Global ETD Search

11	THE ENTANGLEMENT ENTROPY NEAR LIFSHITZ QUANTUM PHASE TRANSITIONS & THE EMERGENT STATISTICS OF FRACTIONALIZED EXCITATIONS Rodney, Marlon A. 10 1900 (has links) <p>In Part I, the relationship between the topology of the Fermi surface and the entanglement entropy S is examined. Spinless fermionic systems on one and two dimensional lattices at fixed chemical potential are considered. The lattice is partitioned into sub-system of length L and environment, and the entanglement of the subsystem with the environment is calculated via the correlation matrix. S is plotted as a function of the next-nearest or next-next nearest neighbor hopping parameter, t. In 1 dimension, the entanglement entropy jumps at lifshitz transitions where the number of Fermi points changes. In 2 dimensions, a neck-collapsing transition is accompanied by a cusp in S, while the formation of electron or hole-like pockets coincides with a kink in the S as a function of the hopping parameter. The entanglement entropy as a function of subsystem length L is also examined. The leading order coefficient of the LlnL term in 2 dimensions was seen to agree well with the Widom conjecture. Of interest is the difference this coefficient and the coefficient of the term linear in L near the neck-collapsing point. The leading order term changes like \|t-t<sub>c</sub>\|<sup>1/2</sup> whereas the first sub-leading term varies like \|t-t<sub>c</sub>\|<sup>1/3</sup>, where t<sub>c</sub> is the critical value of the hopping parameter at the transition.</p> <p>In Part II, we study the statistics of fractionalized excitations in a bosonic model which describes strongly interacting excitons in a N-band insulator. The elementary excitations of this system are strings, in a large N limit. A string is made of a series of bosons whose flavors are correlated such that the end points of a string carries a fractionalized flavor quantum number. When the tension of a string vanishes, the end points are deconfined. We determine the statistics of the fractionalized particles described by the end points of strings. We show that either bosons or Fermions can arise depending on the microscopic coupling constants. In the presence of the cubic interaction in the Hamiltonian as the only higher order interaction term, it was shown that bosons are emergent. In the presence of the quartic interaction with a positive coupling constant, it was revealed that the elementary excitations of the system possess Fermion statistics.</p> / Master of Science (MSc) entanglement entropy lifshitz quantum phase transitions fermi surface topology fractionalization Condensed Matter Physics Quantum Physics Condensed Matter Physics
12	Die Fermifläche des Kupratsupraleiters Bi2Sr2CaCu2O8+[delta] : Ergebnisse der winkelaufgelösten Photoemissionsspektroskopie Legner, Sibylle 11 November 2003 (has links) (PDF) Das Forschungsgebiet der Kuprat- oder Hochtemperatursupraleiter (HTSL) ist bis heute einer der lebendigsten Bereiche der Physik kondensierter Materie. Ein besonderer Stellenwert kommt dem normalleitenden Zustand oberhalb TC zu, dessen Verständnis wesentlich zu einer Theorie der Hochtemperatur-Supraleitung beitragen könnte. Gegenstand dieser Arbeit ist die Untersuchung der Elektronenstruktur von HTSLn der Bi2Sr2CaCu2O8+[delta](Bi2212)-Familie nahe der Fermifläche im normalleitenden Zustand. Die Experimente wurden mittels winkelaufgelöster Photoemissionsspektroskopie (ARPES) durchgeführt, wobei die hohe Auflösung in Energie und Impuls recht genaue Rückschlüsse auf die Spektralfunktion und die Übergangs-Matrixelemente erlaubt. Die wichtigsten experimentellen Ergebnisse sind: 1) Hochaufgelöste ARPES-Fermiflächenkarten von Bi2212 und (Pb,Bi)2212 zeigen folgendes Bild: Die Hauptfermifläche ist lochartig und um die Ecken der Brillouinzone zentriert. Weiterer Bestandteil der Elektronenstruktur ist die Schattenfermifläche. Bei reinem Bi2212 treten außerdem extrinsische Beugungskopien der Fermifläche auf. 2) ARPES-Messungen entlang der &amp;#61511;-M-Richtung von Bi2212 zeigen eine starke Abhängigkeit von der Anregungsenergie, die auf starken Matrixelement-Effekten beruht. Verschiedene Methoden zur Bestimmung von kF zeigen, dass die Daten konsistent mit einer lochartigen Topologie der Hauptfermifläche sind. Des Weiteren wird die Qualität verschiedener Methoden zur Bestimmung von kF bei starken Matrixelement-Effekten bewertet. 3) Die Hauptfermifläche von (Pb,Bi)2212 behält ihre lochartige Topologie über einen großen Dotierungsbereich nahe optimaler Dotierung. 4) Erste hochaufgelöste ARPES-Messungen des Zirkulardichroismus wurden an (Pb,Bi)2212 durchgeführt. In der verwendeten nicht-chiralen Messanordnung wird ein CDAD (Circular Dichroism in the Angular Distribution of Photoelectrons)-Effekt beobachtet, dessen Asymmetrie antisymmetrisch bezüglich der Zweischicht-aufgespaltenen Zustände ist. Cuprate Elektronenstruktur Fermi-Fläche HTSL Hochtemperatursupraleiter Photoelektronenspektroskopie Cuprates Electronic Structure Fermi Surface HTSL High-Temperature Superconductors Photoemission Spectroscopy ddc:29 rvk:UP 2200 Cuprate Elektronenstruktur Fermi-Fläche Hochtemperatursupraleiter Photoelektronenspektroskopie
13	Fermi-surface investigations of rare-earth transition-metal compounds Polyakov, Andrey 29 April 2013 (has links) The interplay of partially filled d- or f-electron shells with conduction-band electrons is a key ingredient in new rare-earth transition-metal compounds for the emergence of unusual electronic and magnetic properties. Among which unconventional superconductivity is one of the most studied. Despite many years of intensive experimental investigations and plenty promising theoretical models, unconventional superconductivity still remains hotly debated a very rich topic. One of the fundamental unsolved problems for condensed-matter physicists is the mechanism that causes the electrons to form anisotropic superconductivity. Since electrons in the vicinity of the Fermi level are primarily responsible for superconductivity, in order to better understand the mechanism giving rise to this phenomenon and the origin of complex forces between correlated electrons, knowledge of the Fermi surface and band selective effective mass is essential. Of the many techniques used to study electronic band-structure properties, measurements of quantum oscillations in the magnetization, so-called de Haas-van Alphen (dHvA) effect, in combination with band-structure calculations is the traditional proven tool for studying Fermi-surface topology and quasiparticle effective mass. In the present work, electronic structure and Fermi-surface properties of Ybsubstituted heavy fermion superconductor CeCoIn5 and iron based ternary phosphides LaFe2P2 and CeFe2P2 have been investigated by means of dHvA measurements. For these measurements, capacitive cantilever-torque magnetometry was utilized. In Ce1−xYbxCoIn5, the evolution of the Fermi surface and effective mass was studied as a function of Yb concentration. The observed topology change is consistent with what is expected from the band-structure calculations. For a small Yb concentration, x = 0.1, the band-structure topology and the effective masses remain nearly unchanged compared to CeCoIn5. This contrasts clearly modified Fermi surfaces and light, almost unrenormalized effective masses for x = 0.2 and above. For LaFe2P2 and CeFe2P2, the obtained effective masses are light. Good agreement between the calculated and measured dHvA frequencies was identified only for LaFe2P2. However, for CeFe2P2 strong disagreement was observed. Moreover, different CeFe2P2 single crystals reveal different experimental results. In order to reconcile the results of the dHvA measurements and density-functional-theory calculations more work is necessary. info:eu-repo/classification/ddc/530 ddc:530
14	The universal shear conductivity of Fermi liquids and spinon Fermi surface states and its detection via spin qubit noise magnetometry Khoo, Jun Yong, Pientka, Falko, Sodemann, Inti 02 May 2023 (has links) We demonstrate a remarkable property of metallic Fermi liquids: the transverse conductivity assumes a universal value in the quasi-static (ω → 0) limit for wavevectors q in the regime l −1 mfp q pF, where lmfp is the mean free path and pF is the Fermi momentum. This value is (e2/h)RFS/q in two dimensions (2D), where RFS measures the local radius of curvature of the Fermi surface (FS) in momentum space. Even more surprisingly, we find that U(1) spin liquids with a spinon FS have the same universal transverse conductivity. This means such spin liquids behave effectively as metals in this regime, even though they appear insulating in standard transport experiments. Moreover, we show that transverse current fluctuations result in a universal low-frequency magnetic noise that can be directly probed by a spin qubit, such as a nitrogen-vacancy (NV) center in diamond, placed at a distance z above of the 2D metal or spin liquid. Specifically the magnetic noise is given by CωPFS/z, where PFS is the perimeter of the FS in momentum space and C is a combination of fundamental constants of nature. Therefore these observables are controlled purely by the geometry of the FS and are independent of kinematic details of the quasi-particles, such as their effective mass and interactions. This behavior can be used as a new technique to measure the size of the FS of metals and as a smoking gun probe to pinpoint the presence of the elusive spinon FS in two-dimensional systems. We estimate that this universal regime is within reach of current NV center spectroscopic techniques for several spinon FS candidate materials. info:eu-repo/classification/ddc/530 ddc:530
15	Exploiting Fermi Surface Anisotropy for Low-Dissipation Interconnects: A Study on Niobium Phosphide / Utnyttjande av Fermiytans anisotropi för låg-dissipativa förbindelser: En studie på niobiumfosfid Mariani, Gianluca January 2024 (has links) The increasing energy consumption of ICT technologies, driven by the rise in AI and data processing, requires the development of low-dissipation interconnects. This thesis addresses the challenge of increased resistivity in chip interconnects due to miniaturization, which stems from enhanced electron scattering at the boundaries. The study focuses on the anisotropy in the Fermi surface as a strategy to mitigate resistivity increase. Experimental methods, including the fabrication of devices made from niobium phosphide (NbP) using focused ion beam (FIB) techniques, are employed. Theoretical models predict that materials with an anisotropic Fermi surface can minimize resistivity by aligning electron velocities with the transport direction. Experimental results confirm significant anisotropy in the transport properties of NbP at reduced dimensions, validating the theoretical predictions. The findings suggest that exploiting Fermi surface anisotropy is a promising approach for developing low-dissipation interconnects, potentially contributing to the continued scaling of integrated circuits and reducing power consumption in ICT applications. / Den ökande energiförbrukningen hos IKT-teknologier, driven av ökningen inom AI och databehandling, kräver utvecklingen av lågförlustiga förbindelser. Denna avhandling tar upp utmaningen med ökad resistivitet i chipförbindelser på grund av miniatyrisering, vilket beror på ökad elektronsspridning vid gränsytorna. Studien fokuserar på anisotropin i Fermi-ytan som en strategi för att minska resistiviteten. Experimentella metoder, inklusive tillverkning av enheter gjorda av niobiumfosfid (NbP) med hjälp av fokuserad jonstråleteknik (FIB), används. Teoretiska modeller förutspår att material med en anisotrop Fermi-yta kan minimera resistiviteten genom att anpassa elektronernas hastigheter med transport riktningen. Experimentella resultat bekräftar betydande anisotropi i transportegenskaperna hos NbP vid reducerade dimensioner, vilket validerar de teoretiska förutsägelserna. Resultaten antyder att utnyttjandet av Fermi-yta anisotropi är ett lovande tillvägagångssätt för att utveckla lågförlustiga förbindelser, vilket potentiellt kan bidra till fortsatt skalförändring av integrerade kretsar och minska energiförbrukningen i IKT-applikationer. ICT energy consumption interconnects resistivity Fermi surface anisotropy niobium phosphide scaling IKT-energikonsumtion förbindelser resistivitet fermiyta anisotropi niobiumfosfid skalning Physical Sciences Fysik
16	Etude ab initio du pnicture de fer supraconducteur LaOFeAs Plante, Bénédict 12 1900 (has links) Le présent mémoire traite de la description du LaOFeAs, le premier matériau découvert de la famille des pnictures de fer, par la théorie de la fonctionnelle de la densité (DFT). Plus particulièrement, nous allons exposer l’état actuel de la recherche concernant ce matériau avant d’introduire rapidement la DFT. Ensuite, nous allons regarder comment se comparent les paramètres structuraux que nous allons calculer sous différentes phases par rapport aux résultats expérimentaux et avec les autres calculs DFT dans la littérature. Nous allons aussi étudier en détails la structure électronique du matériau sous ses différentes phases magnétiques et structurales. Nous emploierons donc les outils normalement utilisés pour mieux comprendre la structure électronique : structures de bandes, densités d’états, surfaces de Fermi, nesting au niveau de Fermi. Nous tirerons profit de la théorie des groupes afin de trouver les modes phononiques permis par la symétrie de notre cristal. De plus, nous étudierons le couplage électrons-phonons pour quelques modes. Enfin, nous regarderons l’effet de différentes fonctionnelles sur nos résultats pour voir à quel point ceux-ci sont sensibles à ce choix. Ainsi, nous utiliserons la LDA et la PBE, mais aussi la LDA+U et la PBE+U. / We present DFT calculations of the electronic structure of LaOFeAs, the parent compound of the new family of superconductors, the iron pnictides, in this master thesis. Specifically, we are going to take a look at the present state of the research done on this material before giving a quick introduction to DFT. Then, we will compare the optimized structural parameters as calculated by our DFT code with the experimental data as well as results obtained by other groups. We studied the electronic structure of LaOFeAs using the standard set of tools : band structure, density of state (DOS), fermi surface and fermi surface nesting. We used theoretical methods to determine the allowed phonon modes in this crystal structure. This, in turn, enabled us to explore the electron-phonon coupling in our material for the most important modes. We’ll also discuss the influence different functionals may have for calculating the electronic structure. This will allow us to validate our results. In detail, we will compare results obtained with the following functionals: LDA and PBE, as well as LDA+U and PBE+U. LaOFeAs Supraconductivité Structure électronique Phonons Couplage électrons-phonons DFT Surface de Fermi DFT+U Structure de bandes Matériaux fortement corrélés Superconductivity Electronic structure Electron-phonon coupling Fermi surface nesting Band Structure Antiferromagnetism Strongly correlated materials Fermi surface Functionals
17	Etude ab initio du pnicture de fer supraconducteur LaOFeAs Plante, Bénédict 12 1900 (has links) No description available. LaOFeAs Supraconductivité Structure électronique Phonons Couplage électrons-phonons DFT Surface de Fermi DFT+U Structure de bandes Matériaux fortement corrélés Superconductivity Electronic structure Electron-phonon coupling Fermi surface nesting Band Structure Antiferromagnetism Strongly correlated materials Fermi surface Functionals
18	Analyse des propriétés électroniques de supraconducteurs à l’aide de la théorie de la fonctionnelle de la densité Blackburn, Simon 12 1900 (has links) Cette thèse traite de la structure électronique de supraconducteurs telle que déterminée par la théorie de la fonctionnelle de la densité. Une brève explication de cette théorie est faite dans l’introduction. Le modèle de Hubbard est présenté pour pallier à des problèmes de cette théorie face à certains matériaux, dont les cuprates. L’union de deux théories donne la DFT+U, une méthode permettant de bien représenter certains systèmes ayant des électrons fortement corrélés. Par la suite, un article traitant du couplage électron- phonon dans le supraconducteur NbC1−xNx est présenté. Les résultats illustrent bien le rôle de la surface de Fermi dans le mécanisme d’appariement électronique menant à la supraconductivité. Grâce à ces résultats, un modèle est développé qui permet d’expliquer comment la température de transition critique est influencée par le changement des fré- quences de vibration du cristal. Ensuite, des résultats de calcul d’oscillations quantiques obtenus par une analyse approfondie de surfaces de Fermi, permettant une comparaison directe avec des données expérimentales, sont présentés dans deux articles. Le premier traite d’un matériau dans la famille des pnictures de fer, le LaFe2P2. L’absence de su- praconductivité dans ce matériau s’explique par la différence entre sa surface de Fermi obtenue et celle du supraconducteur BaFe2As2. Le second article traite du matériau à fermions lourds, le YbCoIn5. Pour ce faire, une nouvelle méthode efficace de calcul des fréquences de Haas-van Alphen est développée. Finalement, un dernier article traitant du cuprate supraconducteur à haute température critique YBa2Cu3O6.5 est présenté. À l’aide de la DFT+U, le rôle de plusieurs ordres magnétiques sur la surface de Fermi est étudié. Ces résultats permettent de mieux comprendre les mesures d’oscillations quan- tiques mesurées dans ce matériau. / In this thesis, the electronic structure of different kinds of superconductors is explored with the density functional theory. A brief explanation of this theory is done in the in- troduction. The Hubbard model is also presented as it can be used to solve shortcomings of the theory in some materials such as cuprates. The blend of the two theories is the DFT+U which is used to describe materials with strongly correlated electrons. After- ward, a paper describing the electron-phonon coupling in the superconductor NbC1−xNx is presented. Results from this work show the role of the Fermi surface in the electron pairing mechanism leading to superconductivity. Based on these results, a model is de- veloped explaining how the critical temperature is influenced by the change in frequency of the vibration modes. Then, quantum oscillation results based on a detailed analysis of Fermi surfaces, allowing a direct comparison with experimental data, are presented within two papers. The first one is about a material in the iron pnictide family, the LaFe2P2. Our calculations show that the Fermi surface of this material is different from the superconducting doped BaFe2As2 which explains why this material shows no sign of superconductivity. The second paper is about the heavy fermion system YbCoIn5. To do this, a new efficient method to calculate de Haas-van Alphen frequencies is developed. Finally, a paper on superconducting YBa2Cu3O6.5 is presented. Using DFT+U, the role of various magnetic orders on the Fermi surface are studied. The results allow a better understanding of the measured quantum oscillations in this material. Corrélation électronique DFT DFT+U Pnictures Cuprates Supraconductivité Couplage électron-phonon Surface de Fermi Electron correlation Pnictides Superconductivity Electron-phonon coupling Fermi surface
19	Analyse des propriétés électroniques de supraconducteurs à l’aide de la théorie de la fonctionnelle de la densité Blackburn, Simon 12 1900 (has links) Cette thèse traite de la structure électronique de supraconducteurs telle que déterminée par la théorie de la fonctionnelle de la densité. Une brève explication de cette théorie est faite dans l’introduction. Le modèle de Hubbard est présenté pour pallier à des problèmes de cette théorie face à certains matériaux, dont les cuprates. L’union de deux théories donne la DFT+U, une méthode permettant de bien représenter certains systèmes ayant des électrons fortement corrélés. Par la suite, un article traitant du couplage électron- phonon dans le supraconducteur NbC1−xNx est présenté. Les résultats illustrent bien le rôle de la surface de Fermi dans le mécanisme d’appariement électronique menant à la supraconductivité. Grâce à ces résultats, un modèle est développé qui permet d’expliquer comment la température de transition critique est influencée par le changement des fré- quences de vibration du cristal. Ensuite, des résultats de calcul d’oscillations quantiques obtenus par une analyse approfondie de surfaces de Fermi, permettant une comparaison directe avec des données expérimentales, sont présentés dans deux articles. Le premier traite d’un matériau dans la famille des pnictures de fer, le LaFe2P2. L’absence de su- praconductivité dans ce matériau s’explique par la différence entre sa surface de Fermi obtenue et celle du supraconducteur BaFe2As2. Le second article traite du matériau à fermions lourds, le YbCoIn5. Pour ce faire, une nouvelle méthode efficace de calcul des fréquences de Haas-van Alphen est développée. Finalement, un dernier article traitant du cuprate supraconducteur à haute température critique YBa2Cu3O6.5 est présenté. À l’aide de la DFT+U, le rôle de plusieurs ordres magnétiques sur la surface de Fermi est étudié. Ces résultats permettent de mieux comprendre les mesures d’oscillations quan- tiques mesurées dans ce matériau. / In this thesis, the electronic structure of different kinds of superconductors is explored with the density functional theory. A brief explanation of this theory is done in the in- troduction. The Hubbard model is also presented as it can be used to solve shortcomings of the theory in some materials such as cuprates. The blend of the two theories is the DFT+U which is used to describe materials with strongly correlated electrons. After- ward, a paper describing the electron-phonon coupling in the superconductor NbC1−xNx is presented. Results from this work show the role of the Fermi surface in the electron pairing mechanism leading to superconductivity. Based on these results, a model is de- veloped explaining how the critical temperature is influenced by the change in frequency of the vibration modes. Then, quantum oscillation results based on a detailed analysis of Fermi surfaces, allowing a direct comparison with experimental data, are presented within two papers. The first one is about a material in the iron pnictide family, the LaFe2P2. Our calculations show that the Fermi surface of this material is different from the superconducting doped BaFe2As2 which explains why this material shows no sign of superconductivity. The second paper is about the heavy fermion system YbCoIn5. To do this, a new efficient method to calculate de Haas-van Alphen frequencies is developed. Finally, a paper on superconducting YBa2Cu3O6.5 is presented. Using DFT+U, the role of various magnetic orders on the Fermi surface are studied. The results allow a better understanding of the measured quantum oscillations in this material. Corrélation électronique DFT DFT+U Pnictures Cuprates Supraconductivité Couplage électron-phonon Surface de Fermi Electron correlation Pnictides Superconductivity Electron-phonon coupling Fermi surface
20	Lifshitz transitions in RCo5 (R=Y, La) and in Osmium / Lifschitz Übergänge in RCo5 (R=Y, La) und in Osmium Koudela, Daniela 23 February 2007 (has links) (PDF) The aim of this thesis was to find anomalies of elastic properties induced by topological changes of the Fermi surface. The latter are called &quot;Lifshitz transitions&quot;. Lifshitz transitions are an interesting subject to study because a topological change of the Fermi surface results in a van Hove singularity of the density of states at the Fermi energy, which again induces an anomaly in the free energy and therefore yield anomalies of observable physical quantities. In all cases the question arose, if the corresponding van Hove singularities are large enough to cause anomalies in the elastic properties, which are measurable by nowadays experimental techniques and computable within the accuracy reachable in nowadays computer calculations. The calculations have been done with the Full-Potential nonorthogonal Local-Orbital minimum-basis band-structure code FPLO. To shift the van Hove singularities through the Fermi energy we used hydrostatic pressure, which is mimicked in the computations by decreasing the volume of the unit cell. The materials under consideration had been YCo5 and LaCo5 as examples for magnetic compounds and the element Osmium as an example for a non-magnetic material. All these materials exhibit hexagonal symmetry. In the case of YCo5 our calculations yield a first order Lifshitz transition. Here, an extraordinarily large peak in the spin-up part of the DOS, which is caused by a nearly dispersionless band in the hexagonal plane, crosses the Fermi level under a pressure of about 21 GPa. Thus, the spin-up 3d states become partly depopulated, which results in a drop of the total magnetic moment of 35%. Therefore the transition can be regarded as a transition from strong to weak ferromagnetism. Further, the transition results in a volume collapse of 1.4%. Though the volume collapse is isomorphic, it exhibits the following anisotropy: while the lattice constant in the hexagonal plane is almost smoothly contracting with increasing pressure, the lattice constant in c-direction collapses at the transition-pressure. This volume collapse has been verified in experiment. Analogous calculations have been performed for the compound LaCo5, which is isoelectronic to YCo5. Here as well we predict a first order Lifshitz transition, taking place at a pressure of about 23 GPa. The mechanism of the transition is the same than in YCo5. Again we find a volume collapse under pressure together with a decrease of the magnetic moment. The relative volume change amounts to 1.3%. Like in YCo5, the unit cell dimensions in the hexagonal plane are decreasing almost smoothly with pressure while in c-direction the lattice constant collapses at the transition-pressure. For LaCo5 there are no such experiments done so far to the best of our knowledge. For Osmium we found, that LDA reproduces the ground state volume very well. Furthermore, we could detect three Lifshitz transitions taking place at very high pressures of about 72 GPa, 81 GPa, and 122 GPa. At first, a hole ellipsoid appears at the Gamma-point (V=24.6Å^3, P=72 GPa), then a neck is created at the symmetry-line LH (V=24.2Å^3, P=81 GPa), and finally a hole ellipsoid appears at the L-point (V=23.2 Å^3, P=122 GPa). Due to a degeneracy in the band structure, the hole ellipsoid at the L-point appears at the same pressure when the necks, situated at the symmetry-lines LH merge at L. The corresponding van Hove singularities in the DOS are very tiny and thus no anomalies in the elastic properties could be detected. Furthermore, we showed that the kink in c/a at 25 GPa and at 27 GPa found by Occelli et al. [Occelli et al., Phys. Rev. Lett. 93, 095502 (2004)] and Ma et al. [Ma et al., Phys. Rev. B 72, 174103 (2005)], respectively, is not statistically significant and that (c/a)(P) can be fitted equally well by a smooth function as by piece-wise linear functions as proposed in these references. / Das Ziel dieser Arbeit war es, Anomalien in den elastischen Eigenschaften zu finden, die durch topologische Änderungen der Fermifläche - genannt &quot;Lifschitz Übergänge&quot; - hervorgerufen werden. Lifschitz Übergänge sind ein interessantes Forschungsgebiet, denn die topologische Änderung der Fermifläche führt zu einer van Hove Singularität in der Zustandsdichte, die an der Fermienergie liegt und eine Anomalie in der freien Energie hervorruft und deswegen zu Anomalien in beobachtbaren physikalischen Größen führt. In allen Fällen kam die Frage auf, ob die entsprechenden van Hove Singularitäten groß genug sind, um mit heutigen Methoden meßbare und berechenbare Anomalien in den elastischen Eigenschaften zu verursachen. Die Daten wurden mit dem Computerprogramm FPLO (Full-Potential nonorthogonal Local-Orbital minimum-basis band-structure scheme) berechnet. Um die van Hove Singularitäten durch die Fermienergie zu schieben, verkleinerten wir das Volumen der Einheitszelle, um hydrostatischen Druck zu simulieren. Als zu untersuchende Stoffe wurden YCo5 und LaCo5 als Beispiele für magnetische Verbindungen gewählt und Osmium als Beispiel für ein nicht magnetisches Element. Im Falle von YCo5 fanden wir einen Lifschitz Übergang erster Ordnung. Hier springt ein besonders großer Peak im Spin-auf Teil der Zustandsdichte unter einem Druck von ca. 21 GPa über die Fermienergie. Dadurch werden die Spin-auf 3d Zustände teilweise unbesetzt und das magnetische Moment verringert sich um 35%. Deswegen kann man den Übergang als einen Übergang von starkem Ferromagnetismus zu schwachem Ferromagnetismus bezeichnen. Das Volumen verkleinert sich hierbei um 1.4%. Obwohl dieser Volumenkollaps isomorph ist, zeigt er folgende Anisotropie: während die Gitterkonstante in der hexagonalen Ebene mit zunehmendem Druck mehr oder weniger glatt kontrahiert, kollabiert am Übergangsdruck die Gitterkonstante in c-Richtung. Dieser Volumenkollaps wurde vom Experiment verifiziert. Analoge Rechnungen wurden für die Verbindung LaCo5, die isoelektronisch zu YCo5 ist, durchgeführt. Auch hier sagen wir einen Lifschitz Übergang erster Ordnung voraus, der bei einem Druck von ca. 23 GPa stattfinden wird. Der Mechanismus dieses Übergangs ist der selbe wie in YCo5. Wiederum finden wir einen Volumenkollaps unter Druck zusammen mit einer Verringerung des magnetischen Moments. Die relative Volumenänderung beträgt hier 1.3%. Wie in YCo5 verläuft hier die Kontraktion der Gitterkonstante in der hexagonalen Ebene mehr oder weniger glatt, während die Gitterkonstante in c-Richtung am Übergang kollabiert. Für LaCo5 existieren unseres Wissens hierzu noch keine Experimente. Im Falle von Osmium fanden wir drei Lifschitz Übergänge bei sehr hohen Drücken von ca. 72 GPa, 81 GPa, und 122 GPa. Zuerst bildet sich ein Lochellipsoid am Gamma-Punkt (V=24.6Å^3, P=72 GPa), dann bildet sich ein Hals an der Symmetrielinie LH (V=24.2Å^3, P=81 GPa), und zum Schluß erscheint ein Lochellipsoid am L-Punkt (V=23.2 Å^3, P=122 GPa). Auf Grund einer Entartung in der Bandstruktur taucht das Lochellipsoid am L-Punkt an dem Druck auf, an dem sich auch die Hälse auf der Symmetrielinie LH bei L verbinden. Die entsprechenden van Hove Singularitäten in der Zustandsdichte sind jedoch extrem klein und deswegen können keine Anomalien in den elastischen Eigenschaften detektiert werden. Desweiteren zeigten wir, daß der Knick in c/a, den Occelli et al. [Occelli et al., Phys. Rev. Lett. 93, 095502 (2004)] bei 25 GPa und Ma et al. [Ma et al., Phys. Rev. B 72, 174103 (2005)] bei 27 GPa fanden, statistisch nicht relevant ist und daß (c/a)(P) genauso gut von einer glatten Funktion gefittet wird als von stückweise linearen Funktionen. Density functional theory Fermi surface high pressure effects elasticity solid state phase transformations Dichtefunktionaltheorie Fermifläche Effekte bei hohem Druck Elastizität Phasenübergänge in Festkörpern ddc:530 rvk:UG 3800 Dichtefunktionalformalismus Fermi-Fläche Hochdruck Elastizität Phasenumwandlung Festkörper

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