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Beiträge in Büchern / book-chapters

[5] Uwe Langbein: „Nachbetrachtungen zur Tagung „30 Jahre Mauerfall“; erschienen in „Vom Träumen und Aufwachen - Drei Jahrzehnte nach dem Mauerfall“, Hrsg.: Beate Jaquet, Christine Ziepert, Matthias Ohler; Carl-Auer-Verlag, Heidelberg, 2022; ISBN: 978-3-8497-0361-5

[4]M. Brinkmann, M. Hagemann, U. Langbein und A.Hermerschmidt: „Physikalische Modelle zur Lichtausbreitung“ im Lehrbuch „Cluster und Grid Computing für Computational Science“, Hsg.: D. Fey, Springer Verlag, (2010) Berlin Heidelberg, (2010), 225-253; ISBN 978-3-540-79746-3; Online-Ausgabe: DOI 10.1007/s11082-009-9344-8

[3]A.D.Boardman, P.Egan, F.Lederer, U.Langbein, and D.Mihalache: "Third-order nonlinear electromagnetic TE and TM guided waves"; in "NONLINEAR SURFACE ELECTRO-MAGNETIC PHENOMENA", ed. by H.-E.Ponath, and G.I.Stegeman, (Vol 29 of the series "Modern Problems in Condensed Matter Physics"), North Holland / Elsevier Science Publishers, Amsterdam 1991, pp 73-288

[2]Uwe Langbein: Bilder von Licht und Schatten: Licht begreifen als Physiker; Beitrag in "Licht-Ortungen. Zur Reflexion des Sichtbaren", PHILO-Verlagsgesellschaft mbh, Bodenheim, 1998, ISBN 3-8257-0085-2, S. 80-91

[1]Uwe Langbein: Lichtvermittelte Zeit - Zeitbezüge in den Licht-Bildern der Physik; Beitrag in "Licht und Zeit", Hrsg. Gernot Böhme und Reinhard Olschanski, Wilhelm Fink Verlag, München, 2004, ISBN 3-7705-4083-2, S. 38-49
  

Veröffentlichungen / paper

[55] Matthias Brinkmann, Charlotte Dachroth, Ole Jeschonnek, Uwe Langbein: "Analysis of glory phenomena created by retroreflecting microspheres"; Opt. Eng. 61(6), 064109 (2022), doi: 10.1117/1.OE.61.6.064109.

[54] Matthias Brinkmann, Uwe Langbein: „Vermessung und Modellierung der Kleinwinkelstreuung an Optischen Diffusoren“; DGaO Proceedings 2021 – http://www.dgao-proceedings.de – ISSN: 1614-8436 – urn:nbn:de:0287-2021-P006-7

[53] Matthias Brinkmann, Uwe Langbein: „Simulation und Vermessung von Optischen Diffusoren“; DGaO-Proceedings 2020 – http://www.dgao-proceedings.de – ISSN: 1614-8436 – urn:nbn:de:0287-2020-P005-9

[52] Michael Strasser, Kenji Setoura, Uwe Langbein, and Shuichi Hashimoto:"Computational Modeling of Pulsed Laser-Induced Heating and Evaporation of Gold Nanoparticles"; J. Phys. Chem. C 2014, 118, 25748−25755

[51] Frederik Fleissner, Michael Morawitz, S. Jeffrey Dixon, Uwe Langbein
and Silvia Mittler:"Dye distance mapping using waveguide evanescent field fluorescence microscopy and its application to cell biology"; J. Biophotonics 1–12 (2014) / DOI 10.1002/jbio.20140008

[50] Qamrun Nahar, Frederik Fleißner, Jeremiah Shuster, Michael Morawitz, Christopher Halfpap,  Mihaela Stefan, Uwe Langbein, Gordon Southam, and Silvia Mittler: *Waveguide evanescent field scattering microscopy: bacterial biofilms and their sterilization response via UV irradiation; J. Biophotonics 1–10 (2013) / DOI 10.1002/jbio.201300135

[49] Erden Ertorer, Fartash Vasefi, Joel Keshwah, Mohamadreza Najiminaini, Christopher Halfpap, Uwe Langbein, Jeffrey J. L. Carson, Douglas W. Hamilton, Silvia Mittler:"Large area periodic, systematically changing, multishape nanostructures by laser interference lithography and cell response to these topographies";Journal of Biomedical Optics, 18(3), (2013) 035002-1 - 035002-8

[48] Darryl K. Knight, Rebecca Stutchbury, Daniel Imruck, Christopher Halfpap, Shigang Lin, Uwe Langbein, Elizabeth R. Gillies, Silvia Mittler, and Kibret Mequanint:"Focal Contact Formation of Vascular Smooth Muscle Cells on Langmuir−Blodgett and Solvent-Cast Films of Biodegradable Poly(ester amide)s"; Applied Materials & Interfaces, 4, (2012) 1303-1312
 
[47] C. Halfpap, M. Morawitz, A. Peter, N. Detrez, S. Mittler, U. Langbein:"HF-Sputtered Glass Waveguide Slides for Waveguide Evanescent Field Microscopy"; DGaO-Proceedings 2012 http:// www.dgao-proceedings.de, ISSN: 1616-8436-um:nbn:de0287-2012-B032-8

[46] Andreas Müller, A. Rouhanipour; Hans-Joachim Räder; Uwe Langbein; Bernhard Menges: "Surface plasmon microscopy for monitoring laser deposition of nanographene monolayer" DGaO-Proceedings 2012 http:// www.dgao-proceedings.de, ISSN: 1616-8436-um:nbn:de0287-2012-P007-1

[45] C. Kasparek , M. Strasser , U. Langbein, B. Menges: "Optical study of interphases and diffusion of an amorphous fluoropolymer at a gold interface"; DGaO-Proceedings 2012 http:// www.dgao-proceedings.de, ISSN: 1616-8436-um:nbn:de0287-2012-P008-5

[44] A. Hassanzadeh, M. Nitsche, S. Armstrong, N. Nabavi, R. Harrison, S.J. Dixon, U. Langbein, S. Mittler: "Optical waveguides formed by Schott SG11 glass for waveguide evanescent field microscopy: Evanescent images of HEK293 cells"; Journal of Biomedical Optics 15(3), (2010) 036018-1 bis 7

[43] B. Menges, H. Halberstadt, U. Langbein: Development of an optical Biosensor Device based on Grating-assisted Hybrid-Mode Excitation; 8th IEEE Conference on Sensors; Proceedings, Christchurch, 2009, 1260-1263

[42] Uwe Langbein, Udo Trutschel, Andreas Unger  and Michel Duguay "Rigorous Mode Solver for multilayer cylindrical Waveguide Structures using Constraints Optimization”; Optical and Quantum Electronics (2009); 223-2

[41]Abdollah Hassanzadeh, Michael Nitsche, Silvia Mittler, Souzan Armstrong, Jeff Dixon, and Uwe Langbein: Waveguide evanescent field fluorescence microscopy: Thin film fluorescence intensities and its application in cell biology; APPLIED PHYSICS LETTERS 92, (2008) 233503

[40] U.Langbein, and F.Lederer: "Attenuated thick hologram gratings: I.Diffraction efficiency",; Opt.Quant.Electron. 9(1977),473

[39] F.Lederer, and U.Langbein: "Attenuated thick hologram gratings: II. Anomalous absorption"; Opt.Quant.Electron. 9(1977),487

[38] U.Langbein, and F.Lederer,: "Spatial filtering properties of volume holograms",; Opt.Quant.Electron. 11(1979),29

[37] U.Langbein, and F.Lederer: "Modal theory for thick hologram gratings I: General treatment"; Opt.Acta 27(1980),171

[36] U.Langbein, and F.Lederer: "Modal theory for thick hologram gratings II: Unslanted transmission and reflection gratings",; Opt.Acta 27(1980),183

[35] U.Langbein, and F.Lederer: "Anomalous absorption in volume gratings: A modal approach",; Opt.Quant.Electron. 14(1982),277

[34] W.Biehlig, U.Langbein, and F.Lederer: "Diffraction efficiencies of evanescent-wave holograms",; Appl.Phys.B 30(1983),87

[33] U.Langbein, F.Lederer, and H.-E.Ponath: "Nonstationary nonlinear phenomena in optical slab waveguides I: General theory",; Opt.Quant.Electron. 16(1984),251

[32] U.Langbein, F.Lederer, and H.-E.Ponath: "Nonstationary nonlinear phenomena in optical slab waveguides II: Pulse shaping by a nonlinear overlay",; Opt.Quant.Electron. 16(1984),261

[31] U.Langbein, F.Lederer, and H.-E.Ponath: "Amplification of slab-guided modes",; Opt.Acta 31(1984),1141

[30] U.Langbein, F.Lederer, H.-E.Ponath, and U.Trutschel: "Bistabilities in three-wave mixing processes with guided waves",; IEEE J.Quant.Electron. QE-21(1985),1639

[29] W.Biehlig, K.Hehl, U.Langbein, and F.Lederer: "Light propagation in planar dielectric slab waveguides with step-discontinuities, part 1: Operator formalism"; Opt.Quant.Electron. 18(1986),219

[28] W.Biehlig, and U.Langbein: "Angular spectrum representation of guided wave-fields and generalized matrix-operator formalism",; Opt.Quant.Electron. 22(1990),319

[27] U.Langbein, F.Lederer, H.-E.Ponath, and U.Trutschel: "Raman scattering by polaritons in Ti:NbO3 waveguides",; J.Raman Spectr. 17(1986),71

[26] V.Leutheuser, U.Langbein, and F.Lederer: "Optical response of a nonlinear bent directional coupler",; Optics Commun. 75(1990),251

[25] F.Lederer, U.Langbein, and H.-E.Ponath: "Nonlinear waves guided by a dielectric slab I: TE-polarization"; Appl.Phys.B 31(1983),69

[24] U.Langbein, F.Lederer, H.-E.Ponath, and U.Trutschel: "Analysis of the dispersion relations of nonlinear slab-guided waves I: Asymmetrical configuration"; Appl.Phys.B 36(1985),187

[23] F.Lederer, U.Langbein, H.-E.Ponath, and U.Trutschel: "Analysis of the dispersion relations of nonlinear slab-guided waves II: Symmetrical configuration",; Appl.Phys.B 38(1985),263

[22] U.Langbein, F.Lederer, and H.-E.Ponath: "Generalized dispersion relations for nonlinear slab-guided waves",; Opt.Commun. 53(1985),417

[21] U.Langbein, F.Lederer, Th.Peschel, and H.-E.Ponath: "Nonlinear guided waves in saturable nonlinear media"; Opt.Lett. 10(1985),571

[20] F.Lederer, U.Langbein, D.Mihalache, and D.Mazilu: "Nonlinear TM-polarized waves in non-Kerr media",; Physica 145C(1987),377

[19] L.Leine, C.Wächter, U.Langbein, and F.Lederer: "Propagation phenomena of nonlinear film-guided waves: A numerical analysis"; Opt.Lett. 11(1986),590

[18] C.Wächter, U.Langbein, and F.Lederer: "Nonlinear waves guided by graded-index films",; Appl.Phys.B 42(1987)161

[17] L.Leine, C.Wächter, U.Langbein, and F.Lederer: "Propagation phenomena of nonlinear film-guided waves in a configuration with material losses: A numerical analysis"; Opt.Lett. 12(1987),747

[16] L.Leine, C.Wächter, U.Langbein, and F.Lederer,: "Evolution of nonlinear guided optical fields down a dielectric film with a nonlinear cladding"; J.Opt.Soc.Am. B5(1988),547

[15] H.-E.Ponath, U.Trutschel, U.Langbein, and F.Lederer: "Cross-trapping of counterpropagating nonlinear guided waves"; J.Opt.Soc.Am. B5(1988),539

[14] D.Mihalache, D.Mazilu, U.Langbein, F.Lederer, and L.Leine: "Effects of absorption on the nonlinear optical waves guided by self-focusing thin films"; Phys.Lett. A129(1988),473

[13] W.Biehlig, F.Lederer, U.Trutschel. U.Langbein, D.Mihalache and A.D.Boardman: "TM-polarized nonlinear guided waves in multilayer systems";

[12] D.Mihalache, D.Mazilu, W.Biehlig, U.Langbein, F.Lederer, U.Trutschel: "TE-polarized waves guided by a nonlinear thin dielectric film bounded by a nonlinear cladding",; Solid State Commun. 74(1990),275

[11] B.Gröbler und U.Langbein: "Überlegungen zu den Grenzen des Auflösungsvermögens von Fernfeld- Mikroskopen unter besonderer Berücksichtigung von Fernfeld-Rasterverfahren"; Optik 81(1989),175

[10] Th.Peschel, P.Dannberg, U.Langbein, and F.Lederer: "Investigation of optical tunneling through nonlinear films"; J.Opt.Soc.Am. B4(1988),29

[9] U.Trutschel, F.Lederer, and U.Langbein: "Transmission and reflection of transverse magnetic polarized optical fields at stratified nonlinear media"; Phys.Rev.B 40(1989) 8275

[8] S.M.Arakelian, Y.S.Chilingarian, L.M.Kocharian, U.Langbein, F.Lederer, U.Trutschel: "Optical bistability due to nonlinear resonance in thin surface transition layers of an ATR-system"; Physics Lett. A145(1990),49

[7] U.Langbein, F.Lederer, Th.Peschel, U.Trutschel, and D.Mihalache: "Nonlinear transmission resonances at stratified dielectric media"; invited paper to the "Agranovich-Festschrift", ed. by A.A.Abrikosov, T.A.Leskova, and D.L.Mills,

[6] Michael Weisser, Frank Thoma, Bernhard Menges, Uwe Langbein, Silvia Mittler-Neher: "Fluorescence in ion-exchanged BK7 glass slab waveguides and its use for scattering free loss measurements"; Optics Communications, 153(1998)27-31

[5] Frank Thoma, John Armitage ,Hugues Trembley, Bernhard Menges, Uwe Langbein and Silvia Mittler-Neher: "Waveguide scattering microscopy in air and water"; Proc of the SPIE-Conference , July 1998, Quebec, SPIE vol.3414(1998)242-249

[4] F. Baribeau, D. Brichard, B. Dareys, V. Delisle, M.A. Duguay, U. Langbein, J.-F. Leclerc and U. Trutschel: "Tapered waveguide for broad-band WDM optical dispersion compensation"; Applications of Photonic Technology 3: Closing the gap between Theory, Development and Applications, George A. Lambropoulos, and Roger A. Lessard, Editors, Proceedings of SPIE, vol.3491(1998)451-456, ICAPT'98, Ottawa 27-30 July 1998

[3] Frank Thoma, Uwe Langbein, Silvia Mittler-Neher: "Waveguide scattering microscopy"; Optics Communications 134(1997)16-20

[2] U. Langbein: " Aufbau und Charakterisierung eines Hohlkernwellenleiters auf Folienbasis"; Ergebnisse aus Forschung und Entwicklung der FHW Bd. 27(1996)138-145

[1] U. Langbein: " Planare optische Wellenleiter -Simulation, Herstellung, Vermessung-"; Ergebnisse aus Forschung und Entwicklung der FHW Bd. 27(1996)146-153