Program


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Wednesday, 26 August 2009

 

Time

Title / activity

9:00-10:00

Registration Material Pick-up

9:30-10:00

Poster Placement

Poster authors for the Wednesday poster session P1 are to set up their posters at this time

10:00

Opening

 

10:15

(Plenary I) Extreme light physics, G. Mourou; Laboratoire d’Optique Appliquèe, France

11:00

Wednesday Poster Overview

Poster authors are asked to give 2 minute/ 2 viewgraph overviews of their posters in the order they appear in the program (28 posters)

12:00

Exhibitors Overview

Exhibitors are asked to give 2 minute/ 2 viewgraph overview  (12 exhibitors)

12:30

Lunch

 

Parallel session 1

Parallel session 2

13:45

(Invited 1)  12.5-mJ CEP-stable OPCPA at 1.5 μm,  S. Ališauskas1, V. Smilgevičius1, A. Piskarskas1, O. D. Mücke2, A. J. Verhoef2, A. Pugžlys2, A. Baltuška2, J. Pocius3, L. Giniūnas3, R. Danielius3, N. Forget4;  1Department of Quantum Electronics, Vilnius University, Lithuania; 2Photonics Institute, Vienna University of Technology, Austria; 3Light Conversion Ltd,  Lithuania; 4„Fastlite“,  France

(Invited 3) Skin optics as a tool for distant health assessment,  J. Spigulis; Bio-optics and Fiber Optics Laboratory, Institute of Atomic Physics and Spectroscopy, University of Latvia, Latvia

14:15

(Invited 2) High-intensity interactions of femtosecond laser pulses with transparent solids, V. Kudriašov, E. Gaižauskas, D. Paipulas, V. Sirutkaitis; Laser Research Center, Vilnius University, Lithuania                                             

(Invited 4) ANITA: FTIR air monitoring on the international space station: Operation and results, A. Honne, H. Schumann-Olsen, K. Kaspersen; SINTEF ICT, Norway

14:45

Optical rogue waves in the femtosecond regime, M. Erkintalo1, G. Genty1, J. Dudley2; 1Optics Laboratory, Tampere University of Technology, Finland; 2Université de Franche-Comté, Institut FEMTO-ST, France [O-1]

ANITA: FTIR air monitoring on the international air space station: Preparations for operation, A. Honne, H. Schumann-Olsen, K. Kaspersen; SINTEF ICT, Norway [O-4]

15:00

Amplification of picosecond pulses from gain-switched laser diodes in Ytterbium-doped fibers, L. Petravičiūtė, S. V. Marchese, V. Romano, T. Feurer; Institute of Applied Physics, University of Bern, Switzerland [O-2]

Combining low-coherence reflectometry, laser ablation and fluid collection in fiber, A. Sudirman1, G. Björk2, W. Margulis1; 1Acreo, Sweden; 2Royal Institute of Technology, Sweden [O-5]

15:15

Cryogenic cooling of Ytterbium fiber lasers for increased efficiency and stability, P. Jelger, K. Seger, V. Pasiskevicius, F. Laurell; Department of Applied Physics, Royal Institute of Technology, Sweden [O-3]

Measurements on LED as an energy efficient illumination source, G. Werner, H. Skoogh, A. Andersson, P. O. Hedekvist, L. Å. Norsten, J. Elfström; SP Technical Research Institute of Sweden, Sweden [O-6]

15:30

Coffee / Poster session P1/ Exhibition

17:30

End of poster session and exhibition

19:00

Excursion in Vilnius Old town and Vilnius University (Participants must arrive to the main building of Vilnius University in Old town by address Universiteto str. 3)

20:00–22:00

Reception at Vilnius University

 

 

Thursday, 27 August 2009

 

Time

Title / activity

8:15-8:30

Poster Placement

Poster authors for the Thursday poster session P2 are to set up their posters at this time

8:30

(Plenary II) Technologies for high power fiber lasers: the next generation, A. Galvanauskas; Center for Ultrafast Optical Science, University of  Michigan, USA

9:15

Thursday Poster Overview

Poster authors are asked to give 2 minute/ 2 viewgraph overviews of their posters in the order they appear in the program (28 posters)

10:15

Exhibition/coffee

 

Parallel session 3

Parallel session 4

11:00

(Invited 5) Counter-propagating parametric interactions in nanostructured ferroelectrics, G. Strömqvist, V. Pasiskevicius, C. Canalias; Department of Applied Physics, Royal Institute of Technology (KTH), Sweden

(Invited 6) Modeling of laser beam propagation through strong turbulence, S. Nicolas, G. Arisholm; Norwegian Defense Research Establishment (FFI), Norway

11:30

2-, 3- and 4-Pass Ytterbium-Doped Fiber Amplifier, K. Regelskis, N. Gavrilin, G. Račiukaitis; Institute of Physics, Lithuania [O-7]

Scattering of the highly focused vector beams from the spherical nanoparcticle, P. Banzer1, T. Bauer1, G. Leuchs1, S. Orlov1,2, U. Peschel1; 1Max Planck Institute for science of light, Germany; 2Department of Quantum Electronics, Vilnius University, Lithuania [O-14]

11:45

Use of a transversely chirped volume Bragg grating for tuning a Yb:KYW Laser,  K. Seger, B. Jacobsson, V. Pasiskevicius, F. Laurell; Laser Physics, KTH – Royal Institute of  Technology, Sweden [O-8]

Four wave mixing from radiating Band-gap solitons, K. Staliūnas1, A. Savickas2, E. Gaižauskas2; 1Universtitat Politecnica de Catalunya, Barselona; 2 Vilnius University, Laser Research Centre, Lithuania [O-15]

12:00

Short pulse laser diode pumped solid-state Q-switched Nd minilasers: modeling, experiments and applications, A.S. Dement‘ev, E. Murauskas, K. Račkaitis, N. Slavinskis; Institute of Physics, Lithuania [O-9]

Bilayer lens based on transformation optics, W. Yan, M. Yan, M. Qiu; Laboratory of Optics, Photonics and Quantum Electronics, Department of Microelectronics and Applied Physics , Royal Institute of Technology (KTH), Sweden [O-16]

12:15

Tandem optical parametric oscillator mid-infrared laser source, M. Henriksson1,2, L. Sjöqvist1, V. Pasiskevicius2, F. Laurell2; 1Laser Systems Group, FOI – Swedish Defense Research Agency, Sweden; 2Laser Physics, KTH – Royal Institute of  Technology, Sweden [O-10]

Dynamics of the reflection and transmission processes of a light beam carrying  the orbital angular momentum at a plane interface, V. G. Fedoseyev; Institute of Physics, University of  Tartu, Estonia [O-17]

12:30

Lunch

 

13:45

(Plenary III) Laser spectroscopy applied to environmental and medical
research, S. Svanberg; Lund Laser Centre, Lund University, Sweden

 

Parallel session 5

Parallel session 6

14:30

(Invited 7) Time-and-space-domain study of diffracting and "non-diffracting" light pulses, P. Saari1, P.Bowlan2, H. Lukner1, M. Lõhmus1, P. Piksarv1, R. Trebino2; 1 University of Tartu, Institute of Physics, Estonia;  2Georgia Institute of Technology, School of Physics,  USA

(Invited 9) GaSb-based heterostructures for high power and ultrafast laser operation, J. Paajastea, S. Suomalainena, R. Koskinena, A. Härkönena, S. Kivistöa, M. Guinaa,b, O. G. Okholnikova, M. Pessaa

aOptoelectronics Research Centre, Tampere University of Technology; RefleKron Ltd, Finland

 

15:00

(Invited 8) Phase-matched frequency conversion through parametric four-wave interaction in transparent isotropic solid-state media, A. Dubietis, J. Darginavičius, G. Tamošauskas, G. Valiulis, A. Piskarskas; Department of Quantum Electronics, Vilnius University, Lithuania

(Invited 10) Silicon photodiodes as efficient detectors of light, E. Ikonen;

Metrology Research Institute, Helsinki University of Technology (TKK) and Centre for Metrology and Accreditation (MIKES), Finland

15:30

Directly recording diffraction phenomena in time domain, M. Lõhmus1, P. Bowlan2, R. Trebino2, H. Valtna-Lukner1, P. Piksarv1, R. Saari1; 1 University of Tartu, Institute of Physics, Estonia;  2Georgia Institute of Technology, School of Physics,  USA [O-11]

Terahertz emission from InSb surface excited by femtosecond laser radiation, V. L. Malevicha, G. V. Sinitsyna, A. Krotkusb; aInstitute of Physics, National Academy of Sciences of Belarus, Belarus; Semiconductor Physics Institute, Lithuania [O-18]

15:45

Generation of Bessel-Gauss pulses using a passively Q-switched diode-pumped Nd:YLF laser, R. Tommila, A. Hakola, T. Kajava; Department of Applied Physics, Helsinki University of  Technology, Finland [O-12]

 Time-resolved digital holography: tool for direct observations of ultra-fast phenomena, A. Melninkaitis, A. Vanagas, T. Balčiūnas, V. Sirutkaitis; Vilnius University, Laser Research Centre, Lithuania [O-19]

16:00

 Image formation of radially and temporally truncated Bessel beams, O. Rebane, M. Lõhmus, P. Saari; University of Tartu, Institute of Physics, Estonia [O-13]

Time-correlated single-photon time-of-flight range profiling and imaging, L. Sjöqvist, M. Henriksson, P. Jonsson, O. Steinvall; Laser System Group,FOI-Swedish Defence Research Agency, Sweden [O-20]

16:15

Coffee /Poster session  P2/ Exhibition

18:00

End of poster session and exhibition

19:30

Conference dinner

 

 

Friday, 28 August 2009

 

Time

Title / activity

8:30

(Plenary IV), Three-dimensional laser structuring of materials, S. Juodkazis; Research Institute for Electronic Science, Hokkaido University, Japan

 

Parallel session 7

Parallel session 8

9:15

(Invited 11) Light and environment modulated spectral features of quantum dots, S.Bagdonas1, G. Streckyte1, R.Rotomskis1,2; 1Vilnius University, Laser Research Center, 2Laboratory of Biomedical Physics, Vilnius University Institute of Oncology, Lithuania

(Invited 12) Tunable microwave generation using novel fiber laser cavity, P. Rugeland1, Z. Yu1, O. Tarasenko1, G. Tengstrand2, W. Margulis1, ;1Acreo;2Saab Avitronics, Sweden

9:45

Simulation of localization microscopy method utilized quantum dot blinking, J. Forma1, A. Engbert2, P. Hänninen2, J. Toivonen1;Optics Laboratory, Tampere University of Technology; Laboratory of  Biophysics, University of Turku, Finland [O-21]

High-resolution phase contrast microscopy in the soft x-ray range, U. Vogt, O. von Hofsten, M. Bertilson, M. Lindblom, A. Holmberg, H. M. Hertz; Biomedical and X-ray Physics, Department of Physics, Royal Institute of Technology, Albanova University Center, Sweden [O-28]

10:00

Computer controlled light source for multispectral imaging, L. Fauch, V. Teplov, E. Nippolainen2 A. A. Kamshilin; Department of Physics, University of Kuopio, Finland [O-22]

 ‘Laserless’ FTIR spectrometer design compromising a voice coil motor and linear encoder, K. H. Haugholt, J. Tschudi, K. A. H. Bakke, M. O’Farrell, O. Løvhaugen, M. Hjelstuen, R. Johannessen; SINTEF ITC, Norway [O-29]

10:15

(Invited 13) Diagnostics and Treatment of Tumours using Laser Techniques, K. Svanberg,

Department of Oncology, Lund University Hospital, Lund University, Sweden and Lund University Medical Laser Centre, Lund University, Sweden

Measuring distances to fast moving objects with semitransparent or multiple scattering surfaces, I. S. Sidorov*, D. V. Semenov, E. Nippolainen, A. A. Kamshilin; Department of Physics, University of Kuopio, Finland [O-30]

10:30

 

10:45

Exhibition/coffee

 

Parallel sesion 9

Parallel sesion 10

11:30

(Invited 14) 3D photofabrication by femtosecond laser pulses and its applications in biomedicine, A. Ovsianikov, B. N. Chichkov; Laser Zentrum Hannover e.V.,Nanotechnology Department,Germany

(Invited 15) Second-harmonic generation based absolute probes of surface chirality, M. J. Huttunen, M. Erkintalo, M.Kauranen; Department of Physics, Tampere University of Technology, Finland

12:00

Laser plasma source of extreme ultraviolet (EUV) for micro- and nanoprocessing polymers, H. Fiedorowicz, A. Bartnik, R. Jarocki, J. Kostecki, R. Rakowski,  A. Szczurek, M. Szczurek, P. Wachulak; Institute of Optoelectronics, Military University of Technology, Poland [O-23]

Light Confinement in optical fibers using surface Plasmon polaritons, F. Renna1, G. Brambilla1, D. Cox2

Optoelectronics Research Centre (ORC), 1University of Southampton; Advanced Technology Institute, University of Surrey, UK [O-31]

12:15

Laser nanostructuring of polymers for application in microoptics, photonics, and micromechanics, M. Malinauskas, V. Purlys, A. Zukauskas, M. Rutkauskas, K. Belazaras, H. Gilbergs, K. Stankeviciute, G. Bickauskaite,

D. Paipulas, A. Melninkaitis and R. Gadonas; Vilnius University, Laser Research Center, Lithuania [O-24]

Modeling of optical and electronic properties of semiconductor nanowires, G. K. Svendsen1, M.-A. Dupertuis2, H. Weman1, J. Skaar2; Department of Physics, Norwegian University of Science and Technology(NTNU),Norway; Laboratory of Physics of Nanostructures, Switzerland [O-32]

12:30

Laser applications for removing dielectric layers for front side metallisation of crystalline silicon solar cells, V. Juzumas1,2, J. Janušonis1,2, T. Balčiūnas1,3, V. Sabonis1,3; 1Vilnius University, Faculty of Physics; Applied Research 2Institute for Prospective Technologies;3Altechna Co. Ltd., Lithuania [O-25]

Characterization  of inclined GaSb nanocones by Mueller matrix ellipsometry, I. S. Nerbø1, M. Kildemo1, S. Leroy2, E. Søndergård; 1Applied Optics Group, Department of Physics, Norwegian University of Science and Technology(NTNU),Norway; UTR 125 Unité mixte CNRS/Saint-Gobain Laboratoire Surface du Verre et Interfases 39 Quai Lucien Lefranc, France [O-33]

12:45

Transformation in thin metal films induced by laser irradiation, G. Račiukaitis, M. Gedvilas, B. Voisiat, E. Molotokaitė, K. Regelskis; Laboratory for Applied Research, Institute of Physics, Lithuania [O-26]

Distributed feedback laser diodes implemented with nanoimprint lithography, J. Telkkälä, J. Viheriälä, A. Laakso, T. Leinonen, M. Dumitrescu, M. Pessa; ORC, Tampere University of Technology, Finland [O-34]

13:00

Laser beam shaping, characterization and application for laser micro machining, R. Buividas1,2, G. Šlekys2; 1Vilnius University, Faculty of Physics; 2Altechna Co. Ltd., Lithuania [O-27]

Formation of self-polymerized nano-membranes by femtosecond laser pulses, M. Malinauskas1, A. Ovsianikov2, X. Shizhou2, B. N. Chichkov2, R. Gadonas1 ;

1Vilnius University, Faculty of Physics; Department of quantum Electronics, Laser Research Center, Lithuania; 2 Laser Zentrum Hannover e.V., Germany [O-35]

13:15

Lunch

14:30

(Plenary V) Nanoscopy with focused light, Stefan W. Hell; Max Planck Institute for Biophysical Chemistry, Department of NanoBiophotonics, Germany

15:15- 15:30

Concluding remarks

 

 

Wednesday Poster Session P1 – 26 August, 2009

 

Lasers, Nonlinear Optics, Quantum Optics

Lasers  and Light in Materials Processing (Including Micro-processing)

 

P1-1. Simultaneous dual-wavelength generation from vertical external-cavity surface-emitting semiconductor lasers, S. Ranta1*, T. Leinonen1, A. Härkönen1, A. Laakso1, Yu. Morozov2, and M. Pessa1; 1 Optoelectronics Research Centre, Tampere University of Technology,Finland; 2Institute of Radioengineering and Electronics of Russian Academy of Sciences, Russia

 

P1-2. Photoluminescence and relaxation of metamorphic tensile GaInP layers grown on GaAs, L. Toikkanen, T. Hakkarainen, A. Schramm, A. Tukiainen, M. Guina, and M. Pessa; Optoelectronics Research Centre, Tampere University of Technology, Finland

 

P1-3. Short-cavity diode-pumped Nd:YLF laser with GaAs Q-switch, S. Beranek, E. Räikkönen, A.Hakola, and T. Kajava; Department of Applied Physics, Helsinki University of Technology, Finland

 

P1-4. Characterization of Kerr nonlinearities in undoped and Yb-doped KRE(WO4)2RE=Y, Yb, Gd, Lu Crystals, N. Thilmanna, G. Strömqvista, M. C. Pujolb, V. Pasiskeviciusa, V. Petrovc, F. Diazb; a  Laser physics, KTH – Royal Institute of Technology, Sweden; b Física Cristal lografia de Materials i Nanomaterials.Universitat Roviva i Virgili,Spain; cMax-Born-Institute for Nonlinear Optics and Short Pulse Spectroscopy, Germany

 

P1-5. Raman amplification bandwidth in KGW crystal at femtosecond excitation, O. V. Buganov, A. S. Grabtchikov, V. A. Orlovich, S. A. Tikhomirov; B. I. Stepanov Institute of Physics NAS of Belarus, Belarus

 

P1-6. Intracavity frequency sum mixing in diode pumped solid state laser with SRS self-conversion,A. Demidovicha, A. Kananovichb, A. Grabtchikovb; M. Danailova, V. Orlovichb; aLaserLab ELETTRA-Sincrotrone, Italy; bInstitute of Physics, National Academy of Sciences of Belarus, Belarus

 

P1-7. Generation of multi-frequency infrared and visible radiation in pulsed microchip laser with Raman conversion and nonlinear sum-mixing, P. V. Shpaka, A. A. Demidovichb, M. B. Danailovb, A. S. Grabtchikova, V. A. Orlovicha, a B. I. Stepanov institute of Physics NAS Belarus, Belarus; b Laser Lab Sincrotrone-Trieste, Italy

 

P1-8. Numerical analysis of signal gain and noise figure of S-band Tm-doped W-type fiber amplifier with different pumping configurations, M. A. Khodasevich, S. A. Koval, G. V. Sinitsyn; B. I. Stepanov Institute of Physics, National Academy of Sciences of Belarus, Belarus

 

P1-9. Generation of periodic filament arrays by self-focusing of elliptical ultrashort pulsed laser beams, V. Jukna, D. Majus, G. Valiulis, A. Dubietis; Department of Quantum Electronics, Vilnius University, Lithuania

 

P1-10. Self-compression of 1.5 um CEP stable OPCPA pulses in noble gases to sub-20 fs, S. Ališauskas1, V. Smilgevičius1, A. Piskarskas1, O. D. Mücke2, A. J. Verhoef2, A. Pugžlys2, A. Baltuška2, J. Pocius3, L. Giniūnas3, R. Danielius3, N. Forget4; 1Department of Quantum Electronics, Vilnius University, Lithuania; 2 Photonics Institute, Vienna University of Technology, Austria; 3 Ligth Conversion Ltd., Lithuania; 4 „Fastlite“, France

 

P1-11. Conical wave spiral beam formation, V. Jarutis, A. Matijošius, P. Di Trapani and A. Piskarskas; Department of Quantum Electronics, Vilnius University, Lithuania

 

P1-12. Four-wave rectification and generation of terahertz radiation in air, Virgilijus Vaičaitis, Valerijus Smilgevičius; Laser research center, Vilnius university, Lithuania

 

P1-13. Continuum generation in photonic crystal fibre by multi-wavelength amplified subnanosecond light pulses, A. Čiburys, R. Gadonas, D. Jokšas; Department of Quantum Electronics, Vilnius University, Lithuania

 

P1-14. Generation of ultra-broadband pulses in 512 nm pumped femtosecond NOPA setup, R. Antipenkov, A. Varanavičius, A. P. Piskarskas; Department of Quantum Electronics, Vilnius University, Lithuania

 

P1-15. Picosecond Nd:YAG amplification system for pumping of high energy OPCPA, J. Adamonisa,b, R. Antipenkova, J. Kolendab, A. Michailovasb, A. P. Piskarskas, A. Varanaviciusa; aDepartment of Quantum Electronics, Vilnius University, Lithuania; bUAB „Ekspla“, Lithuania

 

P1-16. Dynamic properties of passively Q-switched LD-pumped erbium laser, T. V. Bez’yazychnaya1, M. V. Bogdanovich1, V. V. Kabanov1, G. I. Ryabtsev1, A. I. Yenzhyieuski1, A. V. Grigor’ev2, A. G. Ryabtsev2, M. A. Shchemelev2, A. S. Dement’ev3; 1B.I. Stepanov Institute of Physics, National Academy of Sciences of Belarus, Belarus; 2Belarusian State University, Belarus;3Institute of Physics, Lithuania

 

P1-17. Measurements of self- and cross-phase modulation coefficients of the crystals using a modified Z-scan technique, A. S. Dement‘ev, E. Murauskas, K. Račkaitis, N. Slavinskis; Institute of Physics, Lithuania

 

P1-18. Numerical modeling of short pulse generation by laser diode pumped solid-state Q-switched lasers using a traveling wave model, A. S. Dement‘ev1, N. Slavinskis1, R. Čiegis2, I. Laukaitytė2; 1Institute of Physics, Lithuania; 2Vilnius Gediminas Technical University, Lithuania

 

P1-19. Optimization of passively Q-switched Yb:YAG micro laser parameters, V. Stočkus1,2, V. Smilgevičius1, G. Šlekys2; 1Vilnius University, Faculty of Physics, 2Altechna Co. Ltd., Lithuania

 

P1-20. Spectrum control of doubly resonant optical parametric oscillator with compensation of signal and idler wave’s cavity length, M. Gecevičius, V. Jarutis, D. Kezys, V. Smilgevičius, A. Piskarskas; Quantum Electronics Department, Vilnius University, Lithuania

 

P1-21. High power Yb doped fiber amplifier for OPO pump, R. Butkus, M. Gecevičius, V. Smilgevičius, A. Piskarskas; Vilnius University, Faculty of Physics, Quantum Electronics Department, Vilnius University, Lithuania

 

P1-22. Modeling of supercontinuum generation in photonic crystal, D. Kezys, V. Smilgevičius; Laser Research Center, Vilnius University, Lithuania

 

P1-23. Beam shaping with birefringent structures written in silica glass, M. Beresna, P. Kazansky; Optoelectronics Research Center, University of Southampton, United Kingdom

 

P1-24. Surface-texturing of sapphire by femtosecond laser pulses for photonic applications, T. Kudrius1, S. Juodkazis2, G. Šlekys1; 1Vilnius University, Faculty of Physics, Lithuania; 2Research Institute for Electronic Science, Hokkaido University, Japan;  3Altechna Co. Ltd., Lithuania

 

P1-25. Manufacturing of difractive elements in fused silica by high repetition rate femtosecond Yb:KGW laser pulses, D. Paipulas, V. Kudriašiov, K. Kuršelis, M. Malinauskas, V. Siruktaitis; Laser Research Center, Vilnius University, Lithuania

 

P1-26. Modeling of laser colored stainless steel surfaces by color pixels, A. Lehmuskero, J. Hiltunen*, V. Kontturi, M. Kuittinen; Department of Physics and Mathematics, Univ. of Joensuu, *InFotonics Center Joensuu Univ. of Joensuu, Finland

 

P1-27. 3D artificial polymer scaffolds for regenerative medicine fabricated by femtosecond laser, P. Danilevičius1, M. Malinauskas1, D. Baltriukienė2, M. Rutkauskas1, V. Chorosajev1, Ž. Kairytė2, G. Bickauskaite1, A. Zukauskas1, V. Purlys1, D. Paipulas1, V. Bukelskienė2 and R. Gadonas1; 1Vilnius University, Department of Quantum Electronics, Laser Research Center, 2Institure of Biochemistry, Lithuania

 

 

Thursday Poster Session P2 – 27 August, 2009

 

                                                                  Optics in Life Sciences,

 Optical Metrology and Advanced Imaging

Optical Sensors, Guided Wave Optics, Surface Plasmons

Optics in Comunnications, Microoptical Devices

Nanophotonics, Material Optics

 

P2-1. Multi-spectral mapping of in vivo skin parameters, D. Jakovels J.Spigulis;  Institute of Atomic Physics and Spectroscopy, University of Latvia, Latvia

 

P2-2. Wireless optical sensing of fingertip blood pulsations, E. Kviesis-Kipge, J. Spigulis; Bio-optics and Fibre Optics Laboratory, Institute of Atomic Physics and Spectroscopy, University of Latvia, Latvia

 

P2-3. Photocoagulation of blood vessels under influence of diode-pumped thulium laser radiation, L.E. Batay1, A. I. Vodchits1, V. A. Orlovich1, N. B. Gorbunova2, T. E. Kuznetsova2, V. S. Ulastchik2; 1B.I.Stepanov Institute of Physics of NASB, Belarus; 2 Institute of Physiology of NASB, Belarus

 

P2-4. Efficient ablation of ex vivo cornea by the fifth harmonic of femtosecondYb:KGW laser, E. Gabrytė, A. Aleknavičius, R. Danielius, M. Vengris; Vilnius University, Faculty of Physics, Laser Research Centre, Lithuania Light conversion, Lithuania.

 

P2-5. Synthesis of diffractive optical elements and computer generated holograms by full-vectorial beam propagation method, D. Kezys1, R. Petruškevičius1, M. Mikolajūnas2, V. Grigaliūnas2, J. Baltrusaitis3, D. Viržonis4; 1Institute of Physics, Lithuania; 2Institute of Physical Electronics of Kaunas University of Technology, Lithuania; 3Department of Chemistry and central Microscopy Research Facility, University of Iowa, USA; 4Panevezys Mechatronics Center, Lithuania

 

P2-6. Short-range ultraviolet laser based standoff detection of chemical warfare agents, F. Kullandera#, P. Jonssona, M. Henrikssona, G. Olofssonb, P. Wästerbyb; FOI – Swedish Defence Research Agency, Sweden

 

P2-7. Applications of high performance infrared imaging, S. Siikanen, M. Kaarre, M. Juuti; VTT Technical Research Centre of Finland, Optical instruments, Finland

 

P2-8. Time-resolved spectroscopy measurements of a laser processed material plasma induced by nanosecond and femtosecond lasers, O.Balachninaite, A.Baskevicius, V. Sirutkaitis; Vilnius University, Laser Research Center, Lithuania

           

P2-9. Q-factor of high refractive index glass microspheres in air and water, B. J. Husabø, B. S. Ahluwalia, O. G. Hellesø; Department of Physics and Technology, Norway

                       

P2-10. Application of surface plasmons to analysis of amyloid self assembly, V. Vaicikauskas, Z. Balevicius; Institute of Physics, Lithuania

 

P2-11. Raman and optical study of external and internal defects of submicron diamonds for quantum photonics, A. Kulbickas1, L. Rasteniene1, M. Bloomfield2, A. Zakharov3, M. Franckevičius1, R. Vaisnoras1; 1Vilnius Pedagogical University, Lithuania; 2Renischaw plc, UK.; 3St. Petersburg Institute for Machine Sciences, Russia

 

P2-12. Plasmonic structures for surface-enhanced Raman scattering on the base of silver coated porous silicon and anodic aluminum oxide, S. N. Terekhov, A. Yu. Panarin, I. A. Khodasevich, S. P. Zhavavyi, N. I. Mukhurov,V. A. Orlovich; B. I. Stepanov Institute of Physics of  NASB, Belarus

 

P2-13. Ultra-high resolution optical coherence tomography as a method of quality inspection for printable electronics encapsulation, J. Czajkowski, T. Prykäri, E. Alarousu, R. Myllylä; Optoelectronics and measurement techniques laboratory, University of Oulu, Finland

 

P2-14. Photon-to-electron converter with 1 ppm quantum deficiency, E. Ikonen1,2, A. Haapalinna3, M. Sildoja1, and F. Manoocheri1,2; 1Metrology Research Institute, Helsinki University of Technology (TKK), Finland; 2Centre for Metrology and Accreditation (MIKES), Finland, and 3Okmetic Oyj, Finland

 

P2-15. Fabrication of the μ-fluidic channels and optical control of depth, T. Tamulevičius1, M. Andrulevičius1, 2, L. Puodžiukynas1, 2, R. Šeperys2, V. Morkūnas1, 2, S. Tamulevičius1, 2; 1Institute of Physical Electronics of Kaunas University of Technology, 2 Kaunas University of Technology, Faculty of Fundamental Science, Lithuania

 

P2-16. Rapid photonic microwave measurement using ultra narrow DFB FBG, P. Rugeland1, Z. Yu1, O. Tarasenko1, G. Tengstrand2 and W. Margulis1,3; 1. Acreo, Sweden; 2. Saab Avitronics, Sweden

 

P2-17. Investigation of electro-optic polymers via all-optical poling and ellipsometry, G. Seniutinas1, R. Tomašiūnas1, Z. Balevičius2, R. Petruškevičius2; 1Institute of  Materials Science and Applied Research, Vilnius University, 21Institute of Physics, Lithuania

 

P2-18. Magnetooptics of opal crystal modified by cobalt nanoparticles, I. Šimkienė1, A. Rėza1, A. Kindurys1, V. Bukauskas1, J. Babonas1, R. Szymczak2, P. Aleshkevych2  M. Franckevičius3, R. Vaišnoras3; 1Semiconductor Physics Institute, Lithuania; 2Institute of Physics PAN, Warsaw, Poland;  3Vilnius Pedagogical University, Lithuania

 

P2-19. Coherent anti-Stokes Raman scattering spectroscope/microscope based on picosecond parametric oscillator, A. Dementjev1, V. Gulbinas1, M. Kaučikas1; Fizikos institutas, UAB “EKSPLA”, Lithuania

 

P2-20. Polarization dependence of holographic recording in glassy azocompounds,  A. Ozols, V. Kokars, P. Augustovs, I. Uiska, K. Traskovskis, G. Mezinskis, A. Pludons, D. Saharov; Faculty of Material Science and Applied Chemistry, Riga Technical University, Latvia

 

P2-21. Nanomechanical properties and possible applications of mechanoactivated ZnO coatings, R. Zabels, F. Muktepavela, M. Chubarov; Institute of Solid State Physics, University of Latvia, Latvia

 

P2-22. Photoinduced surface relief modulation in amorphous chalcogenide thin films during holographic recording, U. Gertners, J. Teteris; Institute of Solid State Physics, University of Latvia, Latvia

 

P2-23. Holographic recording in photochrome-chalcogenide composites, A. Gerbreders1,2, J. Aleksejeva1, A. Danilovs1, J. Teteris1; 1Institute of Solid  State Physics, University of Latvia, Latvia; 2Daugavpils University , Department of Physics, Latvia

 

P2-24. Zero index metamaterial cloak, J. Hao, W. Yan, M. Qiu; Photonics and Microwave Engineering, Royal Institute of Technology (KTH), Sweden

 

P2-25. Doped polymeric microstructures for optically active functional devices, A. Zukauskas, M. Malinauskas, L. Kontenis, V. Purlys, D. Paipulas, M. Vengris and R. Gadonas; Vilnius University, Faculty of Physics, Department of Quantum Electronics, Laser Research Centre, Lithuania

 

P2-26. Self-polymerization of nano-fibers induced by two-photon absorption, M. Malinauskas, V. Purlys, M. Rutkauskas, G. Bickauskaite and R. Gadonas; VilniusUniversity, Physics Faculty, Department of Quantum Electronics, Laser Research Center, Lithuania

 

P2-27. LED-Based Light Sources for Decontamination of Food Pathogens, E. Paškevičiūtė, Z. Vaitonis, and Ž. Lukšienė,  Institute of Materials Science and Applied Research, Vilnius University, Vilnius, Lithuania

 

P2-28. Novel Advanced Pulsed Light Technology for Decontamination of Meat Matrix from Pathogens, E. Paškevičiūtė, Ž. Lukšienė, Vytautas Gudelis, Institute of Materials Science and Applied Research, Vilnius University, Vilnius, Lithuania