Spectroscopic imaging STM study of the interplay between magnetism and superconductivity in iron-based superconductors

Aluru, Rama K. P.

January 2017

The discovery of high-temperature superconductivity in 1986 in copper-oxide materials have opened up new avenues to investigate new families of quantum materials that were previously not known. Understanding the mechanism of superconductivity in high-T[sub]c superconductors has been an important research theme in condensed matter physics, as it is believed to be essential to realize the next generation engineered materials that become superconducting at room temperature. Discovered in 2006, iron based superconductors are a new addition to the family of high-T[sub]c superconductors, these materials exhibit several interesting properties and show some vivid similarities with cuprates and other families of high-temperature superconductors. In this thesis, I will present the spin-polarized scanning tunneling microscopy (SPSTM) study carried out on the parent compound of iron chalcogenide high temperature superconductor Fe[sub](1+y)Te to investigate the bi-collinear antiferromagnetic order. Magnetic tips in this work are prepared using a novel preparation technique by picking up excess iron atoms and clusters of FeTe from the surface of the sample. Next, I will present the SP-STM results obtained in the spin glass phase of Fe[sub](1+y)SeₓTe₁₋ₓ visualizing the interplay between the short ranged bi-directional bi-collinear antiferromagnetic order and superconductivity at the atomic scale. In this thesis, I will also present the scanning tunneling microscopy and spectroscopy (STM/STS) study of the native and engineered defect bound states in the iron-pnictide superconductor LiFeAs. This study addresses the pairing symmetry of the superconducting order parameter and understanding of dip-hump features seen in STM spectra outside the superconducting gap in iron pnictide superconductor LiFeAs.

Magnetism and Superconductivity in Iron-based Superconductors as Probed by Nuclear Magnetic Resonance

Hammerath, Franziska

04 October 2012

Nuclear Magnetic Resonance (NMR) has been a fundamental player in the studies of superconducting materials for many decades. This local probe technique allows for the study of the static electronic properties as well as the low energy excitations of the electrons in the normal and the superconducting state. On that account it has also been widely applied to Fe-based superconductors from the very beginning of their discovery in February 2008. This dissertation comprises some of these very first NMR results, reflecting the unconventional nature of superconductivity and its strong link to magnetism in the investigated compounds LaO(1-x)F(x)FeAs and LiFeAs.

Festkörperphysik

NMR

Magnetismus

Supraleitung

Eisenarsenide

Hochtemperatur-Supraleiter

LaO(1-x)F(x)FeAs

LiFeAs

Condensed Matter Physics

NMR

Magnetism

Superconductivity

Iron-Arsenides

High Temperature Superconductors

LaO(1-x)F(x)FeAs

LiFeAs

ddc:530

ddc:539

rvk:UP 2200

rvk:UP 6000

rvk:UP 9400

Supraleitung

Magnetismus

Festkörper-NMR-Spektroskopie

Festkörperphysik

Pnictide

Magnetism and Superconductivity in Iron-based Superconductors as Probed by Nuclear Magnetic Resonance

Hammerath, Franziska

15 December 2011

Nuclear Magnetic Resonance (NMR) has been a fundamental player in the studies of superconducting materials for many decades. This local probe technique allows for the study of the static electronic properties as well as the low energy excitations of the electrons in the normal and the superconducting state. On that account it has also been widely applied to Fe-based superconductors from the very beginning of their discovery in February 2008. This dissertation comprises some of these very first NMR results, reflecting the unconventional nature of superconductivity and its strong link to magnetism in the investigated compounds LaO(1-x)F(x)FeAs and LiFeAs.:1. Introduction 2. Basic Principles of NMR 3. NMR in the Superconducting State 4. Iron-based Superconductors 5. Experimental Setup 6. NMR on LaO(1-x)F(x)FeAs in the Normal State 7. MR and NQR on LaO(1-x)F(x)FeAs in the Superconducting State 8. NMR and NQR on LiFeAs 9. Conclusions

info:eu-repo/classification/ddc/530

ddc:530

info:eu-repo/classification/ddc/539

ddc:539