Relevant bibliographies by topics / Ultra-fast lasers

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic 'Ultra-fast lasers'

Author: Grafiati
Published: 4 June 2021
Last updated: 18 February 2022

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Journal articles on the topic "Ultra-fast lasers"

1

Müller, Dirk, Andreas Blumenrath, Hatim Haloui, and Bernhard Klimt. "Ultra-fast Lasers Leave their Mark." Laser Technik Journal 9, no. 5 (October 25, 2012): 27–30. http://dx.doi.org/10.1002/latj.201290066.

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&NA;, &NA;. "ICALEO??98 Will Showcase Ultra- Fast Lasers." Optometry and Vision Science 75, no. 8 (August 1998): 551–52. http://dx.doi.org/10.1097/00006324-199808000-00011.

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Dua, Harleen Kaur, Niti Kant, and Vishal Thakur. "Second Harmonic Generation by ultra-fast Lasers in Plasma." Journal of Physics: Conference Series 1531 (May 2020): 012008. http://dx.doi.org/10.1088/1742-6596/1531/1/012008.

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Mao, Yu Dong, and Ming Tian Xu. "Using the Lattice Boltzmann Method to Simulate the Heat Conduction in a Thin Film Induced by Ultra-Fast Laser." Applied Mechanics and Materials 723 (January 2015): 896–900. http://dx.doi.org/10.4028/www.scientific.net/amm.723.896.

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Ultra-fast laser heating technology has been widely used in the micro-/nanodevices. The Lattice Boltzmann method (LBM) is employed to simulate the heat conductions of laser heating appeared in a thin film. The results obtained by the LBM show that a wavelike behavior is appeared, but it can not be found in Fourier prediction. Comparing the results obtained by the Fourier law and LBM, we find that the LBM solution shows higher temperature than the Fourier prediction. Moreover, simultaneously heating both surfaces of a thin silicon film by ultra-fast lasers can induce two thermal waves traveling in the opposite directions, and when they meet together, the energy will enhance significantly.
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Khalid, M., G. Y. Chen, J. Bei, H. Ebendorff-Heidepriem, and D. G. Lancaster. "Microchip and ultra-fast laser inscribed waveguide lasers in Yb3+germanate glass." Optical Materials Express 9, no. 8 (August 1, 2019): 3557. http://dx.doi.org/10.1364/ome.9.003557.

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Sun, Yuxin, and Masumi Saka. "Vibrations of microscale circular plates induced by ultra-fast lasers." International Journal of Mechanical Sciences 50, no. 9 (September 2008): 1365–71. http://dx.doi.org/10.1016/j.ijmecsci.2008.07.006.

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Wang, Zheng, Guo, Chen, Zhang, and Li. "Nonlinear Optical Properties of Zirconium Diselenide and Its Ultra-Fast Modulator Application." Nanomaterials 9, no. 10 (October 4, 2019): 1419. http://dx.doi.org/10.3390/nano9101419.

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Recently, two-dimensional (2D) materials have been widely studied by researchers due to their exceptional 2D structure and excellent optical characteristics. As one of the typically-layered 2D transition metal dichalcogenide (TMD) semiconductors from group IVB with a bandgap value of 0.9–1.2 eV (bulk to monolayer), the characteristics of zirconium diselenide (ZrSe2) have already been extensively investigated in many fields. However, the nonlinear absorption properties of ZrSe2 in ultra-fast lasers have not been previously demonstrated. In this work, we measured various parameters in order to investigate the characteristics of the nonlinear saturable absorption of ZrSe2. A ZrSe2–polyvinyl alcohol (PVA) film was successfully prepared, which was employed as a saturable absorber (SA) to demonstrate, for the first time, an erbium (Er)-doped passive mode-locking fiber laser with a ring cavity. The saturation intensity of the ZrSe2–PVA film-type SA is 12.72 MW/cm2, while its modulation depth is 2.3%. The stable soliton state with a maximum output power of 11.37 mW and a narrowest monopulse duration of 12.5 ps at a repetition frequency of 21.22 MHz was detected. The experimental results conclusively proved that ZrSe2, with its suitable bandgap value and excellent nonlinear absorption properties, as well as its high damage threshold, should have extensive potential applications within the field of ultra-fast pulse lasers.
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HOLMLID, LEIF. "TWO-COLLECTOR TIMING OF 3–14 MeV/u PARTICLES FROM LASER-INDUCED PROCESSES IN ULTRA-DENSE DEUTERIUM." International Journal of Modern Physics E 22, no. 12 (December 2013): 1350089. http://dx.doi.org/10.1142/s0218301313500894.

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D + D fusion may be initiated in ultra-dense deuterium D (-1) by nanosecond and picosecond pulsed lasers, as reported previously. Two in-line current collectors observe the MeV particles ejected from the laser target at up to a meter distance in a vacuum. The current signal is measured directly by using a fast oscilloscope with nanosecond resolution. Most of the signal observed is due to fast particles with energy of 3–14 MeV u -1. This confirms that the second stage of fusion reactions 3 He + D and T + D initiated in D + D fusion takes place, since otherwise such a large energy would not be available. The reaction rate for 3 He and T at MeV energies is high, which means reaction with D after moving a short distance of 150 nm in the ultra-dense material.
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KODAMA, Ryosuke. "Efficient Fast-Heating of Fusion Fuel with Ultra-Intense Short-Pulse Lasers." Review of Laser Engineering 32, no. 5 (2004): 313–18. http://dx.doi.org/10.2184/lsj.32.313.

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10

Jiang, Y., R. Pasternak, Z. Marka, Y. V. Shirokaya, J. K. Miller, S. N. Rashkeev, Yu D. Glinka, et al. "Spin/carrier dynamics at semiconductor interfaces using intense, tunable, ultra-fast lasers." physica status solidi (b) 240, no. 3 (December 2003): 490–99. http://dx.doi.org/10.1002/pssb.200303861.

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Dissertations / Theses on the topic "Ultra-fast lasers"

1

Yan, Xiaoling. "Ultra-fast photon and electron beam diagnostics for free electron lasers." Thesis, Abertay University, 2003. https://rke.abertay.ac.uk/en/studentTheses/4a05ee9c-2ddb-434f-b2a1-0ad483394db8.

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Characterisation of the ultra-short optical pulses produced by infrared ffee-electron lasers (FELs) is an important task, not only for the further development of free electron lasers and their theory, but also for their operation as a research tool. The setting up and optimisation of the FEL requires effective and reliable diagnostics tools. This thesis presents techniques for the measurement of sub-picosecond optical and electron pulses. A range of techniques is developed that allows measurements of the electric field of both optical pulses and electron bunches to be made with an accuracy of better than 100 fs. These techniques have been used to obtain the first complete electricfield characterisation of ultra-short pulses from a far-infrared FEL; to study the formation of singlesided exponential optical pulses in two FELs; and to obtain the longitudinal profile of electron bunches, both by probing the near-field transition radiation and by directly sensing the Coulomb field of the electron bunches. Although the techniques described are not truly single-shot - requiring measurements averaged over a period of a few microseconds - ways in which they could be extended to provide single-shot capability are discussed.
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2

Gordon, R. "Investigating the ultra-fast dynamics of semiconductor lasers by optical pulse injection techniques." Thesis, University of Cambridge, 2002. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.599528.

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Resonant injection of sub-picosecond optical pulses were explored as an ultra-fast analogue to injection locking, to influence the phase of the semiconductor laser on short time-scales. This allowed for efficiently altering the absolute phase of the lasing modes (without exciting new modes to lase) and produced mode interference beating; both demonstrated in vertical cavity surface emitting lasers (VCSELs). The ultra-fast optical sampling was extended to resolve polarization degrees of freedom, showing the nonlinear coupling between transverse modes through the charge carriers. Phase-sensitive double-pulse injection, commonly used for coherent control, was applied to VCSELs to introduce a field component into a specifically selected subset of the transverse lasing modes. The self-organization between transverse modes in VCSELs was investigated with resonant pulse injection and optical sampling. At different bias currents, mode-locking was observed to produce both a train of 2 ps pulses with an 11 ps repetition period, and self-organization of the laser mode resonances to tones within the Fibonacci sequence (with a 19 GHz fundamental tone). It was demonstrated that the nonlinear optical sampling technique could be used to measure the coherence length and type of fluctuations within the VCSEL. While the pulsed mode-locking showed the expected shot-noise fluctuations from spontaneous emission, the Fibonacci-type mode-locking was more stable and showed popcorn noise. The emergence of the Fibonacci-type mode-locking was explained by a spatio-temporal theory of the symmetry-breaking interaction between nearly degenerate modes and the carrier density. Edge-emitting semiconductor laser structures, with and without an optical grating, were also investigated. Resonant and non-resonant optical pulses were used to free laser light from a trapped defect state within an optical grating, and create carrier-heating relaxation oscillations. These effects were reproduced with a spatio-temporal model. Double pulse injection was used to measure the separate effects of group-velocity dispersion and gain curvature on pulse propagation within a Fabry-Pérot laser.
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Markmann, Sergej [Verfasser], Nathan [Gutachter] Jukam, and Andreas D. [Gutachter] Wieck. "Ultra-fast spectroscopy of terahertz quantum cascade lasers / Sergej Markmann ; Gutachter: Nathan Jukam, Andreas D. Wieck." Bochum : Ruhr-Universität Bochum, 2016. http://d-nb.info/1121909620/34.

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4

Haessler, Stefan. "Génération d'Impulsions Attosecondes dans les Atomes et les Molécules." Phd thesis, Université Paris Sud - Paris XI, 2009. http://tel.archives-ouvertes.fr/tel-00440190.

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Dans plusieurs expériences, nous démontrons le potentiel du processus de génération d'harmoniques d'ordre élevé pour observer des dynamiques électroniques et nucléaires intra-moléculaires ultrarapides. La plus grande partie de cette thèse traite d'expériences où les molécules constituent le milieu de génération et le paquet d'ondes électronique recollisionnant joue le rôle d'une 'auto-sonde'. Les mesures de phase et amplitude de l'émission harmonique des molécules de CO2 et N2 alignées dans le référentiel du laboratoire nous permettent d'extraire l'élément de matrice du dipole de recombinaison. Ce dernier contient la signature d'une interférence quantique entre les parties libre et liée de la fonction d'onde électronique totale. L'utilisation de cette interférence quantique pour la mise-en-forme de l'émission XUV attoseconde (1as=10−18s) sera démontrée. De plus, nous étudions théoriquement la tomographie d'orbitales moléculaires à partir des éléments de matrice du dipole de recombinaison et nous démontrons sa faisabilité expérimentale. Ceci ouvre la perspective d'imager les distorsions ultra-rapides d'une orbitale frontière lors d'une réaction chimique. Dans une deuxième partie de cette thèse, nous utilisons la lumière XUV cohérente émise par des atomes d'argon pour photoioniser des molécules de N2 et mesurons comment une résonance auto-ionisante modifie la phase spectrale du paquet d'ondes de photoélectrons émis. Le dernier chapitre de ce manuscrit décrit des études de génération d'impulsions XUV attosecondes dans un milieu différent: des plasmas d'ablation. La première caractérisation temporelle d'une telle source démontre sa structure femtoseconde et attoseconde.
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Pariente, Gustave. "Caractérisation spatio-temporelle d’impulsions laser de haute puissance." Thesis, Université Paris-Saclay (ComUE), 2017. http://www.theses.fr/2017SACLS003/document.

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Les lasers de haute puissance permettent d'atteindre des intensités très importantes (jusqu'à 10²²W.cm⁻²). Parvenir à ce niveau d'intensité nécessite de concentrer une quantité modérée d'énergie (de l'ordre du joule) dans un temps très court (de l'ordre de la dizaine de femtosecondes) sur une surface réduite (de l'ordre du μm²). Ces faisceaux sont donc ultra-courts et focalisés à l'aide d'une optique à grande ouverture. Ces caractéristiques signifient que leur diamètre avant focalisation est grand et leur largeur spectrale est importante. Pour cette raison, ces faisceaux sont à même de présenter des distorsions spatio-spectrales (ou couplages spatio-temporels). Après focalisation, ces distorsions ont pour effet une diminution drastique de l'intensité pic. Ceci est d'autant plus vrai que le système laser est puissant et donc que son diamètre et sa largeur spectrale sont grands. En dépit de cet effet néfaste, les couplages spatio-temporels présentent aussi un intérêt lorsqu'ils sont maitrisés. On peut en effet introduire des couplages spatio-temporels de faible amplitude à des fins expérimentales. Dans les années 1990 et 2000, un effort important a été fourni pour permettre la caractérisation et l'optimisation du profil temporel des lasers femtoseconde. Dans le même temps, des solutions d'optique adaptative ont été développées pour contrôler le profil spatial des faisceaux ultra-intenses et obtenir la meilleure tache focale possible. Les systèmes laser de haute-puissance actuels sont maintenant caractérisés et optimisés indépendamment par ces deux types de diagnostics. Par essence, cette approche est aveugle aux couplages spatio-temporels. Seule une caractérisation spatio-temporelle permettrait de mesurer ces distorsions. Il existait déjà des méthodes de caractérisation spatio-temporelle avant le début de cette thèse. Aucun de ces dispositifs n'avait cependant été adapté à la mesure de faisceaux ultra-intenses. Lors de cette thèse, nous avons développé une nouvelle technique de caractérisation spatio-temporelle appelée TERMITES. Cette technique est basée sur un schéma de spectroscopie par transformée de Fourier auto-référencée. TERMITES nous a permis d'effectuer la première caractérisation spatio-temporelle totale d'un laser 100 TW (le laser UHI-100 du CEA Saclay). Les distorsions spatio-temporelles détectées à l'aide de ces mesures ont confirmé la nécessité d'une généralisation de la métrologie spatio-temporelle des lasers de haute puissance
High power laser make it possible to reach very high intensities (up to 10²²W.cm⁻²). In order to get to this level of intensity, a moderate quantity of energy (on the order of the Joule) is concentrated in a very short time (on the order of tens of femtoseconds) onto a small surface (on the order of 1 μm²). These beams are therefore ultra-short and focused with a high aperture optic. These features mean that their diameter prior to focus is large and their spectral width is big. As a result, these beams are subject to spatio-spectral distorsions (of spatio-temporal couplings). After focus, these distorsions induce a dramatic reduction of the peak intensity. This situation is all the more true when the laser is more intense and its diameter and spectral width are therefore bigger. Despite their detrimental effects, spatio-temporal couplings can be of great interest when controlled. One can indeed introduce weak spatio-temporal couplings for experimental purposes. In the 1990s and 2000s, a big effort was put in order to characterize dans optimize the temporal profile of femtosecond lasers. Meanwhile, adaptative optics solutions were developed to control the spatial profil of ultra intense laser beams and provide the best focal spot achievable. By nature, this approach is blind to spatio-temporal couplings. Measuring these distorsions requires a spatio-temporal characterization. Before the start of this Phd thesis, spatio-temporal characterization methods already existed. Although none of these devices were ever adapted to the measurement of ultra-intense laser beams. During this Phd Thesis, we developped a new spatio-temporal characterization technique which we called TERMITES. This technique is based on a self-referenced Fourier transform spectroscopy scheme. TERMITES made it possible for us to perform the first total spatio-temporal characterization of a 100 TW laser (UHI-100 at CEA Saclay, France). The detection of spatio-temporal distorsions with the help of these measurements confirmed the need for a generalization of spatio-temporal characterization of ultra-high power lasers
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Holmgren, Stefan. "Short Pulses in Engineered Nonlinear Media." Doctoral thesis, KTH, Fysik, 2006. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-4234.

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Short optical pulses and engineered nonlinear media is a powerful combination. Mode locked pulses exhibit high peak powers and short pulse duration and the engineered ferro-electric KTiOPO4 facilitates several different nonlinear processes. In this work we investigate the use of structured, second-order materials for generation, characterization and frequency conversion of short optical pulses. By cascading second harmonic generation and difference frequency generation the optical Kerr effect was emulated and two different Nd-based laser cavities were mode locked by the cascaded Kerr lensing effect. In one of the cavities 2.8 ps short pulses were generated and a strong pulse shortening took place through the interplay of the cavity design and the group velocity mismatch in the nonlinear crystal. The other laser had a hybrid mode locking scheme with active electro-optic modulation and passive cascaded Kerr lensing incorporated in a single partially poled KTP crystal. The long pulses from the active modulation were shortened when the passive mode locking started and 6.9 ps short pulses were generated. High-efficiency frequency conversion is not a trivial task in periodically poled materials for short pulses due to the large group velocity mismatch. Optimization of parameters such as the focussing condition and the crystal temperature allowed us to demonstrate 64% conversion efficiency by frequency doubling the fs pulses from a Yb:KYW laser in a single pass configuration. Quasi phase matching also offers new possibilities for nonlinear interactions. We demonstrated that it is possible to simultaneously utilize several phase matched second harmonic interactions, resulting in a dual-polarization second harmonic beam. Short pulse duration of the fundamental wave is a key parameter in the novel method that we demonstrated for characterization of the nonlinearity of periodically poled crystals. The method utilizes the group velocity mismatch between the two polarizations in a type II second harmonic generation configuration. The domain walls of PPKTP exhibit second order nonlinearities that are forbidden in the bulk material. This we used in a single shot frequency resolved optical gating arrangement. The spectral resolution came from Čerenkov phase matching, a non-collinear phase matching scheme that exhibits a substantial angular dispersion. The second harmonic light was imaged upon a CCD camera and with the spectral distribution on one axis and the temporal autocorrelation on the other. From this image we retrieved the full temporal profile of the fundamental pulse, as well as the phase. The spectral dispersion provided by the Čerenkov phase matching was large enough to characterize optical pulses as long as ~200 fs in a compact setup. The Čerenkov frequency resolved optical gating method samples a thin stripe of the beam, i.e. the area close to the domain wall. This provides the means for high spatial resolution measurements of the spectral-temporal characteristics of ultrafast optical fields.
QC 20100831
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7

Bernath, Robert Thomas. "High-Intensity Ultra-Fast Laser Interaction Technologies." Doctoral diss., University of Central Florida, 2007. http://digital.library.ucf.edu/cdm/ref/collection/ETD/id/2173.

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To our knowledge this is the first comprehensive study of laser-induced effects generated at intermediate distances using self-channeled femtosecond laser pulses. Studies performed were made both experimentally and theoretically with the use of novel modeling techniques. Peak laser pulse powers above 3 GW allow beam propagation without divergence for up to several kilometers. In this regime, experiments were performed at 30 meters from the laser system in a custom propagation and target range, utilizing the Laser Plasma Laboratory's Terawatt laser system. Experiments included investigations of laser ablation; electromagnetic pulsed (EMP) radiation generation over the 1-18 GHz region; shockwave formation in air and solid media; optical coupling of channeled pulses into transparent media; and, conservation of energy in these interactions. The use of bursts of femtosecond pulses was found to increase the ablation rate significantly over single-pulse ablation in both air and vacuum. EMP generation from near-field focused and distance-propagated pulses was investigated. Field strengths upwards of 400 V/m/[Lambda] for vacuum focusing and 25 V/m/[Lambda] for self-channeled pulses were observed. The total field strengths over 1-18 GHz measured at distance surpassed 12 kV/m. Shockwaves generated in transparent media at 30 meters were observed as a function of time. It was found that the interaction conditions control the formation and propagation of the shock fronts into the medium. Due to the processes involved in self-channeling, significant fractions of the laser pulse were coupled into the target materials, resulting in internal optical and exit-surface damage. Basic estimations on the conservation of energy in the interaction are presented. The results of the experiments are supported by hydrodynamic plasma physics code and acoustic modeling.
Ph.D.
School of Electrical Engineering and Computer Science
Engineering and Computer Science
Electrical Engineering PhD
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Finn, N. "Ultra-fast framing cameras for laser-plasma studies." Thesis, University of Essex, 1987. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.376739.

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Koseoglu, Devrim. "Material Characterization With Terahertz Time-domain Spectroscopy." Phd thesis, METU, 2010. http://etd.lib.metu.edu.tr/upload/2/12611648/index.pdf.

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Terahertz time-domain spectroscopy systems were developed and used for the anaylsis and characterization of various materials. By using ultra-fast Ti:Sapphire and Er-doped fiber lasers, terahertz time-domain spectrometers of different configurations were constructed and tested. To increase the accuracy and sensitivity of the measurements, the systems were optimized for spectroscopic analysis. MBE grown nominally undoped epitaxial GaAs samples were used for the spectroscopic measurements. These samples were first charactrized by electrical measurements in order to check the accuracy of the terahertz time-domain experiments. We have shown that the terahertz time-domin spectroscopic techniques provides a quick way of the determining the real ( ) and complex () components of the refractive index of material. In addition, we have investigated the photoexcitation dynamics of these GaAs samples. We have demonstrated that direct and photoexcited terahertz time-domain measurements give an estimate of the carrier densities and both the hole and electron mobility values with good precision. rnin An algorithm is developed to prevent the unwanted Fabry-Perot reflections which is commonly encountered in Terahertz Spectroscopy systems. We have performed terahertz time-domain transmission measurements on ZnTe <
110>
crystals of various thicknesses to test the applicability of this algorithm. We have shown that the algorithm developed provides a quick way of eliminating the &ldquo
etalon&rdquo
reflections from the data. In addition, it is also shown that these &ldquo
etalon&rdquo
effects can be used for the frequency calibration of terahertz time-domain spectrometers.
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Rander, Torbjörn. "Photoelectron Spectroscopy on Atoms, Molecules and Clusters : The Geometric and Electronic Structure Studied by Synchrotron Radiation and Lasers." Doctoral thesis, Uppsala University, Department of Physics, 2007. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-8343.

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Atoms, molecules and clusters all constitute building blocks of macroscopic matter. Therefore, understanding the electronic and geometrical properties of such systems is the key to understanding the properties of solid state objects.

In this thesis, some atomic, molecular and cluster systems (clusters of O2, CH3Br, Ar/O2, Ar/Xe and Ar/Kr; dimers of Na; Na and K atoms) have been investigated using synchrotron radiation, and in the two last instances, laser light. We have performed x-ray photoelectron spectroscopy (XPS) on all of these systems. We have also applied ultraviolet photoelectron spectroscopy (UPS), resonant Auger spectroscopy (RAS) and near-edge x-ray absorption spectroscopy (NEXAFS) to study many of the systems. Calculations using ab initio methods, namely density functional theory (DFT) and Møller-Plesset perturbation theory (MP), were employed for electronic structure calculations. The geometrical structure was studied using a combination of ab initio and molecular dynamics (MD) methods.

Results on the dissociation behavior of CH3Br and O2 molecules in clusters are presented. The dissociation of the Na2 molecule has been characterized and the molecular field splitting of the Na 2p level in the dimer has been measured. The molecular field splitting of the CH3Br 3d level has been measured and the structure of CH3Br clusters has been determined to be similar to the structure of the bulk solid. The diffusion behavior of O2, Kr and Xe on large Ar clusters, as a function of doping rate, has been investigated. The shake-down process has been observed from excited states of Na and K. Laser excited Na atoms have been shown to be magnetically aligned. The shake-down process was used to characterize the origin of various final states that can be observed in the spectrum of ground-state K.

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Books on the topic "Ultra-fast lasers"

1

Ultra-fast material metrology. Weinheim: Wiley-VCH, 2009.

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Quoc, Ngo Nam, ed. Ultra-fast fiber lasers: Principles and applications with MATLAB models. Boca Raton: CRC Press, 2010.

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Book chapters on the topic "Ultra-fast lasers"

1

Aoki, Masahiro, and Ute Troppenz. "Ultra-Fast Semiconductor Laser Sources." In Springer Series in Optical Sciences, 151–208. Cham: Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-42367-8_4.

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Schöffler, M. S., L. Ph H. Schmidt, S. Eckart, R. Dörner, A. Czasch, O. Jagutzki, T. Jahnke, et al. "Ultra-fast Dynamics in Quantum Systems Revealed by Particle Motion as Clock." In Molecular Beams in Physics and Chemistry, 353–73. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-63963-1_17.

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AbstractTo explore ultra-fast dynamics in quantum systems one needs detection schemes which allow time measurements in the attosecond regime. During the recent decades, the pump & probe two-pulse laser technique has provided milestone results on ultra-fast dynamics with femto- and attosecond time resolution. Today this technique is applied in many laboratories around the globe, since complete pump & probe systems are commercially available. It is, however, less known or even forgotten that ultra-fast dynamics has been investigated several decades earlier even with zeptosecond resolution in ion-atom collision processes. A few of such historic experiments, are presented here, where the particle motion (due to its very fast velocity) was used as chronometer to determine ultra-short time delays in quantum reaction processes. Finally, an outlook is given when in near future relativistic heavy ion beams are available which allow a novel kind of “pump & probe” experiments on molecular systems with a few zeptosecond resolution. However, such experiments are only feasible if the complete many-particle fragmentation process can be imaged with high momentum resolution by state-of-the-art multi-particle coincidence technique.
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Dromey, Brendan. "Ultra-Fast Opacity in Transparent Dielectrics Induced by Picosecond Bursts of Laser-Driven Ions." In Applications of Laser-Driven Particle Acceleration, 139–50. Boca Raton, FL : CRC Press, Taylor & Francis Group, [2018]: CRC Press, 2018. http://dx.doi.org/10.1201/9780429445101-11.

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Santos, J. J., E. Martinolli, F. Amiranoff, D. Batani, S. D. Baton, A. Bernardinello, G. Greison, et al. "Study of Fast Electron Propagation in Ultra-Intense Laser Pulse Interaction with Solid Targets Using Rear Side Optical Self-Radiation and Reflectivity-Based Diagnostics." In Atoms, Solids, and Plasmas in Super-Intense Laser Fields, 363–73. Boston, MA: Springer US, 2001. http://dx.doi.org/10.1007/978-1-4615-1351-3_22.

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"- Nonlinear Fiber Ring Lasers." In Ultra-Fast Fiber Lasers, 286–311. CRC Press, 2018. http://dx.doi.org/10.1201/9781439811306-13.

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"- Dispersion and Nonlinearity Effects in Active Mode-Locked Fiber Lasers." In Ultra-Fast Fiber Lasers, 158–95. CRC Press, 2018. http://dx.doi.org/10.1201/9781439811306-9.

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"- Actively Mode-Locked Fiber Lasers with Birefringent Cavity." In Ultra-Fast Fiber Lasers, 196–233. CRC Press, 2018. http://dx.doi.org/10.1201/9781439811306-10.

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"- Ultrafast Fiber Ring Lasers by Temporal Imaging." In Ultra-Fast Fiber Lasers, 234–51. CRC Press, 2018. http://dx.doi.org/10.1201/9781439811306-11.

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"- Terahertz Repetition Rate Fiber Ring Laser." In Ultra-Fast Fiber Lasers, 252–85. CRC Press, 2018. http://dx.doi.org/10.1201/9781439811306-12.

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"- Bound Solitons by Active Phase Modulation Mode-Locked Fiber Ring Lasers." In Ultra-Fast Fiber Lasers, 312–45. CRC Press, 2018. http://dx.doi.org/10.1201/9781439811306-14.

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Conference papers on the topic "Ultra-fast lasers"

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Ferrera, M., Y. Park, L. Razzari, B. E. Little, S. T. Chu, R. Morandotti, D. J. Moss, and J. Azaña. "Ultra-Fast Integrated All-Optical Integrator." In Conference on Lasers and Electro-Optics. Washington, D.C.: OSA, 2010. http://dx.doi.org/10.1364/cleo.2010.cfl2.

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Kammash, Terry. "Advanced Space Propulsion with Ultra-Fast Lasers." In BEAMED ENERGY PROPULSION: First International Symposium on Beamed Energy Propulsion. AIP, 2003. http://dx.doi.org/10.1063/1.1582131.

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Limpert, J., D. Schimpf, J. Rothhardt, S. Hädrich, O. Schmidt, F. Röser, T. Schreiber, et al. "Fiber laser pumped ultra-fast parametric amplifiers." In Lasers and Applications in Science and Engineering, edited by Donald J. Harter, Andreas Tünnermann, Jes Broeng, and Clifford Headley III. SPIE, 2007. http://dx.doi.org/10.1117/12.717535.

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Wang, Cheng. "Lithium Niobate Nanophotonics for Ultra-fast Optoelectronics." In Conference on Lasers and Electro-Optics/Pacific Rim. Washington, D.C.: OSA, 2018. http://dx.doi.org/10.1364/cleopr.2018.w4c.2.

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Xu, Jun, Liangbi Su, and Hongjun Li. "Progress on ultra-fast laser crystals." In The Pacific Rim Conference on Lasers and Electro-Optics (CLEO/PACIFIC RIM). IEEE, 2009. http://dx.doi.org/10.1109/cleopr.2009.5292223.

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Nawata, Kouji, Jun Hagiwara, and Takashige Omatsu. "Ultra-fast phase conjugate laser system." In 2007 European Conference on Lasers and Electro-Optics and the International Quantum Electronics Conference. IEEE, 2007. http://dx.doi.org/10.1109/cleoe-iqec.2007.4386037.

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EL-NADI, LOTFIA, LATIFA EL-HOUTY, and YOSR E. GAMAL. "ULTRA FAST LASERS TO IDENTIFY MOLECULAR BIOLOGICAL STRUCTURES." In With Foreword by Prof A H Zewail, Nobel Laureate in Chemistry, 1999. WORLD SCIENTIFIC, 2002. http://dx.doi.org/10.1142/9789812777980_0074.

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Hartl, I., L. Shah, Z. Liu, G. Imeshev, G. Cho, and M. E. Fermann. "High power frequency upconversion of ultra-fast fiber amplifiers." In 2006 Conference on Lasers and Electro-Optics and 2006 Quantum Electronics and Laser Science Conference. IEEE, 2006. http://dx.doi.org/10.1109/cleo.2006.4628179.

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Habara, Hideaki, Ryosuke Kodama, Yasuhiko Sentoku, Yoneyoshi Kitagawa, Kazuo A. Tanaka, Kunioki Mima, and Tatsuhiko Yamanaka. "Fast ion generation in ultra-intense laser interactions with plasmas." In Advanced High-Power Lasers and Applications, edited by Kunioki Mima, Gerald L. Kulcinski, and William J. Hogan. SPIE, 2000. http://dx.doi.org/10.1117/12.375147.

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Manipatruni, Sasikanth, Carl Poitras, Qianfan Xu, and Michal Lipson. "Ultra fast electro-optic tuning of optical quality factor." In 2008 Conference on Lasers and Electro-Optics (CLEO). IEEE, 2008. http://dx.doi.org/10.1109/cleo.2008.4551683.

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Reports on the topic "Ultra-fast lasers"

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AUGUSTONI, ARNOLD L. Laser Hazard Analysis for Ultra-Fast Sub-Nanosecond, Mode-Locked Near Infrared Lasers Operated with Pulse Repetition Frequencies Above the Critical Frequency. Office of Scientific and Technical Information (OSTI), April 2003. http://dx.doi.org/10.2172/809628.

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Tringe, J., N. Ileri, S. Letant, P. Stroeve, M. Shirk, S. Zaidi, R. Balhorn, and C. Siders. Ultra-fast Laser Synthesis of Nanopore Arrays in Silicon for Bio-molecule Separation and Detection. Office of Scientific and Technical Information (OSTI), February 2008. http://dx.doi.org/10.2172/926003.

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Schenck, Craig C. Final Report: Ultra Fast Regeneratively Amplified Titanium Sapphire Laser System, April 1, 1995 - March 31, 1997. Office of Scientific and Technical Information (OSTI), March 1997. http://dx.doi.org/10.2172/765652.

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