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    108 research outputs found

    Klinische Assessments craniomandibulÀrer Dysfunktionen (CMD)

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    An einer Stichprobe von 100 Patienten mit einer gesicherten craniomandibulĂ€ren Dysfunktion wurden eine Muskelfunktionsuntersuchung, eine Bewegungs-funktionsuntersuchung, eine Ultraschalltopometrie der HalswirbelsĂ€ule durchgefĂŒhrt sowie das Outcome mit den Fragebögen ?Helkimo? und ?Haese? und der Visuellen Analogskala abgefragt. Dabei zeigten sich gehĂ€uft Muskelfunktionsstörungen im Sinne oberer und unterer gekreuzter Syndrome, außerdem wurde eine eingeschrĂ€nkte Beweglichkeit der HalswirbelsĂ€ule dokumentiert. Weiterhin zeigten die Zusammenhangsanalysen eine gute Korrelation eigenbeurteilter Befunde, aber es konnte kaum ein Zusammenhang zwischen eigen- und fremdbeurteilten Befunden gefunden werden
    Digitale Bibliothek ThĂŒringen

    ZnO nanorods for efficient third harmonic UV generation.

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    'The Optical Society'
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    ZnO nanorods grown by both high temperature vapour phase transport and low temperature chemical bath deposition are very promising sources for UV third harmonic generation. Material grown by both methods show comparable efficiencies, in both cases an order of magnitude higher than surface third harmonic generation at the quartz-air interface of a bare quartz substrate. This result is in stark contrast to the linear optical properties of ZnO nanorods grown by these two methods, which show vastly different PL efficiencies. The third harmonic generated signal is analysed using intensity dependent measurements and interferometric frequency resolved optical gating, allowing extraction of the laser pulse parameters. The comparable levels of efficiency of ZnO grown by these very different methods as sources for third harmonic UV generation provides a broad suite of possible growth methods to suit various substrates, coverage and scalability requirements. Potential application areas range from interferometric frequency resolved optical gating characterization of few cycle fs pulses to single cell UV irradiation for biophysical studies
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    Irish Universities
    DCU Online Research Access Service
    Diposit Digital de la Universitat de Barcelona

    Acceleration of Coagulation by Spectrin-Free Erythrocytic Vesicles: Evidence for Lipid Flip-Flop during Vesicle Formation

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    'Wiley'
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    Neue Methoden der Charakterisierung und Kompression intensiver ultrakurzer optischer Impulse

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    Humboldt-UniversitÀt zu Berlin, Mathematisch-Naturwissenschaftliche FakultÀt I
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    Die Erzeugung immer kĂŒrzerer und energiereicherer Laserimpulse ist eine der wichtigsten Aufgaben der Laserphysik, um physikalische PhĂ€nomene in bisher unerreichten elektrischen FeldstĂ€rkebereichen zugĂ€ngig zu machen und Beobachtungen auf kleinster Zeitskala zu ermöglichen. Mit Hilfe der Nachkompression verstĂ€rkter, in edelgasgefĂŒllten Hohlfasern selbstphasenmodulierter Ti:Saphir-Laserimpulse werden die momentan kĂŒrzesten Impulse des sichtbaren Spektralbereiches erzeugt, die nur noch wenige Schwingungszyklen des elektrischen Feldes umfassen. Ebenso notwendig wie ein solcher Schritt der Impulskompression ist der verlĂ€ssliche Nachweis seines Ergebnisses. Allerdings wĂ€chst auch die physikalische und technische Herausforderung einer prĂ€zisen und vollstĂ€ndigen Messung des ultrakurzen Laserimpulses mit zunehmender KomplexitĂ€t und Breite des Impulsspektrums. Die vorliegende Arbeit stellt sowohl auf dem Gebiet der Kompression von Sub-10-fs Impulsen als auch auf dem der vollstĂ€ndigen Charakterisierung solcher Impulse optimierte aber auch neue Verfahrenstechniken vor. In Experimenten an einem zweistufigen Hohlfaserkompressor wird die Erzeugung der momentan kĂŒrzesten, nicht adaptiv komprimierten Impulse mit einer Dauer von lediglich 3,8 fs demonstriert. Eine elegante Alternative zu bisherigen Kompressionsmethoden zeigt der Nachweis effektiver Selbstkompression von mJ-Impulsen auf unter 8 fs in einem selbstfĂŒhrenden Edelgasfilament auf. Zur Kontrolle erfolgreicher Impulskompression und fĂŒr eine phasenempfindliche Untersuchung des Prozesses der Dispersionskompensation ĂŒber spektrale Bandbreiten von bis zu einer Oktave mussten etablierte Impulsmesstechniken wie das SPIDER- (Spectral Phase Interferometry for Direct Electric-field Reconstruction) und das FROG- (Frequency-Resolved Optical Gating) Verfahren weiterentwickelt werden. So wird mit der Realisierung und vollstĂ€ndigen Analyse interferometrischer FROG-Messungen ein neues phasenempfindliches Impulsmessverfahren vorgestellt.One challenge of today’s laser physics is the stable compression of more and more intense laser pulses to the shortest possible pulse duration to enable new high-field laser experiments and to investigate fast atomic or molecular dynamics. At present, the shortest laser pulses of the visible spectral region envelop only a few cycles of the electric field. The state of the art method to generate such short pulses behind a Ti:sapphire amplifier laser system is by means of successive steps of spectral broadening inside a gas-filled hollow fibre and dispersion compensation. However, a reliable pulse characterization is as important as the pulse compression. The more spectral bandwidth the pulse covers the more technically challenging is the measurement of the pulse’s electric field structure. In this work, new concepts of compression and characterization of pulses down to durations below 10 fs are demonstrated as well as further optimization of established techniques. Due to modern, chirped-mirror based dispersion compensation pulses as short as 3.8 fs were generated with a two-stage hollow fibre compressor. At present, these are the shortest pulses of the visible spectral region, compressed without adaptive means for dispersion compensation. For the first time the effect of self-compression of mJ-pulses to below 8 fs in a self-guiding noble gas filament is demonstrated experimentally and determined by numerical simulations. Advanced pulse characterization schemes were needed for a phase-sensitive investigation of dispersion compensation and pulse compression of white light pulses. An optimized design of the SPIDER (Spectral Phase Interferometry for Direct Electric-field Reconstruction) technique is demonstrated that facilitates the measurement of the pulse’s spectral phase in case of broadband structured spectra. With the implementation of an interferometric FROG (Frequency-Resolved Optical Gating) a new phase-sensitive pulse characterization method is introduced
    Dokumenten-Publikationsserver der Humboldt-UniversitÀt zu Berlin

    Time-domain Optical Response Function Reconstruction of an Individual Plasmonic Nanostructure

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    'The Optical Society'
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    Non-instantaneous polarization decay in dielectric media

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    'The Optical Society'
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    Non-instantaneity of χ(3) nonlinear optical effects

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    'The Optical Society'
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    Sub-10 fs pulse characterization using spatially encoded arrangement for spectral phase interferometry for direct electric field reconstruction.

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    We demonstrate an extremely accurate method for measuring ultrabroadband, sub-10 fs pulses even if they exhibit a highly modulated spectrum, space-time coupling, or both. The method uses a spatially encoded arrangement for spectral phase interferometry for direct electric field reconstruction, which allows a zero additional phase measurement to be performed with a relatively low signal-to-noise ratio in real time and single shot
    Oxford University Research Archive

    Characterization of sub-10-fs Pulses Using Spatially Encoded Arrangement for SPIDER

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    Optical Society of America
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    Using a spatially encoded arrangement for SPIDER, we accurately measure ultra-broadband sub-10-fs pulses that can exhibit a modulated spectrum and space-time coupling. The intuitive interferograms can be acquired single shot and real time. © 2005 Optical Society of America
    Oxford University Research Archive

    Sub-10 fs pulse characterization using spatially encoded arrangement for spectral phase interferometry for direct electric field reconstruction.

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    'The Optical Society'
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    We demonstrate an extremely accurate method for measuring ultrabroadband, sub-10 fs pulses even if they exhibit a highly modulated spectrum, space-time coupling, or both. The method uses a spatially encoded arrangement for spectral phase interferometry for direct electric field reconstruction, which allows a zero additional phase measurement to be performed with a relatively low signal-to-noise ratio in real time and single shot
    Oxford University Research Archive
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