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41	Physics of laser heated ferromagnets: Ultrafast demagnetization and magneto-Seebeck effect / Physik lasergeheizter Ferromagnete: Ultraschnelle Entmagnetisierung und magneto-Seebeck Effekt Walowski, Jakob 05 March 2000 (has links) No description available. 530 Physik RDE 000 RVC 860 RNL 500 Physics Femtosekundenspektroskopie Nickel TRMOKE Zeitaufgelöste Reflektivität ultraschnelle Entmagnetisierung Spin Kaloritronik magneto-Seebeck Effekt Tunnelelement CoFeB MgO femtosecond spectroscopy nickel TRMOKE time-resolved reflectivity ultrafast demagnetization spin caloritronics magneto-Seebeck effect tunneljunction CoFeB MgO 33.75 33.79 33.05 33.07
42	Untersuchung der elektrischen Phasenseparation in dünnen Manganatschichten mit Rastersondenspektroskopie / Intrinsic phase separation in manganite thin films investigated with scanning tunneling spectroscopy Becker, Thomas 08 June 2004 (has links) No description available. RRW 000 RVC 860 Mathematics and Natural Science Dünne Schichten Einkristall UHV Manganate LCMO LSMO Netzwerkanalyse Rastertunnelmikroskopie Spektroskopie Oberflächenmorphologie Squid Magnetismus Übergang Röntgenreflektivität Thin films single crystalls UHV manganate LCMO LSMO networkanalysis scanning tunneling microscopy spectroscopy surface morphology sqid magnetism transition X-ray reflection 33.05 33.07 33.61 33.64 33.68 33.75 33.79
43	Recombination dynamics of optically generated small polarons and self-trapped excitons in lithium niobate Messerschmidt, Simon 02 July 2019 (has links) Quasi-particles formed in lithium niobate after pulse exposure were investigated by transient absorption and photoluminescence spectroscopy as well as numerical simulations. This includes the formation process, the transport through the crystal, interim pinning on defects during the relaxation process, and the final recombination with deep centers. It was shown that the charge-transport through the crystal can be described by a hopping transport including different types of hops between regular or defective lattice sites, i.e., the transport includes a mixture of free and bound small polarons. Furthermore, the different types of hops connected with varying activation energies and their distribution are responsible for an altered temporal decay curve when changing the crystal composition or temperature. Additionally, it was shown that the hitherto accepted recombination model is insufficient to describe all transient absorption and luminescence effects in lithium niobate under certain experimental conditions, i.e., long-living absorption dynamics in the blue/UV spectral range do not follow the typical polaron dynamics and cannot be described under the assumption of charge compensation. However, similar decay characteristics between self-trapped excitons known from photoluminescence spectroscopy and the unexpected behavior of the transient absorption were found leading to a revised model. This includes, besides the known polaron relaxation and recombination branch, a significant role of self-trapped excitons and their pinning on defects (pinned STEs). Since the consideration of further absorption centers in the relaxation path after pulse exposure might result in misinterpretations of previously determined polaron absorption cross-sections and shapes, the necessity to perform a review became apparent. Therefore, a supercontinuum pump-probe experiment was designed and all measurements applied under the same experimental conditions (temperature, polarization) so that one can extract the absorption amplitudes of the single quasi-particles in a spectral range of 0.7-3.0eV. The detailed knowledge might be used to deconvolve the absorption spectra and transform them to number densities of the involved centers which enables one to obtain an easier insight into recombination and decay dynamics of small polarons and self-trapped excitons. As the hopping transport of quasi-particles and the concept of pinned STEs might be fundamental processes, a thorough understanding opens up the possibility of their exploitation in various materials. In particular, results presented herein are not only limited to lithium niobate and its applications; an extension to a wide range of further strongly polar crystals in both their microscopic processes and their use in industry can be considered. lithium niobate small polaron self-trapped exciton 33.07 - Spektroskopie 33.38 - Quantenoptik, nichtlineare Optik 33.79 - Kondensierte Materie: Sonstiges 42.65.-k - Nonlinear optics ddc:530
44	Mutual interactions of femtosecond pulses and transient gratings in nonlinear optical spectroscopy Nolte, Stefan 16 November 2018 (has links) This work is dedicated to a comprehensive experimental study on the interaction of femtosecond laser pulses with the nonlinear optical medium lithium niobate. The nonlinear optical response in the nanosecond regime was already studied extensively with a variety of techniques, whereas femtosecond pulses were mainly used in transient absorption or transient grating experiments. Naturally, the temporal resolution of these measurements depends on the pulse duration, however, dynamics during the pulse excitation were barely investigated. The motivation of this work is to widen the limits of femtosecond spectroscopy, not only to temporally resolve faster nonlinear optical processes, but further to show a sensitivity to other coupling mechanisms between the pulses and the material. Especially, the role of transient, dynamic holographic gratings is investigated with a careful determination of the pulse duration, bandwidth and frequency chirp. A basis of this work is established in the first part by studying the material response via light-induced absorption before focusing on the main topic, the pulse interaction with elementary (holographic) gratings, both self-induced and static, in the second part. By this detailed study, several features of femtosecond laser pulses, holographic gratings and the ultrafast material response can be revealed: (i) grating recording is feasible even with pulses of different frequencies, provided that their pulse duration is sufficiently short, (ii) grating based pulse coupling causes a pronounced energy transfer even in a common pump-probe setup for transient absorption measurements with (non-)degenerated frequencies, (iii) beyond expectation, oscillations in the phonon frequency range become apparent in different measurements. The presented results point towards appropriate future experiments to obtain a more consistent, microscopic model for the ultrafast response of the crystal, involving the interplay between photo-generated polarons, self-induced gratings, and phonons. Nonlinear Optics Ultrafast Physics Holographic Gratings Lithium Niobate Spectroscopy Two-Beam Coupling 33.38 - Quantenoptik, nichtlineare Optik 33.18 - Optik 33.07 - Spektroskopie ddc:530
45	Epitaktisches Wachstum und Charakterisierung ultradünner Eisenoxidschichten auf Magnesiumoxid(001) Zimmermann, Bernd Josef 17 September 2010 (has links) Since many years, the importance of thin layers increases for lots of technical uses. Beginning in the field of microelectronics, the use of thin layers spread increasingly to other areas. Coatings for surface refining and optimisation of the mechanical properties for material engineering, customisation of the surface chemistry in catalysts, as well influencing of the transmission and reflection characteristics of surfaces in optics are only some examples of the high scientific and economic weight of the thin layer technology. Thin magnetic layers are the basis of many known storage media ranging from the tape recorder to the hard disk up to the credit card. Nowadays, these thin layers again gain interest in the research field of nanoelectronics as ultrathin layers. So-called spinvalve-read/write heads being already installed in actual hard disks use the Tunnel Magneto Resistance effect for a significant rise in memory density synonymous capacity. Such read/writeheads consist of a magnetic layersystem. This use of the magnetic as well as the electric characteristics of the electrons is called spintronics. The iron oxide magnetite exhibits a high iron portion, is strong antiferrimagnetic and has a high Curie-temperature. Since many years, it is used as a magnetic pigment on already mentioned magnetic tapes. Literature [1, 2, 3, 4] considers ultrathin epitaxial layers of magnetite on magnesium oxide for uses in the spintronics as a most promising candidate, because it inheres a complete spin polarisation at Fermi-level. Moreover, thin magnetite layers serve in the chemical industry as a catalyst in the Haber- Bosch-procedure and to the dehydration of ethylbenzene to styrene. Being already used and considered to be of ongoing interest, ultrathin magnetite layers offer a wide range of technological applications in many modern industrial and scientific fields. Because there is, nevertheless, a variety of other iron oxide (cf. chapter 4), it is a matter to determine the special growth conditions of magnetite. These ultrathin iron oxide layers were grown reactively on the (001)-surfaces of the magnesium oxide substrate by molecular beam epitaxy. Besides, the surface is examined by the diffraction of low-energy electrons concerning its crystalline structure. X-ray photo electron spectroscopy approaching the stochiometry completes these first characterisations. Other investigations are carried out at HASYLAB / DESY in Hamburg by X-ray reflectivity and X-ray diffraction. The exact thickness of the layers, its crystal properties in bulk, as well as the thickness of the crystalline portion of the layers can be determined among other features of the system. The evaluation of XRR-and XRD-investigations is done via simulations with in chapter 5 introduced software packages. The reader finds the theoretical backgrounds to the used techniques in chapter 3. The experimental setups in Osnabr¨uck and Hamburg as well as the backgrounds to the preparation are presented in chapter 5. Because the formation of the different iron oxides is described in literature [5, 6, 7, 8] as mostly depending on annealing temperatures, the experimental results in chapter 6 are graded accordingly. The dependence on temperature, layer thickness and annealing time should be examined for the iron oxides possible on this substrate. The aim of this work is the preparation of ultrathin epitaxial iron oxide layers with thicknesses up to few nanometers. The main goal is to find the growth parameters for ultrathin crystalline magnetite layers. 33.07 - Spektroskopie 33.61 - Festkörperphysik 33.75 - Magnetische Materialien ddc:530
46	Quantitive Photoemission Spectroscopy of Hydrogen Bonded Systems / Quantitative Photoemissionsspektroskopie von Wasserstoff-verbrückten Systemen Liu, Yaxing 21 July 2010 (has links) No description available. 530 Physik Chemistry Wasser Methanol Flüssigkeit Cluster Wasserstoffbrückenbindung EUV PES MO Photoemissionsanisotropie HHG Mikrojet Ti:Sa Flüssigkeitsstrahl Nanostrukture Valenzorbitale Koordinationszahl β-Paramter water methanol liquid cluster H-bond H-bonding EUV PES MO angular distribution of photoemission anisotropy parameter HHG microjet Ti:Sa nano-structure valence orbital β-parameter 33.07 33.69 35.22 SD 000: Physikalische Chemie
47	Zeitaufgelöste Fluoreszenzspektroskopie unimolekularer Reaktionen im Überschalldüsenstrahl: <i>trans-cis</i>-Photoisomerisierung, Phenylringtorsion, intramolekularer Wasserstoffatomtransfer / Time-resolved fluorescence spectroscopy of unimolecular reactions in a supersonic jet expansion: <i>trans-cis</i>-photoisomerization, phenylring torsion, intramolecular proton transfer Müller, Christian 28 June 2005 (has links) No description available. 540 Chemie Mathematics and Computer Science unimolekulare Reaktionen Photoisomerisierung intramolekularer Wasserstoffatomtransfer Protontransfer Fluoreszenzspektroskopie Überschalldüsenstrahl Molekularstrahl Rotationskohärenzspektroskopie RRKM-Theorie Torsionspotential Doppelminimumspotential Tunnelaufspaltung unimolecular reactions photoisomerization intramolecular proton transfer fluorescence spectroscopy supersonic jet expansion molecular beam rotational coherence spectroscopy RRKM theory torsional potential double-minimum potential tunneling splittings 35.16 35.25 33.07 SI 000: Photochemie Strahlungschemie SIL 000: Laser-Chemie {Strahlungschemie} RRQ 000: Laser-Spektroskopie {Physik} RRG 000: Molekülspektroskopie {Physik}
48	Dimensionseffekte in Halbleiternanodrähten / Dimensional Effects in Semiconductor Nanowires Stichtenoth, Daniel 23 June 2008 (has links) No description available. 530 Physik Mathematics and Computer Science Nanodraht Zinkoxid Photolumineszenz Ionenimplantation Leuchtzentren Dotierung nanowire zinc oxide photoluminescence ion implantation color center doping 33.61 33.07 33.72 RVQ 000: Halbleiter {Physik}
49	Critical Behavior and Crossover Effects in the Properties of Binary and Ternary Mixtures and Verification of the Dynamic Scaling Conception / Kritisches Verhalten und Crossover Effekte in den Eigenschaften Binärer und Ternärer Gemische sowie Verifizierung des Konzeptes der Dynamischen Skalierung Iwanowski, Ireneusz 07 November 2007 (has links) No description available. 530 Physik RR 000 RRJ 000 RRQ 000 RHH 150 RJT 340 RJT 500 RJT 420 RJT 000 Mathematics and Natural Science kritische Gemische binäre Flüssigkeiten ternäre Flüssigkeiten dynamische Skalierungsfunktion Ultraschallabsorptionsverfahren Spektroskopie dynamische Lichtstreuung Relaxationsrate charakteristische Relaxationsrate kritische Verlangsamung chemische Relaxation critical mixture binary mixture ternary mixture system Bhattacharjee-Ferrell crossover theory dynamic scaling function ultrasonic spectroscopy dynamic light scattering relaxation rate characteristic relaxation rate critical slowing down chemical relaxation surface tension Debye col point plait point 33.69 33.30 33.25 33.05 33.07
50	Multi-Frequenz-ESR spinmarkierter Proteine Urban, Leszek 06 December 2012 (has links) Die Elektronen-Spin-Resonanz-Spektroskopie (ESR) in Verbindung mit ortsspezifischer Spinmarkierung stellt eine hervorragende Möglichkeit dar, um die Struktur und Dynamik von Proteinen aufzuklären. In dieser Dissertation wurden mit Hilfe der Hochfeld-ESR-Spektroskopie (W-Band, 95 GHz, T=160 K) für dreizehn spinmarkierte Colicin A Proben die Polarität und die Protizität der Umgebung der Spinlabelbindestelle bestimmt. Wasserzugänglichkeiten und Wasserstoffbrückenbindungen zum Spinlabel wurden mittels Puls-ESR Methoden (3-Puls-D-ESEEM und Hahn-Echozerfall) bestimmt und die Ergebnisse mit den Polaritäts- und Protizitätswerten korreliert. Raumtemperaturspektren dieser Proben im X-Band (9.5 GHz), Q-Band (34 GHz) und W-Band (95 GHz) liefern Informationen über die Spinlabelbewegung. Mit Hilfe von Molekulardynamiksimulationen (MD) der spinmarkierten kanalbildenden Domäne von Colicin A konnten die Konformationen (Rotameranalyse) und die Dynamik der Spinlabelseitenketten in den unterschiedlichen Umgebungen charakterisiert werden. Der Vergleich der experimentellen mit den aus MD-Trajektorien berechneten ESR-Spektren liefert die Beiträge der unterschiedlichen Rotamerübergänge, die für die beobachteten Spektrenformen charakteristisch sind. ESR Elektronen-Spin-Resonanz-Spektroskopie Spektroskopie SDSL ortsspezifische Spinmarkierung Protein Makromolekül Colicin A MD-Simulation Molekulardynamik Computersimulation Rotamer Multi-Frequenz-ESR X-Band Q-Band W-Band Puls-ESR cw-ESR ESEEM Echo Echozerfall Hahn-Echo R1 MTSSL Methanethiosulfonat-Spinlabel Polarität Protizität Wasserzugänglichkeit Wasserstoffbrückenbindungen H-Brücken Rotameranalyse Spektrenberechnung SRLS MOMD Hyperfeinkopplung g-Tensor Hochfeld-ESR 33.07 - Spektroskopie 33.05 - Experimentalphysik 33.30 - Atomphysik, Molekülphysik ddc:530 ddc:500 ddc:570

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