3961 (2010).
  4. Hydrogen sensor based on metallic photonic crystal slabs
    D. Nau, A. Seidel, R. B. Orzekowsky, S.-H. Lee, S. Deb, and H. Giessen
    Opt. Lett. 35, 3150 (2010).
  5. Tailoring the soliton and supercontinuum dynamics by engineering the profile of tapered fibers
    S. Pricking and H. Giessen
    Opt. Express 18, 20151 (2010).
  6. Directing light emission from quantum dots
    H. Giessen and M. Lippitz
    Science 329, 910 (2010).
  7. Enhancing the optical excitation efficiency of a single self-assembled quantum dot with a plasmonic nanoantenna
    M. Pfeiffer, K. Lindfors, C. Wolpert, P. Atkinson, M. Benyoucef, A. Rastelli, O. G. Schmidt, H. Giessen, and M. Lippitz
    Nano Lett. 10, 4555 (2010).
  8. The Fano resonance in plasmonic nanostructures and metamaterials
    B. Lukyanchuk, N. I. Zheludev, S. A. Maier, N. J. Halas, P. Nordlander, H. Giessen, and C. T. Chong
    Nature Materials 9, 707 (2010).
  9. Coupling games in metamaterials
    N. Liu
    Physik Journal 09/2010, 57 (2010).
  10. Transition from isolated to collective modes in plasmonic oligomers
    M. Hentschel, M. Saliba, R. Vogelgesang, H. Giessen, A. P. Alivisatos, and N. Liu
    Nano Lett. 10, 2721 (2010).
    Please take also a look at the article "The dark side of photonics" by Jörg Heber and the News and Views "Dark-hot resonances" in Nature 467, 541 (2010) by Mark I. Stockman.
  11. Cavity plasmonics: Large normal mode splitting of electric and magnetic particle plasmons induced by a photonic microcavity
    R. Ameling and H. Giessen
    Nano Lett. 10, 4394 (2010).
  12. Infrared perfect absorber and its application as plasmonic sensor
    N. Liu, M. Mesch, T. Weiss, M. Hentschel, and H. Giessen
    Nano Lett. 10, 2342 (2010).
  13. Lagrange model for the chiral optical properties of plasmonic stereometamaterials
    H. Liu, J. X. Cao, S. N. Zhu, N. Liu, R. Ameling, and H. Giessen
    Phys. Rev. B 81, 241403(R) (2010).
  14. Resonant mode coupling of optical resonances in stacked nanostructures
    N. A. Gippius, T. Weiss, S. G. Tikhodeev, and H. Giessen
    Opt. Express 18, 7569 (2010).
  15. Novel fabrication method for micro vapor cells for alkali atoms
    T. Baluktsian, C. Urban, T. Bublat, H. Giessen, R. Löw, and T. Pfau
    Opt. Lett. 35, 1950 (2010).
  16. Tapering fibers with complex shape
    S. Pricking and H. Giessen
    Opt. Express 18, 3426 (2010).
  17. Kopplung in optischen Metamaterialien
    H. Giessen and N. Liu
    Angew. Chemie 122, 10034 (2010).
  18. Coupling effects in optical metamaterials
    N. Liu and H. Giessen
    Angew. Chemie Int. Ed. 49, 9838 (2010).
    This paper was mentioned in Nature Chemistry 4, 1275 (2012).
  19. All-optical control of the ultrafast dynamics of a hybrid plasmonic system
    T. Utikal, M. I. Stockman, A. P. Heberle, M. Lippitz, and H. Giessen
    Phys. Rev. Lett. 104, 113903 (2010).
  20. Planar metamaterial analog of electromagnetically induced transparency for plasmonic sensing
    N. Liu, T. Weiss, M. Mesch, L. Langguth, U. Eigenthaler, M. Hirscher, C. Sönnichsen, and H. Giessen
    Nano Lett. 10, 1103 (2010).
    Please take also a look at the article "Goldener Durchblick" in "Technology Review".
    This paper is one of the most cited papers in Nano Letters of the last 3 years.
  21. Tailoring the ultrafast dynamics of optical magnetism in magnetic photonic crystals
    M. Geiselmann, T. Utikal, M. Lippitz, and H. Giessen
    Phys. Rev. B 81, 235101 (2010).

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2009

  1. Glimpsing the weak magnetic field of light
    H. Giessen and R. Vogelgesang
    Science 326, 529 (2009).
  2. Optical properties of metallic meanders
    L. Fu, H. Schweizer, T. Weiss, and H. Giessen
    J. Opt. Soc. Am. B 26, B111 (2009).
    This article was highlighted by OSA in "Spotlight on Optics".
  3. How holes can obscure the view: Suppressed transmission through an ultrathin metalfilm by a subwavelength hole array
    J. Braun, B. Gompf, G. Kobiela, and M. Dressel
    Phys. Rev. Lett. 103, 203901 (2009).
    Please take also a look at the article "A golden discovery" in Physics World.
  4. Fabrication of a fiber-based microcavity with spherical concave fiber tips
    D. M. B. Kunert, T. P. Meyrath, and H. Giessen
    Appl. Phys. B 98, 707 (2009).
  5. Optischer Wasserstoffsensor
    H. Giessen, C. Grossmann, and P. Mai
    HZwei 9, 20 (2009).
  6. Simultaneous optimization of light gain and charge transport in ambipolar light-emitting polymer field-effect transistors
    M. C. Gwinner, S. Khodabakhsh, H. Giessen, and H. Sirringhaus
    Chem. Mater. 21, 4425 (2009).
  7. Spiral-type optical nanoantennas and the manifestation of the Mushiake principle
    R. Singh, C. Rockstuhl, C. Menzel, T. P. Meyrath, M. He, H. Giessen, F. Lederer, and W. Zhang
    Optics Express 17, 9971 (2009).
  8. Plasmonic analogue of electromagnetically induced transparency at the Drude damping limit
    N. Liu, L. Langguth, T. Weiss, J. Kästel, M. Fleischhauer, T. Pfau, and H. Giessen
    Nature Materials 8, 758 (2009).
    Please take also a look at the News and Views about our article:
    S. A. Maier, Nature Materials 8, 699 (2009).
    This article is highlighted in Nature Physics 5, 532 (2009).
    See also the title page of Optics and Photonics News Oct 2009 and the title story.
  9. Femtosecond properties of photorefractive polymers
    D. Nau, A. Christ, H. Giessen, A. Wagner, A. Euteneuer, M. Salvador, E. Mecher, and K. Meerholz
    Appl. Phys. B 95, 31 (2009).
  10. Ultrafast time-resolved spectroscopy of 1D metal-dielectric photonic crystals
    T. Ergin, T. Höner zu Siederdissen, H. Giessen, and M. Lippitz
    Physical Review B 79, 24 (2009).
  11. Matched coordinates and adaptive spatial resolution in the Fourier modal method
    T. Weiss, G. Granet, N. A. Gippius, S. G. Tikhodeev, and H. Giessen
    Optics Express 17, 8051 (2009).
  12. Femtosecond 5W Yb:KGW slab laser oscillator pumped by a single broad-area diode and its application as supercontinuum source
    F. Hoos, T. P. Meyrath, S. Li, B. Braun, and H. Giessen
    Appl. Phys. B 96, 5 (2009).
  13. Efficient calculation of the optical properties of stacked metamaterials with a Fourier modal method
    T. Weiss, N. A. Gippius, S. G. Tikhodeev, G. Granet, and H. Giessen
    J. Opt. A 11, 114019 (2009).
  14. Stereometamaterials
    N. Liu, H. Liu, S. Zhu, and H. Giessen
    Nature Photonics 3, 157 (2009).
    Click here for supplementary information.
  15. Periodic large-area metallic split-ring resonator metamaterial fabrication based on shadow nanosphere lithography
    M. C. Gwinner, E. Koroknay, L. Fu, P. Patoka, W. Kandulski, M. Giersig, and H. Giessen
    Small 5, 400 (2009).
  16. Integration of a rib waveguide distributed feedback structure into a light-emitting polymer field-effect transistor
    M. C. Gwinner, S. Khodabakhsh, M. H. Song, H. Schweizer, H. Giessen, and H. Sirringhaus
    Advanced Functional Materials 19, 1360–1370 (2009).

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2008

  1. Metallic photonic crystal hydrogen sensor
    C. Grossmann, T. Meyrath, and H. Giessen
    NanoS 04.08, 33 (2008).
  2. Three-dimensional optical metamaterials as model systems for longitudinal and transverse magnetic coupling
    N. Liu and H. Giessen
    Optics Express 16, 21233 (2008).
  3. Brennpunkt: Negativ und voluminös
    H. Giessen
    Physik Journal 7, 17 (2008).
  4. Electromagnetic induction in metamaterials
    T. P. Meyrath, T. Zentgraf, C. Rockstuhl, and H. Giessen
    Appl. Phys. B 93, 107 (2008).
  5. Magnetoinductive and electroinductive coupling in plasmonic metamaterial molecules
    N. Liu, S. Kaiser, and H. Giessen
    Advanced Materials 20, 4521 (2008).
    This article is highlighted in NanoS 04.08, 19 (Dec. 2008)
  6. Plasmonics: Grating games
    H. Giessen
    Nature Photonics 2, 335 (2008).
  7. Plasmonic building blocks for magnetic molecules in three-dimensional metamaterials
    N. Liu, L. Fu, S. Kaiser, H. Schweizer, and H. Giessen
    Advanced Materials 20, 3859 (2008).
    This article is highlighted in Nature Photonics 2, 644 (Nov. 2008)
  8. Manipulation of supercontinuum generation by stimulated cascaded four-wave mixing in tapered fibers
    D. Tuerke, J. Teipel, and H. Giessen
    Appl. Phys. B 92, 159 (2008).
  9. Optical resonances of bowtie slot antennas and their geometry and material dependence
    H. Guo, T. P. Meyrath, T. Zentgraf, N. Liu, L. Fu, H. Schweizer, and H. Giessen
    Opt. Express 16, 7756–7766 (2008).
  10. Amplitude- and phase-resolved optical near fields of split-ring resonator based metamaterials
    T. Zentgraf, J. Dorfmüller, C. Rockstuhl, C. Etrich, R. Vogelgesang, K. Kern, T. Pertsch, F. Lederer, and H. Giessen
    Opt. Lett. 33, 848 (2008).
  11. Thermal lensing in an end-pumped Yb:KGW slab laser with high power single emitter diodes
    F. Hoos, S. Li, T. P. Meyrath, B. Braun, and H. Giessen
    Opt. Express 16, 6041 (2008).
  12. Near-field induced tunability of surface plasmon polaritons in composite metallic nanostructures
    A. Christ, G. Lévêque, O. J. F. Martin, T. Zentgraf, J. Kuhl, C. Bauer, H. Giessen, and S. G. Tikhodeev
    Journal of Microscopy 229, 344 (2008).
  13. Resonances in complementary metamaterials and nanoapertures
    C. Rockstuhl, T. Zentgraf, T. P. Meyrath, H. Giessen, and F. Lederer
    Opt. Express 16, 2080 (2008).
  14. Transition from thin-film to bulk properties of metamaterials
    C. Rockstuhl, T. Paul, F. Lederer, T. Pertsch, T. Zentgraf, T. P. Meyrath, and H. Giessen
    Phys. Rev. B 77, 035126 (2008).
  15. Realization of three-dimensional photonic metamaterials at optical frequencies
    N. Liu, H. Guo, L. Fu, S. Kaiser, H. Schweizer, and H. Giessen
    Nature Materials 7, 31 (2008).
    Please take also a look at the News and Views about our article:
    G. Shvets, Nature Mater. 7, 7 (2008)
  16. Synthesis of transmission line models for metamaterial slabs at optical frequencies
    L. Fu, H. Schweizer, H. Guo, N. Liu, and H. Giessen
    Phys. Rev. B 78, 115110 (2008).

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2007

  1. Microfluidic photonic crystal double-heterostructures
    C. L. C. Smith, D. K. C. Wu, M. W. Lee, C. Monat, S. Tomljenovic-Hanic, C. Grillet, B. J. Eggleton, D. Freeman, Y. Ruan, S. Madden, B. Luther-Davies, H. Giessen, and Y.-H. Lee
    Appl. Phys. Lett. 91, 121103 (2007).
  2. Enhanced transmission of periodic, quasi-periodic, and random nanoaperture arrays
    C. Rockstuhl, F. Lederer, T. Zentgraf, and H. Giessen
    Appl. Phys. Lett. 91, 151109 (2007).
  3. Dynamics and dephasing of plasmon polaritons in metallic photonic crystal superlattices
    T. Utikal, T. Zentgraf, J. Kuhl, and H. Giessen
    Phys. Rev. B 76, 245107 (2007).
  4. Resonance hybridization in double split-ring resonator metamaterials
    H. Guo, N. Liu, L. Fu, T. P. Meyrath, T. Zentgraf, H. Schweizer, and H. Giessen
    Opt. Express 15, 12095 (2007).
  5. Babinet's principle for optical frequency metamaterials and nanoantennas
    T. Zentgraf, T. P. Meyrath, A. Seidel, S. Kaiser, H. Giessen, C. Rockstuhl, and F. Lederer
    Phys. Rev. B 76, 033407 (2007).
  6. Negative permeability around 630 nm in nanofabricated meander metamaterials
    H. Schweizer, L. Fu, H. Gräbeldinger, H. Guo, N. Liu, S. Kaiser, and H. Giessen
    Phys. stat. sol. (a) 204, 3886 (2007).
  7. Conference Report: Metamaterials - optical elements for the 21st century
    H. Giessen and J. Pendry
    Phys. stat. sol. (b) 244, 1167 (2007).
  8. Optical properties of disordered metallic photonic crystal slabs
    D. Nau, A. Schönhardt, A. Christ, T. Zentgraf, C. Bauer, J. Kuhl, and H. Giessen
    Phys. stat. sol. (a) 204, 3848 (2007).
  9. Coherence of subsequent supercontinuum pulses in tapered fibers in the femtosecond pumping regime
    D. Tuerke, S. Pricking, A. Husakou, J. Teipel, J. Herrmann, and H. Giessen
    Opt. Express 15, 2732 (2007).
  10. Correlation effects in disordered metallic photonic crystal slabs
    D. Nau, A. Schönhardt, C. Bauer, A. Christ, T. Zentgraf, J. Kuhl, M. W. Klein, and H. Giessen
    Phys. Rev. Lett. 98, 133902 (2007).
  11. Plasmon hybridization in stacked cut-wire metamaterials
    N. Liu, H. Guo, L. Fu, H. Schweizer, S. Kaiser, and H. Giessen
    Advanced Materials 19, 3628 (2007).
  12. Longitudinal capacitance design for optical left-handed metamaterials
    H. Schweizer, L. Fu, H. Gräbeldinger, H. Guo, N. Liu, S. Kaiser, and H. Giessen
    Phys. stat. sol. (b) 244, 1243 (2007).
  13. Electromagnetic resonances in single and double split-ring resonator metamaterials in the near infrared
    N. Liu, H. Guo, L. Fu, H. Schweizer, S. Kaiser, and H. Giessen
    Phys. stat. sol. (b) 244, 1251 (2007).
  14. Thickness dependence of the optical properties of split-ring resonator metamaterials
    H. Guo, N. Liu, L. Fu, H. Schweizer, S. Kaiser, and H. Giessen
    Phys. stat. sol. (b) 244, 1256 (2007).
  15. Polariton bandstructure of disordered metallic photonic crystal slabs
    D. Nau, A. Schönhardt, D. N. Chigrin, H. Kroha, A. Christ, and H. Giessen
    Phys. stat. sol. (b) 244, 1262 (2007).
  16. Large-area two-dimensional photonic crystals of metallic nanocylinders based on colloidal gold nanoparticles
    X. Zhang, B. Sun, H. Guo, N. Tetreault, H. Giessen, and R. H. Friend
    Appl. Phys. Lett. 90, 133114 (2007).
  17. Analysis of metamaterials using transmission line models
    L. Fu, H. Schweizer, H. Guo, N. Liu, and H. Giessen
    Appl. Phys. B 86, 425 (2007).
  18. Lorentz model for metamaterials: optical frequency resonance circuits
    T. P. Meyrath, T. Zentgraf, and H. Giessen
    Phys. Rev. B 75, 205102 (2007).
  19. Regions of different confinement in low-dimensional Al_yIn_xGa_(1-x-y)N quantum structures
    A. Gröning, P. V. Solórzano, M. Jetter, and H. Schweizer
    Advanves in Optoelectronics 2007, 69568 (2007).
  20. The origin of magnetic polarizability in metamaterials at optical frequencies - an electrodynamic approach
    C. Rockstuhl, T. Zentgraf, E. Pshenay-Severin, J. Petschulat, A. Chipouline, J. Kuhl, H. Giessen, T. Pertsch, and F. Lederer
    Optics Express 15, 8871 (2007).

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2006

  1. Compact portable 20MHz solid-state femtosecond whitelight-laser
    F. Hoos, S. Pricking, and H. Giessen
    Optics Express 14, 10913 (2006).
  2. Editorial: Vom Funktelegraphen zur Plasmonik
    H. Giessen
    Physik in unserer Zeit 37, 151 (2006).
  3. Weisses Laserlicht und seine Anwendungen
    J. Teipel and H. Giessen
    Photonik 4, 66 (2006).
  4. On the reinterpretation of resonances in split-ring-resonators at normal incidence
    C. Rockstuhl, F. Lederer, C. Etrich, T. Zentgraf, J. Kuhl, and H. Giessen
    Opt. Express 14, 8827 (2006).
  5. Theoretical design of a liquid-core photonic crystal fiber for supercontinuum generation
    R. Zhang, J. Teipel, and H. Giessen
    Opt. Express 14, 6800 (2006).
  6. Interaction between localized and delocalized surface plasmon polariton modes in a metallic photonic crystal
    A. Christ, T. Zentgraf, S. G. Tikhodeev, N. A. Gippius, O. J. F. Martin, J. Kuhl, and H. Giessen
    Phys. stat. sol. (b) 243, 2344 (2006).
  7. Disorder issues in metallic photonic crystals
    D. Nau, A. Schönhardt, T. Zentgraf, K. J. Giessen, and  H.
    Phys. stat. sol. (b) 243, 2331 (2006).
  8. Fast sichtbar
    H. Giessen
    Physik Journal 2, 16 (2006).
  9. Analog modulation of 650 nm VCSEL
    T. Ballmann, R. Rossbach, R. Butendeich, B. Raabe, M. Jetter, F. Scholz, and H. Schweizer
    IEEE Phot. Tech. Lett. 18, 583 (2006).
  10. Optical switching in metallic photonic crystal slabs with photoaddressable polymers
    D. Nau, R. P. Bertram, K. Buse, T. Zentgraf, J. Kuhl, S. G. Tikhodeev, N. A. Gippius, and H. Giessen
    Appl. Phys. B 82, 543 (2006).
  11. Metallodielectric photonic crystal superlattices: Influence of periodic defects on transmission properties
    T. Zentgraf, A. Christ, J. Kuhl, N. A. Gippius, S. G. Tikhodeev, D. Nau, and H. Giessen
    Phys. Rev. B 73, 115103 (2006).
  12. Controlling the interaction between localized and delocalized surface plasmon modes: Experiment and numerical calculations
    A. Christ, T. Zentgraf, S. G. Tikhodeev, N. A. Gippius, J. Kuhl, and H. Giessen
    Phys. Rev. B 74, 155435 (2006).
  13. Metallic photonic crystals based on solution-processible gold nanoparticles
    X. P. Zhang, B. Sun, R. H. Friend, R. H. Friend, D. Nau, and H. Giessen
    Nano Lett. 6, 651 (2006).
  14. Influence of near-resonant self-phase modulation on pulse propagation in semiconductors
    T. Höner zu Siederdissen, N. C. Nielsen, J. Kuhl, and H. Giessen
    J. Opt. Soc. Am. B 23, 1360 (2006).
  15. Chirp-controlled soliton fission in tapered optical fibers
    D. Tuerke, W. Wohlleben, J. Teipel, M. Motzkus, B. Kibler, J. Dudley, and H. Giessen
    Appl. Phys. B 83, 37 (2006).
  16. Resonances of split-ring resonator metamaterials in the near infrared
    C. Rockstuhl, T. Zentgraf, H. Guo, N. Liu, C. Etrich, I. Loa, K. Syassen, J. Kuhl, F. Lederer, and H. Giessen
    Appl. Phys. B 84, 219 (2006).
  17. Structural- and optical characterization of AlyInxGa1-x-yN quantum dots
    P. V. Solórzano, A. Gröning, H. Schweizer, and M. Jetter
    Phys. stat. sol. (c) 3, 2073 (2006).
  18. Carrier dynamics in site-controlled Ga1-xInxN quantum dots
    M. Jetter, P. V. Solórzano, A. Gröning, H. Gräbeldinger, M. Ubl, and H. Schweizer
    Phys. stat. sol. (c) 3, 2060 (2006).

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2005

  1. Selective growth of GaInN quantum dot structures
    P. V. Solórzano, M. Ubl, H. Gräbeldinger, A. Gröning, H. Schweizer, and M. Jetter
    Physica E 26, 133 (2005).
  2. Near-red emission from site-controlled pyramidal InGaN quantum dots
    P. V. Solórzano, A. Gröning, M. Jetter, T. Riemann, and J. Christen
    Appl. Phys. Lett. 87, 163121 (2005).
  3. Evidence of different confinement regimes in site-controlled pyramidal InGaN structures
    P. V. Solórzano, A. Gröning, H. Schweizer, and M. Jetter
    Phys. stat. sol. (b) 242, No. 12, R97 (2005).
  4. Excitation beyond the monochromatic laser limit: Simultaneous 3-D confocal and multiphoton microscopy with a tapered fiber as white-light laser source
    T. Betz, J. Teipel, D. Koch, W. Härtig, J. Guck, J. Käs, and H. Giessen
    Journal of Biomedical Optics 10, 054009 (2005).
  5. Fabrication of two-dimensional hybrid photonic crystals utilizing electron beam lithography
    J. Stodolka, D. Nau, M. Frommberger, C. Zanke, H. Giessen, and E. Quandt
    Microelectronic Engineering 78-79, 442 (2005).
  6. Large-area metallic photonic crystal fabrication with interference lithography and dry etching
    H. C. Guo, D. Nau, A. Radke, X. P. Zhang, J. Stodolka, X. L. Yang, S. G. Tikhodeev, N. A. Gippius, and H. Giessen
    Appl. Phys. B 81, 271 (2005).
  7. Diode-pumped, ultrafast, multi-octave supercontinuum source at repetition rates between 500 kHz and 20 MHz using Yb:glass lasers and tapered fibers
    J. Teipel, D. Tuerke, H. Giessen, A. Killi, U. Morgner, M. Lederer, D. Kopf, and M. Kolesik
    Opt. Express 13, 1477 (2005).
  8. Compact multi-Watt picosecond coherent white light sources using multiple-taper fibers
    J. Teipel, D. Tuerke, H. Giessen, A. Zintl, and B. Braun
    Opt. Express 13, 1734 (2005).
  9. Transition between different coherent light-matter interaction regimes analyzed by phase-resolved pulse propagation
    T. Höner zu Siederdissen, N. C. Nielsen, J. Kuhl, M. Schaarschmidt, J. Foerstner, A. Knorr, G. Khitrova, H. M. Gibbs, S. W. Koch, and H. Giessen
    Opt. Lett. 30, 1384 (2005).
  10. Waveguide-plasmon polaritons in photonic crystal slabs with metal nanowires
    S. G. Tikhodeev, N. A. Gippius, A. Christ, J. Kuhl, and H. Giessen
    Phys. stat. sol. (c) 2, 795 (2005).
  11. Phase evolution of solitonlike optical pulses during excitonic Rabi flopping in a semiconductor
    N. C. Nielsen, T. Höner zu Siederdissen, J. Kuhl, M. Schaarschmidt, J. Foerstner, A. Knorr, and H. Giessen
    Phys. Rev. Lett. 94, 057406 (2005).
  12. Waveguide plasmon polaritons in metal-dielectric photonic crystal slabs
    N. A. Gippius, S. G. Tikhodeev, A. Christ, J. Kuhl, and H. Giessen
    Physics of the Solid State 47, 145 (2005).

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2004

  1. Mode and group velocity dispersion evolution in the tapered region of a single-mode tapered fiber
    R. Zhang, X. Zhang, D. Meiser, and H. Giessen
    Opt. Express 12, 5840 (2004).
  2. Adiabatically driven electron dynamics in a resonant photonic band gap: Optical switching of a Bragg periodic semiconductor
    M. Schaarschmidt, J. Foerstner, A. Knorr, J. P. Prineas, N. C. Nielsen, J. Kuhl, G. Khitrova, H. M. Gibbs, H. Giessen, and S. W. Koch
    Phys. Rev. B 70, 233302 (2004).
  3. Tailoring ultrafast dephasing of quasiparticles in metallic photonic crystals
    T. Zentgraf, A. Christ, J. Kuhl, and H. Giessen
    Phys. Rev. Lett. 93, 243901 (2004).
  4. Der Schein kann trügen
    H. Giessen
    Physik Journal 4, 21 (2004).
  5. Cascaded four-wave mixing in a femtosecond optical parametric oscillator operating near the degeneracy point
    X. P. Zhang and H. Giessen
    Appl. Phys. B 79, 441 (2004).
  6. Fast profile measurement of micrometer-sized tapered fibers with better than 50 nm accuracy
    F. Warken and H. Giessen
    Opt. Lett. 29, 1727 (2004).
  7. Linear and nonlinear pulse propagation in a multiple-quantum-well photonic crystal
    N. C. Nielsen, J. Kuhl, M. Schaarschmidt, J. Förstner, A. Knorr, S. W. Koch, G. Khitrova, H. M. Gibbs, and H. Giessen
    Phys. Rev. B 70, 075306 (2004).
  8. Optical properties of planar metallic photonic crystal structures: Experiment and theory
    A. Christ, T. Zentgraf, J. Kuhl, S. G. Tikhodeev, N. A. Gippius, and H. Giessen
    Phys. Rev. B 70, 125113 (2004).
  9. Ultrashort pulsed optical parametric oscillators
    H. Giessen and X. P. Zhang
    Book chapter in: Encyclopedia of Modern Optics, Elsevier (2004).
  10. Group velocity dispersion of tapered fibers immersed in different liquids
    R. Zhang, J. Teipel, X. Zhang, D. Nau, and H. Giessen
    Opt. Express 12, 1700 (2004).
  11. Optical properties of planar metallo-dielectric photonic crystals
    A. Christ, S. Linden, T. Zentgraf, K. Schubert, D. Nau, S. G. Tikhodeev, N. A. Gippius, J. Kuhl, F. Schindler, A. W. Holleitner, J. Stehr, J. Crewett, J. Lupton, T. Klar, U. Scherf, J. Feldmann, C. Dahmen, G. von Plessen, and H. Giessen
    Book chapter in: Photonic Crystals, pp. 85, edited by H. Föll, Wiley (2004).

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2003

  1. Intra- and extra-cavity spectral broadening and continuum generation at 1.5 µm using compact low-energy femtosecond Cr:YAG laser
    E. Sorokin, V. L. Kalashnikov, S. Naumov, J. Teipel, F. Warken, H. Giessen, and I. T. Sorokina
    Appl. Phys. B 77, 197 (2003).
  2. Waveguide-plasmon polaritons: Strong coupling of photonic and electronic resonances in a metallic photonic crystal slab
    A. Christ, S. G. Tikhodeev, N. A. Gippius, J. Kuhl, and H. Giessen
    Phys. Rev. Lett. 91, 183901 (2003).
    Please take also a look at the article in the Frankfurter Allgemeine Zeitung (FAZ).
  3. Characteristics of supercontinuum generation in tapered fibers using femtosecond laser pulses
    J. Teipel, K. Franke, D. Tuerke, F. Warken, D. Meiser, M. Leuschner, and H. Giessen
    Appl. Phys. B 77, 245 (2003).
  4. Slow coherent polarization decay of waveguide-particle-plasmon-polaritons in metallic photonic crystal slabs
    K. Schubert, J. Kuhl, and H. Giessen
    Phys. stat. sol (c), 1412 (2003).
  5. Plasmon polaritons in a metallic photonic crystal slab
    A. Christ, J. Kuhl, S. Tikhodeev, N. A. Gippius, and H. Giessen
    Phys. stat. sol (c), 1393 (2003).
  6. Pulse propagation in resonant multiple quantum wells: from pulse breakup to compression
    N. C. Nielsen, J. Kuhl, H. M. Gibbs, G. Khitrova, and H. Giessen
    Phys. stat. sol (c), 1484 (2003).
  7. Nonlinear pulse propagation in semiconductors
    N. C. Nielsen, S. Linden, J. Kuhl, J. Foerstner, A. Knorr, and H. Giessen
    Book chapter in: Quantum Coherence Correlation and Decoherence in Semiconductor Nanostructures, pp. 1, edited by T. Takagahara, Academic Press (2003).

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2002

  1. A femtosecond near IR optical parametric oscillator with efficient intracavity generation of visible light
    X. P. Zhang, J. Hebling, J. Kuhl, W. W. Rühle, L. Palfalvi, and H. Giessen
    J. Opt. Soc. Am. B 19, 2479 (2002).
  2. 1 GHz repetition rate femtosecond optical parametric oscillator
    X. P. Zhang, J. Hebling, A. Bartels, D. Nau, J. Kuhl, W. W. Rühle, and H. Giessen
    Appl. Phys. Lett. 80, 1873 (2002).
  3. Two-photon pumped lasing from a 2-dimensional photonic bandgap structure with polymeric gain material
    C. Bauer, B. Schnabel, E.-B. Kley, E.-B. Kley, H. Giessen, and R. F. Mahrt
    Adv. Mater. 14, 673 (2002).
  4. Evidence for bandedge lasing in a 2-dimensional photonic band gap polymer laser
    N. Moll, R. F. Mahrt, C. Bauer, H. Giessen, B. Schnabel, E. B. Kley, and  
    Appl. Phys. Lett. 80, 734 (2002).
  5. Schnappschuss im Halbleiter
    H. Giessen
    Physik Journal 1, 18 (2002).

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2001

  1. Spectrally and temporally resolved measurements of white light continuum generated in tapered fibers
    H. Giessen, K. Franke, J. Teipel, D. Meiser, K. Mellert, D. Nau, and M. Leuschner
    OSA Trends in Optics and Photonics (TOPS) 79, Nonlinear Optics, OSA Technical Digest, Postconference Edition (Optical Society of America, Washington DC), 461.H (2001).
  2. Wenn Licht Atome in Stücke reisst
    R. Dörner, H. Giessen, R. Moshammer, and H. Rottke
    Physikalische Blätter 4, 49 (2001).
  3. Selective suppression of extinction within the surface plasmon resonance of gold nanoparticles
    S. Linden, A. Christ, J. Kuhl, and H. Giessen
    Appl. Phys. B 73, 311 (2001).
  4. Efficient intracavity generation of visible pulses in a femtosecond near-infrared optical parametric oscillator
    X. P. Zhang, J. Hebling, J. Kuhl, W. W. Rühle, and H. Giessen
    Opt. Lett. 26, 2005 (2001).
  5. Coherent nonlinear pulse propagation on a free-exciton resonance in a semiconductor
    N. C. Nielsen, S. Linden, J. Kuhl, J. Foerstner, A. Knorr, S. W. Koch, and H. Giessen
    Phys. Rev. B 64, 245202 (2001).
  6. Separating different contributions to the shear force in near-field microscopy
    M. Leuschner, M. Schüttler, and H. Giessen
    J. Microscopy 202, 176 (2001).
  7. A surface emitting circular grating polymer laser
    C. Bauer, H. Giessen, B. Schnabel, E.-B. Kley, C. Schmitt, U. Scherf, and R. F. Mahrt
    Adv. Mater. 13, 1161 (2001).
  8. Controlling the interaction between light and gold nanoparticles: selective suppression of extinction
    S. Linden, J. Kuhl, and H. Giessen
    Phys. Rev. Lett. 86, 4688 (2001).
  9. Time-resolved stimulated emission in an alpha-sexithienyl thin film
    G. Urbasch, H. Giessen, M. Murgia, R. Zamboni, and R. F. Mahrt
    Synth. Met. 116, 49 (2001).
  10. Atomic dynamics in single and multi-photon double ionization: An experimental comparison
    T. Weber, M. Weckenbrock, A. Staudte, M. Hattass, L. Spielberger, O. Jagutzki, V. Mergel, V. Mergel, G. Urbasch, H. Giessen, H. Bräuning, C. L. Cocke, M. H. Prior, and R. Dörner
    Opt. Express 8, 368 (2001).
  11. Towards the origin of the shear force in scanning near- field optical microscopy
    M. Schüttler, M. Leuschner, and H. Giessen
    Jap. J. Appl. Phys. 40, 813 (2001).

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2000

  1. Pulse characteristics of an optical parametric oscillator pumped by sub-30-fs light pulses
    J. Hebling, X. P. Zhang, H. Giessen, J. Kuhl, and J. Seres
    Opt. Lett. 25, 1055 (2000).
  2. Visualisierung der internen Struktur von Schreibmarken auf optischen Disks mittels Reflexions-SNOM
    M. Schüttler, M. Leuschner, and H. Giessen
    OptoLaser 32, 29 (2000).
  3. Polarized photoluminescence and spectral narrowing in an oriented polyfluorene thin film
    C. Bauer, G. Urbasch, H. Giessen, A. Meisel, H.-G. Nothofer, D. Neher, U. Scherf, and R. F. Mahrt
    Chem. Phys. Chem. 1, 142 (2000).
  4. Observation of phonon resonances in the optical nonlinearity in an alpha-sexithienyl thin film
    G. Urbasch, H. Giessen, M. Murgia, R. Zamboni, and R. F. Mahrt
    Phys. stat. sol. (b) 221, 561 (2000).
  5. Sequential and nonsequential contributions to double ionization in strong laser fields
    T. Weber, M. Weckenbrock, A. Staudte, L. Spielberger, O. Jagutzki, V. Mergel, F. Afaneh, G. Urbasch, M. Vollmer, H. Giessen, and R. Dörner
    J. Phys. B Lett. 33, L127 (2000).
  6. Nonlinear polariton pulse propagation in bulk semiconductors
    J. Förstner, A. Knorr, S. Kuckenburg, T. Meier, S. W. Koch, H. Giessen, S. Linden, and J. Kuhl
    Phys. stat. sol. (b) 221, 453 (2000).
  7. Carrier dynamics in stacked InP/GaInP quantum dots
    A. Christ, H. Giessen, W. W. Rühle, K. Korona, J. Kuhl, M. Zundel, Y. Manz, and K. Eberl
    Phys. stat. sol. (b) 221, 59 (2000).
  8. Correlated electron emission in multiphoton double ionization
    T. Weber, H. Giessen, M. Weckenbrock, G. Urbasch, A. Staudte, L. Spielberger, O. Jagutzki, V. Mergel, F. Afaneh, M. Vollmer, and R. Dörner
    Nature 405, 658 (2000).
  9. Femtosecond transient transmission of alpha- sexithienyl single crystals at low temperatures
    G. Urbasch, H. Giessen, R. Zamboni, and R. F. Mahrt
    J. Phys. Chem. B 104, 12210 (2000).
  10. Femtosecond differential transmission spectroscopy of alpha-sexithienyl thin films
    G. Urbasch, H. Giessen, M. Murgia, R. Zamboni, and R. F. Mahrt
    J. Lumin. 87-89, 736 (2000).
  11. Recoil-ion momentum distributions for single and double ionization of Helium in strong laser fields
    T. Weber, M. Weckenbrock, A. Staudte, L. Spielberger, O. Jagutzki, V. Mergel, F. Afaneh, G. Urbasch, M. Vollmer, H. Giessen, and R. Dörner
    Phys. Rev. Lett. 84, 443 (2000).
  12. Femtosecond differential transmission in alpha-sexithienyl thin films at low temperature
    G. Urbasch, H. Giessen, M. Murgia, R. Zamboni, and R. F. Mahrt
    J. Phys. Chem. B 104, 6536 (2000).
  13. XFROG: Crosscorrelation frequency-resolved optical gating
    S. Linden, J. Kuhl, and H. Giessen
    Book chapter in: Frequency-resolved optical gating: the measurement of ultrashort laser pulses, pp. 313, edited by R. Trebino, Kluver (2000).

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1999

  1. Imaging the internal structure of recording marks on an optical disk by internal reflection scanning near-field optical microscopy
    M. Schüttler, M. Leuschner, and H. Giessen
    Jap. J. of Appl. Phys. Lett. 38, L218 (1999).
  2. Self-induced transmission on a free exciton resonance in a semiconductor
    H. Giessen, J. Kuhl, A. Knorr, and S. W. Koch
    Optics and Photonics News, special issue 'Optics in 1999', 27 (1999).
  3. The dynamics of gain-narrowing in a ladder-type pi-conjugated polymer
    G. Wegmann, B. Schweitzer, D. Hertel, H. Giessen, M. Oestreich, R. F. Mahrt, U. Scherf, and K. Müllen
    Chem. Phys. Lett. 312, 376 (1999).
  4. Femtosecond transient absorption spectroscopy in alpha-sexithienyl thin films
    G. Wegmann, R. F. Mahrt, H. Bässler, H. Giessen, M. Murgia, O. Kapousta, M. Muccini, C. Taliani, and R. Zamboni
    Synth. Met. 101, 555 (1999).
  5. Two-photon fluorescence and femtosecond two-photon absorption studies of MeLPPP, a ladder-type poly(phenylene) with low intra-chain disorder
    M. Harrison, G. Urbasch, R. F. Mahrt, H. Giessen, H. Bässler, and U. Scherf
    Chem. Phys. Lett. 313, 755 (1999).
  6. High-intensity laser pulse propagation in semiconductors
    H. Giessen, A. Knorr, J. Kuhl, and S. W. Koch
    Advances in Solid State Physics 39, 483 (1999).
  7. Conjugated polymer lasers: Emission characteristics and gain mechanism
    G. Wegmann, B. Schweitzer, M. Hopmeier, M. Oestreich, H. Giessen, and R. F. Mahrt
    Phys. Chem. Chem. Phys. 1, 1795 (1999).
  8. Near field solid immersion lens spectroscopy: An alternative to nonlinear SNOM at T=8K
    M. Vollmer, H. Giessen, W. Stolz, and W. W. Rühle
    J. Microscopy (Oxford) 194, 523 (1999).
  9. Coherent propagation at high intensities on a free exciton resonance in a semiconductor: self-induced transmission
    H. Giessen, S. Linden, J. Kuhl, A. Knorr, S. W. Koch, M. Hetterich, M. Grün, and C. Klingshirn
    Superlattices and Microstructures 26, 103 (1999).
  10. Self-induced transmission in semiconductors: resonant and continuum interactions
    H. Giessen, S. Linden, J. Kuhl, A. Knorr, S. W. Koch, M. Hetterich, M. Grün, and C. Klingshirn
    Optics Express 4, 121 (1999).
  11. Bandwidth enhancement of a shear-force controlled distance regulation in near-field microscopy
    M. Lippitz, M. Schüttler, H. Giessen, M. Born, and W. W. Rühle
    J. Appl. Physics 86, 100 (1999).
  12. Ultrafast nonlinear subwavelength solid immersion spectroscopy at T=8K
    M. Vollmer, H. Giessen, W. W. Rühle, and W. Stolz
    Appl. Phys. Lett. 74, 1791 (1999).
  13. Amplitude and phase characterization of weak blue ultrashort pulses by downconversion
    S. Linden, J. Kuhl, and H. Giessen
    Optics Letters 24, 569 (1999).
  14. Ultrafast nonlinear gain dynamics in nanocrystals
    H. Giessen, J. Butty, U. Woggon, B. Fluegel, G. Mohs, Y. Z. Hu, S. W. Koch, and N. Peyghambarian
    Invited book chapter in: New Aspects in Optical Properties of Nanostructures edited by T. Takagahara, Phase Transitions 68, 59 (1999).

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1998

  1. Theory for semiconductor near-field optics: selection rules and coherent spatio-temporal dynamics
    A. Knorr, B. Hanewinkel, H. Giessen, and S. W. Koch
    in Festkörperprobleme XXXVIII, 311 (1998).
  2. The optical gain mechanism in solid conjugated polymers
    B. Schweitzer, G. Wegmann, H. Giessen, D. Hertel, H. Bässler, R. F. Mahrt, U. Scherf, and K. Müllen
    Appl. Phys. Lett. 72, 2933 (1998).
  3. Laser emission from a solid conjugated polymer: gain, tunability and coherence
    G. Wegmann, H. Giessen, A. Greiner, and R. F. Mahrt
    Phys. Rev. B Rapid Communications 57, R4218 (1998).
  4. A tunable nanosecond blue-green solid polymer laser
    H. Giessen, G. Wegmann, and R. F. Mahrt
    Book chapter in: Trends in Optics and Photonics XIX, edited by Martin M. Feijer (1998).
  5. A tunable blue-green laser from a solid conjugated polymer
    H. Giessen, G. Wegmann, D. Hertel, and R. F. Mahrt
    Phys. stat. sol. (b) 206, 437 (1998).
  6. XFROG - A new method for amplitude and phase characterization of weak ultrashort pulses
    S. Linden, H. Giessen, and J. Kuhl
    Phys. stat. sol. (b) 206, 119 (1998).
  7. Coherent high-intensity pulse propagation on a free excition resonance in a semiconductor
    H. Giessen, S. Linden, J. Kuhl, A. Knorr, S. W. Koch, F. Gindele, M. Hetterich, M. Grün, C. Klingshirn, and N. Peyghambarian
    Phys. stat. sol. (b) 206, 27 (1998).
  8. Self-induced transmission on a free exciton resonance in a semiconductor
    H. Giessen, A. Knorr, S. Haas, S. W. Koch, S. Linden, J. Kuhl, M. Hetterich, M. Grün, and C. Klingshirn
    Phys. Rev. Lett. 81, 4260 (1998).
  9. Theoretical study of solitonlike propagation of picosecond light pulses interacting with Wannier excitons
    I. Talanina, D. Burak, R. Binder, H. Giessen, and N. Peyghambarian
    Phys. Rev. E 58, 1074 (1998).

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1997

  1. Blue-green laser emission from a solid conjugated polymer
    G. Wegmann, H. Giessen, D. Hertel, and R. F. Mahrt
    Solid State Comm. 104, 759 (1997).
  2. Mirror dispersion-compensated femtosecond optical parametric oscillator
    J. Hebling, H. Giessen, S. Linden, and J. Kuhl
    Optics Comm. 141, 229 (1997).

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1996

  1. High-intensity femtosecond pulse propagation on a semiconductor exciton resonance
    H. Giessen, G. Mohs, N. Peyghambarian, F. Gindele, U. Woggon, M. Hetterich, S. Petillion, M. Grün, and C. Klingshirn
    International Quantum Electronics Conference, Sydney, Australia, 1996, Talk ME5 , OSA Technical Digest Series (Optical Society of America, Washington, D.C.), 8 (1996).
  2. Femtosecond optical gain in strongly confined quantum dots
    H. Giessen, U. Woggon, B. Fluegel, G. Mohs, Y. Z. Hu, S. W. Koch, and N. Peyghambarian
    Opt. Lett. 21, 1043 (1996).
  3. Microscopic theory of optical gain in small semiconductor quantum dots
    Y. Z. Hu, H. Giessen, S. W. Koch, and N. Peyghambarian
    Phys. Rev. B 53, 4814 (1996).
  4. Dephasing in the gain region of II-VI semiconductor nanocrystals
    H. Giessen, B. Fluegel, G. Mohs, Y. Z. Hu, N. Peyghambarian, U. Woggon, C. Klingshirn, P. Thomas, and S. W. Koch
    J. Opt. Soc. America B 13, 1039 (1996).
  5. Cavity-modified spontaneous emission: From Rabi oscillations to exponential decay
    H. Giessen, J. D. Berger, G. Mohs, P. Meystre, and S. F. Yelin
    Phys. Rev. A 53, 2816 (1996).
  6. Ultrafast transient gain in type II multiple quantum wells
    G. Mohs, B. Fluegel, H. Giessen, K. Meissner, G. Khitrova, H. Gibbs, and N. Peyghambarian
    Appl. Phys. Lett. 68, 511 (1996).
  7. Phonon-induced spectral holes in the gain region of an inverted semiconductor
    G. Mohs, R. Binder, B. Fluegel, H. Giessen, and N. Peyghambarian
    J. Opt. Soc. America B 13, 1298 (1996).
  8. Ultrafast energy relaxation in quantum dots
    U. Woggon, H. Giessen, B. Fluegel, G. Mohs, Y. Z. Hu, S. W. Koch, and N. Peyghambarian
    Phys. Rev. B 54, 17681 (1996).
  9. Observation of the quantum confined ground state in InP quantum dots at 300 K
    H. Giessen, B. Fluegel, G. Mohs, N. Peyghambarian, J. R. Sprague, O. I. Micic, and A. J. Nozik
    Appl. Phys. Lett. 68, 304 (1996).
  10. Gain in strongly confined CdSe quantum dots: A model system for gain in quantum confined systems
    H. Giessen, U. Woggon, B. Fluegel, G. Mohs, Y. Z. Hu, S. W. Koch, and N. Peyghambarian
    special issue on Confined Excitations in Molecular and Semiconductor Nanostructures, ed. by D.S. Chemla and S. Mukamel, Chem. Phys. 210, 71 (1996).

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1995

  1. Gain in strongly confined semiconductor quantum dots
    H. Giessen, U. Woggon, and N. Peyghambarian
    Opt. Photonics News 6, Special Issue 'Optics in 1995', 34 (1995).
  2. Synthesis and characterization of InP, GaP, and GaInP2 quantum dots
    O. I. Micic, J. R. Sprague, C. J. Curtis, K. M. Jones, J. L. Machol, A. J. Nozik, H. Giessen, B. Fluegel, and N. Peyghambarian
    J. Phys. Chem. 99, 7754 (1995).
  3. Photoluminescence decay dynamics in an InGaN/AlGaN/GaN double-heterostructure blue light emitting diode
    G. Mohs, B. Fluegel, H. Giessen, H. Tajalli, N. Peyghambarian, P. C. Chiu, B. S. Phillips, and M. Osinski
    Appl. Phys. Lett. 67, 1515 (1995).
  4. Effects of dissipation on nonlocal microwave fields
    J. D. Berger, H. Giessen, P. Meystre, T. Nelson, S. Haycock, and S. Hammann
    Phys. Rev. A 51, 2482 (1995).

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1994

  1. Carrier dephasing in the gain region of an inverted semiconductor
    K. Meissner, B. Fluegel, H. Giessen, G. Mohs, R. Binder, S. W. Koch, and N. Peyghambarian
    Phys. Rev. B 50, 17647 (1994).
  2. Wurtzite type epitaxial layers of CdS and CdSe part II: Nonlinear optical properties
    H. Giessen, U. Becker, W. Langbein, S. Bogdanov, H. Kalt, M. Grün, and C. Klingshirn
    J. Cryst. Growth 141, 75 (1994).
  3. Wurtzite type epitaxial layers of CdS and CdSe part I: Growth and characterization
    M. Grün, M. Hetterich, U. Becker, H. Giessen, and C. Klingshirn
    J. Cryst. Growth 141, 68 (1994).

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1993

  1. Spectral hole burning in the gain region of an inverted semiconductor
    K. Meissner, B. Fluegel, H. Giessen, B. P. McGinnis, A. Paul, R. Binder, S. W. Koch, N. Peyghambarian, M. Grün, and C. Klingshirn
    Phys. Rev. B 48, R15472 (1993).
  2. Growth and optical properties of epitaxial layers of CdS and CdSe
    M. Grün, U. Becker, H. Giessen, T. Gilsdorf, F. Zhou, J. Loidolt, M. Müller, H. Zangerle, M. Hetterich, and C. Klingshirn
    Optical Materials 2, 163 (1993).
  3. Wurtzite CdSe grown by hot-wall epitaxy
    M. Grün, U. Becker, M. Scheib, H. Giessen, and C. Klingshirn
    J. Cryst. Growth 126, 505 (1993).

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1992

  1. Observation of quantum-confined electron-hole droplets
    H. Kalt, R. Nötzel, K. Ploog, and H. Giessen
    Solid State Comm. 83, 285 (1992).
  2. Quantum-confined electron-hole droplets
    H. Kalt, R. Nötzel, K. Ploog, and H. Giessen
    Phys. stat. sol. (b) 173, 389 (1992).

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1991

  1. Optical characterization and strain effects in CdS thin epitaxial films grown by hot wall epitaxy
    U. Becker, H. Giessen, M. Grün, and C. Klingshirn
    La Vide, les Couches Minces, Suppl. 259, 236 (1991).
  2. Growth, linear and nonlinear optical properties of thin CdS and ZnSe films
    U. Becker, H. Giessen, M. Grün, C. Klingshirn, H. Tian, and B. J. Yang
    Crystal Growth and Preparation 36/38, 111 (1991).
  3. CuI microcrystallites embedded in a glass matrix
    O. Gogolin, Y. Berosashvili, G. Mschvelidze, E. Tsitsishvili, S. Oktjabrski, H. Giessen, A. Uhrig, and C. Klingshirn
    Semicond. Sci. Technol. 6, 401 (1991).

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