Global ETD Search

1	Triaxial Strongly Deformed Band and High Spin States in 168Lu Li, Yuan 10 May 2003 (has links) Potential energy surface calculations have predicted the existence of the island of triaxial strongly deformed (TSD) nuclei with N~94 and Z~72. Experimental discoveries of TSD bands have been first reported in Lu. Subsequent calculations indicated that Hf would be the most favorable even-even nuclei in the island region for finding low-lying TSD structures. However, experimental investigation of Hf nuclei performed with Euroball and Gammasphere produced negative results on the two nuclei. In the Gammasphere experiment three TSD bands were discovered in the main reaction product Hf. This success motivated an extension of the search for TSD bands in the region to heavier Hf-isotopes and neighboring Lu-isotopes. In order to search for TSD bands and the characteristic wobbling mode in Lu, the experiment using Sb ( Ca, xn) reaction was performed in Lawrence Berkeley National Laboratory (LBNL) with Gammasphere. Based on coincidence data acquired in the experiment, a new level structure for Lu was developed. Compared to level schemes in previous work, previously observed bands were extended to higher spins. Four new bands were assigned to Lu for the first time, and one of them was identified as a triaxial strongly deformed (TSD) band. high spin state tsd lu168
2	Search for low-spin states above the 5-α break-up threshold in 20Ne Swartz, Jacobus Andreas 04 1900 (has links) Thesis (PhD)--Stellenbosch University, 2014. / ENGLISH ABSTRACT: The study of α clustering is a well-established topic of research in nuclear physics. Recent experimental evidence has revealed the first 2+ excitation of the Hoyle state in 12C, which is known to have a strong α cluster structure. The idea of multi-particle α cluster structures in light nuclear matter has received much attention from theoretical investigations of late. This research has profound implications in the fields of both nuclear structure and nuclear astrophysics. The 20Ne nucleus is a good example for α clustering, since many of its states are known to have α clustering structures. Few low spin states are known at high excitation energies of this nucleus. It is predicted that this nucleus contains a 0+ 5-α cluster state, a so-called ‘Hoyle analogue state’, above its 5-α break-up threshold at Ex = 19.17 MeV. This thesis presents a study of the 20Ne nucleus with the 22Ne(p,t)20Ne reaction at laboratory angles θlab =(0◦, 7◦, 16◦, 27◦). The iThemba LABS K600 magnetic spectrometer was employed with a beam of energy Elab = 60 MeV, incident upon a 22Ne gas target held intact by Aramid foils. The aim was to search for low spin states in 20Ne at excitation energies above Ex = 15 MeV, and, possibly, to find an indication of the 5-α cluster state. Three narrow states were discovered at energies of Ex = 20.59 MeV, Ex = 21.16 MeV and Ex = 21.80 MeV. Calculations performed with the isobaric multiplet mass equation indicate that these states may be T = 2 isobaric analogue states of three known states in 20O. However, shell-model calculations indicate that these states may also have T = 0 or T = 1 isospin values. There is also evidence of a new state at Ex = 17.67 MeV and, possibly, of a collection of new states which could not be resolved at Ex = 18.84 MeV. A tentative candidate for the desired 5-α cluster state was observed, but this will require another measurement with cleaner background to be confirmed. / AFRIKAANSE OPSOMMING: Alfa bondelvorming is ’n gevestigde navorsingsonderwerp in kernfisika. Daar is onlangse bewyse vir die ontdekking van die 2+ opwekking van die Hoyle toestand in 12C, wat ’n erkende alfa bondelstruktuur het. Die idee van multi-alfa bondelstrukture in ligte kerne het onlangs baie aandag geniet in teoretiese ondersoeke. Hierdie navorsing het besondere implikasies vir kernstruktuur, sowel as vir kernastrofisika. Die 20Ne kern bied ‘n ideale voorbeeld vir alfa bondelvorming aangesien dit bekend is dat baie van die kern se toestande alfa bondelstrukture het. Min lae-spin toestande is by ho¨e opwekenergie¨e bekend in hierdie kern. Daar word voorspel dat ’n 0+ 5-alfa bondeltoestand, ’n sogenaamde ‘Hoyle analoogtoestand’, bo die drumpel vir 5-alfa verval by Ex = 19.17 MeV bestaan. Hierdie tesis beskryf ‘n studie van die 20Ne kern met die 22Ne(p,t)20Ne reaksie by laboratorium hoeke van θlab =(0◦, 7◦, 16◦, 27◦). Die K600 magnetiese spektrometer van iThemba LABS is gebruik met ‘n proton bundel, by ‘n energie van Elab = 60 MeV, wat op ‘n 22Ne gas teiken omhul met aramid foelies gerig is. Die doel was om lae-spin toestande in 20Ne by opwekenergie¨e bo Ex = 15 MeV op te spoor, en om moontlik ook ‘n aanduiding van die 5-alfa bondeltoestand te vind. Drie smal toestande is by energie¨e van Ex = 20.59 MeV, Ex = 21.16 MeV en Ex = 21.80 MeV opgespoor. Berekeninge wat met die isobariese multiplet massa vergelyking uitgevoer is, dui daarop dat hierdie toestande T = 2 isobariese analoogtoestande van drie bekende toestande in 20O kan wees, hoewel skilmodel berekeninge ook T = 0 en T = 1 kandidate aandui. Daar is ook bewyse van ’n nuwe toestand by Ex = 17.67 MeV, en moontlik van ’n versameling nuwe toestande rondom Ex = 18.84 MeV wat nie uitmekaar geken kon word nie. ‘n Tentatiewe kandidaat vir die gesogte 5-alfa bondel toestand is waargeneem, maar nog ‘n meting met ’n skoner agtergrond word vir bevestiging benodig. α clustering Low spin state Nuclear physics Cluster theory (Nuclear physics) Dissertations -- Physics Theses -- Physics UCTD
3	Theoretical studies of systems of biochemical interest containing Fe and Cu transition metals Güell Serra, Mireia 30 July 2009 (has links) La presència de la química teòrica i computacional està augmentant en quasi tots els camps de la recerca en química. Els càlculs teòrics poden ajudar a entendre millor l'estructura, les propietats i la reactivitat de compostos metàl·lics d'àrees tan diferents com la química inorgànica, organometàl·lica i bioinorgànica. No obstant això, és imprescindible utilitzar la metodologia adequada per obtenir resultats teòrics fiables. Els estudis d'aquesta tesi es poden dividir en dos grups diferents. El primer grup inclou l'estudi teòric del mecanisme de reacció de diversos sistemes que contenen coure i tenen diferents estructures Cun-O2. Aquests estudies s'han dut a terme amb l'objectiu de profunditzar en la natura dels processos oxidants químics i biològics promoguts per sistemes que contenen coure. En la segona part de la tesi, s'estudia la fiabilitat de diferents tècniques utilitzades per estudiar l'estructura electrònica i la reactivitat de sistemes que contenen coure, ferro i altres metalls de transició. / The presence of computational and theoretical chemistry is increasing in chemical research in nearly all fields. Theoretical calculations can help to better explain structure, properties, and reactivity in metallic compounds, in such diverse areas as inorganic, organometallic and bioinorganic chemistry. However, it is essential to use the suitable methodology in order to obtain reliable theoretical results. The studies of this Thesis can be divided into two different groups. The first group includes the theoretical study of the reaction mechanism of several copper-containing systems with different Cun-O2 structures. These studies are carried out with the aim of providing some insight into the nature of the chemical and biological copper-promoted oxidative processes with 1:1 and 2:1 Cu(I)/O2-derived species. In the second part of this Thesis the reliability of different theoretical approaches used to study the electronic structure and reactivity of systems containing copper, iron or other transition metals is evaluated. Hierro Iron Ferro Compuestos biomiméticos Biomimetic compounds Compostos biomimetics Cobre Copper Coure Enzimas Enzymes Energies d'estat spin Enzims DFT Spin state energies Energías de estado spin 544
4	Laboratorní výzkum reakcí iontů s molekulárním i atomárním vodíkem při teplotách relevantních pro astrochemii / Laboratory studies of ion-molecule reactions with molecular and atomic hydrogen at temperatures relevant to astrochemistry Mulin, Dmytro January 2015 (has links) The results of the laboratory study of reaction rate coefficients of several ion- molecule reactions with atomic and molecular hydrogen and molecular deuterium at low temperatures are presented in the thesis. The reaction rate coefficients of the N+ and H+ reaction with H2 were measured with respect to the nuclear spin configuration and rotational excitation of H2. The reactions of anions were a subject of the isotope exchange and isotope effect study. The measurements of the rate coefficients of H2O and D2O formation in the reaction of O- with H2 and D2, isotope exchange reactions OH- + D2 and OD- + H2, and associative detachment and charge transfer channels of D- + H interaction were performed. Experiments were carried out using an AB-22PT instrument with an ion trap. It has producing, guiding, trapping, and detecting systems for ions and a separate source of atomic H. The cooling system allowed to measure the temperature dependencies of the reaction rate coefficients at temperatures relevant to astrochemistry (10 K - 300 K)
5	Synthesis and study of magnetic molecular materials based on Co(II) and Cr(II) trinuclear clusters containing M-M bonds / La synthèse et l'étude des matériaux moléculaires magnétiques à base de Co (II) et Cr (II), les clusters trinucléaires contenant des liaisons M-M Bulicanu, Vladimir 05 December 2016 (has links) Dans cette thèse est décrite la synthèse et les propriétés magnétiques des composés de coordination contenant des liaisons Co-Co ou Cr-Cr. Le contexte général sera discuté dans la première partie de ce travail en considérant l'évolution historique de ce type de chimie de coordination. Dans le deuxième chapitre, la possibilité d'intégrer un cluster {Co3} avec des ligands dipyridylamide et liaisons intermétalliques, dans des polymères de coordination unidimensionnels est discutée. Les interactions entre les porteurs de spin et l'effet du ligand pontant sont étudiés. Les changements des propriétés de transition de spin sont contrôlés en comparant par rapport au précurseur. Dans le troisième chapitre, les propriétés de molécule aimant d'un cluster de {Cr3} analogue à celui du {Co3}, sont étudiées. L'influence du ligand axial et la symétrie de la molécule sont également considérés et corrélées avec les propriétés de la molécule. Dans le quatrième chapitre, l'effet de la transition de spin induite par la coordination est étudié sur un exemple de cluster de {Co3} avec des ligands dipyridylformamidinate. La rupture et le rétablissement d'une liaison Co-Co est contrôlée par le biais de la température et de la lumière. L'effet de la rupture de la liaison intermétallique sur les propriétés magnétiques et structurales est aussi étudié. / In this thesis is described the synthesis, structures and magnetic properties of coordination compounds containing Co-Co or Cr-Cr bonds. In the first part of this work a general background is given on the historical evolution of this type of coordination chemistry. In the second chapter the possibility of incorporating a {Co3} cluster with dipyridylamide ligands and intermetallic bonds into one-dimentional coordination polymers is discussed. The interactions between spin centers and the effect of the bridging ligand were studied, and changes in the spin crossover properties were monitored and compared to the precursor. In the third chapter the Single-Molecule Magnet properties of a series of {Cr3} clusters are presented. The influence of the axial ligand and the symmetry of the molecule was considered and correlated to the magnetic properties. In the fourth chapter the phenomenon of coordination induced spin transition in a {Co3} cluster with dipyridylformamidinate ligands is discussed. Changes in magnetism and optical properties as a result of the breaking and restoring of a Co-Co bond were monitored as a function of temperature and light irradiation. Liaison métal-métal Chaînes métalliques étendues Conversion de spin Polymére Molécule-aimant Metal–metal bond Extended metal atom chain Spin crossover Polymer Single molecule magnet
6	Structure and Properties Investigations of the La2Co1+z(Ti1-xMgx)1-zO6 Perovskite System / Struktur och Egenskapsundersökningar av La2Co1+z(Ti1-xMgx)1-zO6 Perovskit Systemet Shafeie, Samrand January 2011 (has links) Perovskite based materials have great potentials for various energy applications and the search for new materials for uses in SOFCs has largely been concentrated to this class of compounds. In this search, we have studied perovskite phases in the system La2Co1+z(Ti1-xMgx)1-zO6, with 0 x 0.9 and z = 0.0, 0.2, 0.4, 0.6. Crystal structures were characterized by XRD and, for selected compositions, also by NPD and SAED. They exhibit with increasing x, as well as increasing z, a progressive increase in symmetry from monoclinic to orthorhombic to rhombohedral. The main focus in this work has been on the investigation of structure-property relations for compositions with 0.0 x 0.5 and z = 0. The nominal oxidation state of Co increases for these with increasing x, from Co2+ for x = 0 to Co3+ for x = 0.5. Magnetic measurements and XANES studies showed that the average spin state of Co changes linearly with increasing x, up to x = 0.5, in accordance with varying proportions of Co with two fixed oxidation states, i.e. Co2+ and Co3+. The data suggests that the Co3+ ions have an IS spin state or a mixture of LS and HS spin states for all compositions with nominally only Co2+ and Co3+ ions, possibly with the exception of the composition with x = 0.1, 0.2 and z = 0, for which the data indicate that the spin state might be HS. The XANES data indicate furthermore that for the perovskite phases with z = 0 and x > 0.5, which in the absence of O atom vacancies contain formally Co4+, the highest oxidation state of Co is Co3+, implying that the substitution of Ti4+ by Mg2+ for x ³ 0.5 effects an oxidation of O2- ions rather than an oxidation of Co3+ ions. The thermal expansion was found to increase nearly linearly with increasing oxidation state of Co. This agrees well with findings in previous studies and is attributable to an increase in the ionic radius of Co3+ ions with increasing temperature, due to a thermal excitation from a LS to IS or LS/HS spin states. High temperature electronic conductivity measurements indicate that the electronic conductivity increases with an increase of both relative and absolute amount of Co3+. The latter can be attributed to an increase in the number of Co-O-Co connections. Additional high temperature magnetic measurements for selected samples, whose susceptibilities did not follow a Curie law behaviour up to room temperature, showed effective magnetic moments that did approach plateaus even at high temperatures (900 K). Interpretations of these data are, however, hindered by the samples losing oxygen during the applied heating-cooling cycle. The present study has shown that the investigated system is suitable for further studies, of more fundamental character, which could provide further insight of the structure-property relationships that depend on the oxidation state of Co. / Studies of cobalt based perovskites for cathode materials in solid oxide fuel cells. solid oxide fuel cell SOFC LaCoO3 cobaltates cobalt oxide perovskite XANES XRD Neutron powder diffraction thermal expansion electronic conductivity magnetism citrate electron diffraction synthesis phase diagram spin state fast fas oxid bränslecell LaCoO3 koboltoxid perovskit XANES XRD neutron diffraktion elektron diffraktion termisk expansion elektrisk ledningsförmåga magnetism citrat SOFC syntes fasdiagram spin tillstånd Inorganic Chemistry Oorganisk kemi Materials Chemistry Materialkemi
7	Einfluss reversibler epitaktischer Dehnung auf die ferroische Ordnung dünner Schichten Herklotz, Andreas 05 June 2012 (has links) (PDF) In dieser Arbeit werden die Auswirkungen epitaktischer Dehnung auf die Eigenschaften ferromagnetischer und ferroelektrischer Perowskitschichten untersucht. Dazu wird der biaxiale Dehnungszustand einer Schicht reversibel verändert, indem einkristalline piezoelektrische Pb(Mg1/3Nb2/3)0.72Ti0.28O3 (001) Substrate (PMN-PT) verwendet werden. Ergänzt werden die Messungen mit dieser “dynamischen” Methode durch Untersuchungen an statisch gedehnten Schichten, gewachsen auf LaAlxSc1-xO3-Pufferschichten mit gezielt abgestimmter Gitterfehlpassung. Drei verschiedene Materialsysteme werden studiert: die ferromagnetischen Oxide La0.8Sr0.2CoO3 und SrRuO3 und das ferroelektrische Pb(Zr,Ti)O3. Für La0.8Sr0.2CoO3 wird ein dehnungsinduzierter Übergang von der bekannten ferromagnetischen Phase zu einer magnetisch weniger geordneten, spinglasartigen Phase nachgewiesen. Es ergeben sich keine Hinweise auf eine Beeinflussung des Co-Spinzustandes. In epitaktischen SrRuO3-Schichten bewirkt eine Zugdehnung einen strukturellen Phasenübergang von der orthorhombischen Bulk-Phase zu einer out-of-plane orientierten tetragonalen Phase. Die leichte Richtung liegt in der Ebene. Reversible Dehnungsmessungen zeigen einen deutlichen Einfluss auf die ferromagnetische Ordnungstemperatur und deuten auf eine geringe Veränderung des magnetischen Moments hin. Der Dehnungseffekt auf die elektrischen Transporteigenschaften wird bestimmt. Pb(Zr,Ti)O3 wird als ferroelektrisches Standardmaterial genutzt, um erstmalig den Einfluss biaxialer Dehnung auf das ferroelektrische Schaltverhalten dünner Schichten zu untersuchen. Für kleine elektrische Felder zeigen die Messungen das typische Verhalten einer gepinnten Domänenwandbewegung. Hier wird der Schaltvorgang unter Piezokompression stark beschleunigt. Werden an die elektrischen Kontakte größere elektrische Felder angelegt, geht die Domänenwandbewegung in das Depinning-Regime über. Die Schaltkinetik wird in diesem Bereich unter Piezokompression leicht verlangsamt. / In this work, the effect of epitaxial strain on the properties of ferromagnetic and ferroelectric perovskite thin films is studied. Single-crystalline piezoelectric Pb(Mg1/3Nb2/3)0.72Ti0.28O3 (001) substrates (PMN-PT) are utilized to reversibly change the biaxial strain state of the films. The measurements performed by this “dynamic” approach are complemented by studying statically strained films grown on LaAlxSc1-xO3 buffer layers with deliberately tuned lattice misfit. Three different material systems are investigated: the ferromagnetic oxides La0.8Sr0.2CoO3 and SrRuO3 and the ferroelectric compound Pb(Zr,Ti)O3. In case of La0.8Sr0.2CoO3 a strain-induced transition from the known ferromagnetic phase to a magnetically less ordered spinglas-like phase is observed. No indications for an effect on the Co spin state are found. In epitaxial SrRuO3 films tensile strain is causing a structural phase transition from the bulk-like orthorhombic structure to an out-of-plane oriented tetragonal phase. The magnetic easy axis is in the film plane. Reversible strain experiments show a significant effect on the ferromagnetic ordering temperature and point to a small change of the magnetic moment. The strain effect on the electric transport properties is also determined. Pb(Zr,Ti)O3 as a standard ferroelectric material is used to study the influence of biaxial strain on the ferroelectric switching behaviour of thin films for the first time. At small electric fields the measurements reveal the typical signs of creep-like domain wall motion caused by wall pinning. In this regime the switching process is accelerated strongly under piezo-compression. For higher electric fields a transition of the domain wall motion to the depinning regime is observed. Here, the switching kinetics is slowed down moderately by compressive strain. ferroelektrisch ferromagnetic Schalten Phasenübergang Schaltkinetik reziproke Gitterkarten piezoelektrische Substrate Domänenwand Pufferschicht Spinzustand Kobaltat Strontiumruthenat Bleititanat PZT IFW Dresden gepulste Laserdeposition ferroelectric ferromagnetic switching phase transition switching kinetics reziprocal space maps piezoelectric substrates domain wall buffer layer spin state cobaltites LSCO strontium ruthenate SRO lead titanate PZT IFW Dresden pulsed laser deposition ddc:530 ddc:539 rvk:UP 7500 rvk:UP 6300 rvk:UP 6400 Festkörperphysik Domänenstruktur Magnetschicht Epitaxieschicht Ferromagnetische Schicht Antiferromagnetische Schicht Dielektrische Schicht Dünne Schicht Inselschich
8	Einfluss reversibler epitaktischer Dehnung auf die ferroische Ordnung dünner Schichten Herklotz, Andreas 24 April 2012 (has links) In dieser Arbeit werden die Auswirkungen epitaktischer Dehnung auf die Eigenschaften ferromagnetischer und ferroelektrischer Perowskitschichten untersucht. Dazu wird der biaxiale Dehnungszustand einer Schicht reversibel verändert, indem einkristalline piezoelektrische Pb(Mg1/3Nb2/3)0.72Ti0.28O3 (001) Substrate (PMN-PT) verwendet werden. Ergänzt werden die Messungen mit dieser “dynamischen” Methode durch Untersuchungen an statisch gedehnten Schichten, gewachsen auf LaAlxSc1-xO3-Pufferschichten mit gezielt abgestimmter Gitterfehlpassung. Drei verschiedene Materialsysteme werden studiert: die ferromagnetischen Oxide La0.8Sr0.2CoO3 und SrRuO3 und das ferroelektrische Pb(Zr,Ti)O3. Für La0.8Sr0.2CoO3 wird ein dehnungsinduzierter Übergang von der bekannten ferromagnetischen Phase zu einer magnetisch weniger geordneten, spinglasartigen Phase nachgewiesen. Es ergeben sich keine Hinweise auf eine Beeinflussung des Co-Spinzustandes. In epitaktischen SrRuO3-Schichten bewirkt eine Zugdehnung einen strukturellen Phasenübergang von der orthorhombischen Bulk-Phase zu einer out-of-plane orientierten tetragonalen Phase. Die leichte Richtung liegt in der Ebene. Reversible Dehnungsmessungen zeigen einen deutlichen Einfluss auf die ferromagnetische Ordnungstemperatur und deuten auf eine geringe Veränderung des magnetischen Moments hin. Der Dehnungseffekt auf die elektrischen Transporteigenschaften wird bestimmt. Pb(Zr,Ti)O3 wird als ferroelektrisches Standardmaterial genutzt, um erstmalig den Einfluss biaxialer Dehnung auf das ferroelektrische Schaltverhalten dünner Schichten zu untersuchen. Für kleine elektrische Felder zeigen die Messungen das typische Verhalten einer gepinnten Domänenwandbewegung. Hier wird der Schaltvorgang unter Piezokompression stark beschleunigt. Werden an die elektrischen Kontakte größere elektrische Felder angelegt, geht die Domänenwandbewegung in das Depinning-Regime über. Die Schaltkinetik wird in diesem Bereich unter Piezokompression leicht verlangsamt.:1 Einführung 1.1 Motivation 1.2 Methodik 1.3 Übersicht 2 Probenherstellung und -charakterisierung 2.1 Gepulste Laserdeposition 2.1.1 Prinzip 2.1.2 Aufbau 2.1.3 RHEED 2.1.4 Optimierung des Schichtwachstums 2.1.5 Targets 2.1.6 Substrate 2.2 Röntgendiffraktion 2.2.1 Röntgenmethoden 2.2.2 Röntgenreflektometrie 2.3 SQUID-Magnetometrie 2.4 Rasterkraftmikroskopie 2.5 Transportmessungen 2.6 Elektrische Polarisationsmessungen 3 PMN-PT 3.1 PMN-PT als piezoelektrisches Dünnschicht-Substrat 3.2 PMN-PT als Piezoaktuator 3.3 Temperaturabhängigkeit der Piezodehnung 3.4 Dehnungsübertragung in die Schicht 4 Puffersysteme 4.1 Motivation 4.2 LaAlxSc1−xO3 4.3 BaxSr1−xTiO3 5 Dehnungseinfluss auf ferromagnetische Filme - La0.8Sr0.2CoO3 5.1 Grundlagen zu La1−xSrxCoO3 5.1.1 Struktur 5.1.2 Spinzustand 5.1.3 Magnetische Wechselwirkungen / Doppelaustausch 5.1.4 Phasendiagramm / magnetische Phasenseparation 5.2 Messungen 5.2.1 Gitter- und Mikrostruktur 5.2.2 Curie-Temperatur 5.2.3 Magnetoelastischer Effekt 5.2.4 Magnetisierungsschleifen 5.2.5 elektrischer Transport 5.3 Zusammenfassung und Ausblick 6 Dehnungseinfluss auf ferromagnetische Filme - SrRuO3 6.1 Grundlagen zu SrRuO3 6.1.1 Struktur 6.1.2 Magnetismus 6.1.3 Elektrischer Transport 6.2 Messungen 6.2.1 Gitter- und Mikrostruktur 6.2.2 Magnetismus 6.2.3 Elektrischer Transport 6.3 Zusammenfassung und Ausblick 7 Dehnungseinfluss auf ferroelektrische Filme - PbZr1−xTixO3 7.1 Grundlagen 7.1.1 PbZr1−xTixO3 7.1.2 Elektrische Polarisation 7.1.3 Koerzitivfeld 7.1.4 Domänendynamik 7.2 Messungen 7.2.1 Gitterstruktur 7.2.2 Standardcharakterisierung: Dehnungseinfluss auf die remanente Polarisation Pr und das Koerzitivfeld EC 7.2.2.1 Statische Messungen 7.2.2.2 Dehnungsmessungen 7.2.3 PUND-Messungen: Dehnungseinfluss auf die charakteristische Schaltzeit tsw 7.3 Zusammenfassung und Ausblick 8 Zusammenfassung / In this work, the effect of epitaxial strain on the properties of ferromagnetic and ferroelectric perovskite thin films is studied. Single-crystalline piezoelectric Pb(Mg1/3Nb2/3)0.72Ti0.28O3 (001) substrates (PMN-PT) are utilized to reversibly change the biaxial strain state of the films. The measurements performed by this “dynamic” approach are complemented by studying statically strained films grown on LaAlxSc1-xO3 buffer layers with deliberately tuned lattice misfit. Three different material systems are investigated: the ferromagnetic oxides La0.8Sr0.2CoO3 and SrRuO3 and the ferroelectric compound Pb(Zr,Ti)O3. In case of La0.8Sr0.2CoO3 a strain-induced transition from the known ferromagnetic phase to a magnetically less ordered spinglas-like phase is observed. No indications for an effect on the Co spin state are found. In epitaxial SrRuO3 films tensile strain is causing a structural phase transition from the bulk-like orthorhombic structure to an out-of-plane oriented tetragonal phase. The magnetic easy axis is in the film plane. Reversible strain experiments show a significant effect on the ferromagnetic ordering temperature and point to a small change of the magnetic moment. The strain effect on the electric transport properties is also determined. Pb(Zr,Ti)O3 as a standard ferroelectric material is used to study the influence of biaxial strain on the ferroelectric switching behaviour of thin films for the first time. At small electric fields the measurements reveal the typical signs of creep-like domain wall motion caused by wall pinning. In this regime the switching process is accelerated strongly under piezo-compression. For higher electric fields a transition of the domain wall motion to the depinning regime is observed. Here, the switching kinetics is slowed down moderately by compressive strain.:1 Einführung 1.1 Motivation 1.2 Methodik 1.3 Übersicht 2 Probenherstellung und -charakterisierung 2.1 Gepulste Laserdeposition 2.1.1 Prinzip 2.1.2 Aufbau 2.1.3 RHEED 2.1.4 Optimierung des Schichtwachstums 2.1.5 Targets 2.1.6 Substrate 2.2 Röntgendiffraktion 2.2.1 Röntgenmethoden 2.2.2 Röntgenreflektometrie 2.3 SQUID-Magnetometrie 2.4 Rasterkraftmikroskopie 2.5 Transportmessungen 2.6 Elektrische Polarisationsmessungen 3 PMN-PT 3.1 PMN-PT als piezoelektrisches Dünnschicht-Substrat 3.2 PMN-PT als Piezoaktuator 3.3 Temperaturabhängigkeit der Piezodehnung 3.4 Dehnungsübertragung in die Schicht 4 Puffersysteme 4.1 Motivation 4.2 LaAlxSc1−xO3 4.3 BaxSr1−xTiO3 5 Dehnungseinfluss auf ferromagnetische Filme - La0.8Sr0.2CoO3 5.1 Grundlagen zu La1−xSrxCoO3 5.1.1 Struktur 5.1.2 Spinzustand 5.1.3 Magnetische Wechselwirkungen / Doppelaustausch 5.1.4 Phasendiagramm / magnetische Phasenseparation 5.2 Messungen 5.2.1 Gitter- und Mikrostruktur 5.2.2 Curie-Temperatur 5.2.3 Magnetoelastischer Effekt 5.2.4 Magnetisierungsschleifen 5.2.5 elektrischer Transport 5.3 Zusammenfassung und Ausblick 6 Dehnungseinfluss auf ferromagnetische Filme - SrRuO3 6.1 Grundlagen zu SrRuO3 6.1.1 Struktur 6.1.2 Magnetismus 6.1.3 Elektrischer Transport 6.2 Messungen 6.2.1 Gitter- und Mikrostruktur 6.2.2 Magnetismus 6.2.3 Elektrischer Transport 6.3 Zusammenfassung und Ausblick 7 Dehnungseinfluss auf ferroelektrische Filme - PbZr1−xTixO3 7.1 Grundlagen 7.1.1 PbZr1−xTixO3 7.1.2 Elektrische Polarisation 7.1.3 Koerzitivfeld 7.1.4 Domänendynamik 7.2 Messungen 7.2.1 Gitterstruktur 7.2.2 Standardcharakterisierung: Dehnungseinfluss auf die remanente Polarisation Pr und das Koerzitivfeld EC 7.2.2.1 Statische Messungen 7.2.2.2 Dehnungsmessungen 7.2.3 PUND-Messungen: Dehnungseinfluss auf die charakteristische Schaltzeit tsw 7.3 Zusammenfassung und Ausblick 8 Zusammenfassung info:eu-repo/classification/ddc/530 ddc:530 info:eu-repo/classification/ddc/539 ddc:539

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