Angle-resolved photoemission spectroscopy study of spin fluctuations in the cuprate superconductors / Francisco Restrepo.
Restrepo, Francisco.
2022
QC611.98.H54
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Title Angle-resolved photoemission spectroscopy study of spin fluctuations in the cuprate superconductors / Francisco Restrepo.
Author Restrepo, Francisco.
ISBN 9783031109799 (electronic bk.)
3031109791 (electronic bk.)
9783031109782
3031109783
DOI https://doi.org/10.1007/978-3-031-10979-9
Publication Details Cham : Springer, 2022.
Language English
Description 1 online resource (113 p.).
Item Number 10.1007/978-3-031-10979-9 doi
Call Number QC611.98.H54
Dewey Decimal Classification 543.6/23
Summary This thesis makes significant advances towards an understanding of superconductivity in the cuprate family of unconventional, high-temperature superconductors. Even though the high-temperature superconductors were discovered over 35 years ago, there is not yet a general consensus on an acceptable theory of superconductivity in these materials. One of the early proposals suggested that collective magnetic excitations of the conduction electrons could lead them to form pairs, which in turn condense to form the superconducting state at a critical temperature Tc. Quantitative calculations of Tc using experimental data were, however, not available to verify the applicability of this magnetic mechanism. In this thesis, the author constructed an angle-resolved photoemission apparatus that could provide sufficiently accurate data of the electronic excitation spectra of samples in the normal state, data which was furthermore unusually devoid of any surface contamination. The author also applied the Bethe-Salpeter method to his uncommonly pristine and precise normal state data, and was able to predict the approximate superconducting transition temperatures of different samples. This rare combination of experiment with sophisticated theoretical calculations leads to the conclusion that antiferromagnetic correlations are a viable candidate for the pairing interaction in the cuprate superconductors.
Note "Doctoral Thesis accepted by the University of Illinois at Chicago, USA."
Bibliography, etc. Note Includes bibliographical references.
Access Note Access limited to authorized users.
Source of Description Online resource; title from PDF title page (SpringerLink, viewed September 26, 2022).
Series Springer theses.
Available in Other Form Angle-Resolved Photoemission Spectroscopy Study of Spin Fluctuations in the Cuprate Superconductors
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Intro
Supervisor's Foreword
Acknowledgments
Parts of This Thesis Have Been Published in the Following Journal Article
Contents
1 Introduction
References
2 Superconductivity and the Cuprates
2.1 BCS Superconductivity
2.2 Chemistry and Electronic Structure of the Undoped Cuprates
2.3 Cuprate Phase Diagram: Superconductivity and the Pseudogap
2.4 Magnetism in the Cuprates and Superconductivity
References
3 Angle-Resolved Photoemission Spectroscopy
3.1 Basic Description
3.2 Limitations
3.3 Conservation Laws
3.4 The Spectral Function

3.5 Alternative Ways of Viewing Photoemission Data
References
4 Experimental Details
4.1 System Overview
4.2 System Bakeout
4.3 Sample Manipulator
4.4 The Helium Lamp
4.4.1 Principles of Operation
4.4.2 Glow Discharge in the UVS 300 Model
4.4.3 Basic Notions on the Helium Spectrum
4.4.4 The Duoplasmatron
4.4.5 Modifications to the UVS 300 Lamp
4.5 Sample Preparation
4.6 System Characterization
4.6.1 Flux
4.6.2 Energy Resolution
4.6.3 Sample ``Aging''
References
5 Results
5.1 ARPES Data and the Spectral Function

5.2 The Bare and Interacting Spin Susceptibilities in RealFrequencies
5.3 Solving the BSE in Matsubara Frequencies
5.4 Uncertainties in the Eigenvalues
5.5 The Coupling Energies U and U0
References
6 Conclusions
References
A Solution of the Bethe-Salpeter Equation
A.1 Fourier Techniques for Convolution Sums
A.2 The Power Method
A.3 Simple Tests of the Algorithm for the BSE
References
B Alternative Estimate of the Spin-Fermion Coupling from the Single-Particle Self-energy
References
C Additional Results for the OP91 Sample
Reference

D The Anomalous Green's Function
References

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