Your search keyword '"Säubert, Steffen"' showing total 12 results

1. Evolution of the spin dynamics during freezing in the spin-glass Fe$_{x}$Cr$_{1-x}$

Author

Säubert, Steffen, Franz, Christian, Jochum, Johanna K., Benka, Georg, Bauer, Andreas, Shapiro, Stephen M., Böni, Peter, and Pfleiderer, Christian

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

In the iron--chromium system, Fe$_{x}$Cr$_{1-x}$, a wide dome of spin-glass behavior emerges when the ferromagnetism of iron is suppressed and the antiferromagnetism of chromium emerges as a function of increasing iron content $x$. As both, the high-temperature state and the characteristic cluster size vary as a function of $x$, different regimes of spin-glass behavior may be compared in a single, isostructural material system. Here, we report a study of the spin dynamics across the freezing process into the spin-glass state for different iron concentrations ($x = 0.145$, $0.175$, $0.21$) using Modulation of IntEnsity with Zero Effort (MIEZE) spectroscopy. In the parameter range studied, the relaxation process observed experimentally may be described well in terms of a stretched exponential. In the reentrant cluster-glass regime, $x = 0.145$, this behavior persists up to high temperatures. In comparison, in the superparamagnetic regime, $x = 0.175$ and $x = 0.21$, a single relaxation time at elevated temperatures is observed. For all samples studied, the spin relaxation exhibits a momentum dependence consistent with a power law, providing evidence of a dispersive character of the spin relaxation.

Published

2023

2. MIEZE Neutron Spin-Echo Spectroscopy of Strongly Correlated Electron Systems

Author

Franz, Christian, Säubert, Steffen, Wendl, Andreas, Haslbeck, Franz X., Soltwedel, Olaf, Jochum, Johanna K., Spitz, Leonie, Kindervater, Jonas, Bauer, Andreas, Böni, Peter, and Pfleiderer, Christian

Subjects

Condensed Matter - Strongly Correlated Electrons, Physics - Instrumentation and Detectors

Abstract

Recent progress in neutron spin-echo spectroscopy by means of longitudinal Modulation of IntEnsity with Zero Effort (MIEZE) is reviewed. Key technical characteristics are summarized which highlight that the parameter range accessible in momentum and energy, as well as its limitations, are extremely well understood and controlled. Typical experimental data comprising quasi-elastic and inelastic scattering are presented, featuring magneto-elastic coupling and crystal field excitations in Ho2Ti2O7, the skyrmion lattice to paramagnetic transition under applied magnetic field in MnSi, ferromagnetic criticality and spin waves in Fe. In addition bench marking studies of the molecular dynamics in H2O are reported. Taken together, the advantages of MIEZE spectroscopy in studies at small and intermediate momentum transfers comprise an exceptionally wide dynamic range of over seven orders of magnitude, the capability to perform straight forward studies on depolarizing samples or under depolarizing sample environments, as well as on incoherently scattering materials., Comment: 13 pages, 9 figures

Published

2021

3. The longitudinal neutron resonant spin echo spectrometer RESEDA

Author

Franz, Christian, Soltwedel, Olaf, Fuchs, Christian, Säubert, Steffen, Haslbeck, Franz, Wendl, Andreas, Jochum, Johanna K., Böni, Peter, and Pfleiderer, Christian

Subjects

Physics - Instrumentation and Detectors, Condensed Matter - Other Condensed Matter

Abstract

The instrumental layout and technical realisation of the neutron resonant spin echo (NRSE) spectrometer RESEDA at the Heinz Maier-Leibnitz Zentrum (MLZ) in Garching, Germany, is presented. RESEDA is based on a longitudinal field configuration, boosting both dynamic range and maximum resolution of the spectrometer compared to the conventional transverse layout. The resonant neutron spin echo technique enables the realisation of two complementary implementations: A longitudinal NRSE (LNRSE) option comparable to the classical neutron spin echo (NSE) method for highest energy resolution and large momentum transfers as well as a Modulation of Intensity with Zero Effort (MIEZE) option for depolarising samples or sample environments such as high magnetic fields, and strong incoherent scattering samples. With their outstanding dynamic range, exceeding nominally seven orders of magnitude, both options cover new fields for ultra-high resolution neutron spectroscopy in hard and soft condensed matter systems. In this paper the concept of RESEDA as well as the technical realisation along with reference measurements are reported., Comment: 12 pages, 9 figures

Published

2021

4. Interplay of itinerant magnetism and reentrant spin-glass behavior in Fe$_{x}$Cr$_{1-x}$

Author

Benka, Georg, Bauer, Andreas, Schmakat, Philipp, Säubert, Steffen, Seifert, Marc, Jorba, Pau, and Pfleiderer, Christian

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

When suppressing the itinerant antiferromagnetism in chromium by doping with the isostructual itinerant ferromagnet iron, a dome of spin-glass behavior emerges around a putative quantum critical point at an iron concentration $x \approx 0.15$. Here, we report a comprehensive investigation of polycrystalline samples of Fe$_{x}$Cr$_{1-x}$ in the range $0.05 \leq x \leq 0.30$ using x-ray powder diffraction, magnetization, ac susceptibility, and neutron depolarization measurements, complemented by specific heat and electrical resistivity data for $x = 0.15$. Besides antiferromagnetic ($x < 0.15$) and ferromagnetic regimes ($0.15 \leq x$), we identify a dome of reentrant spin-glass behavior at low temperatures for $0.10 \leq x \leq 0.25$ that is preceded by a precursor phenomenon. Neutron depolarization indicates an increase of the size of ferromagnetic clusters with increasing $x$ and the Mydosh parameter $\phi$, inferred from the ac susceptibility, implies a crossover from cluster-glass to superparamagnetic behavior. Taken together, these findings consistently identify Fe$_{x}$Cr$_{1-x}$ as an itinerant-electron system that permits to study the evolution of spin-glass behavior of gradually varying character in unchanged crystalline environment.

Published

2020

5. Dipolar effects on the critical fluctuations in Fe: Investigation by MIEZE

Author

Kindervater, Jonas, Säubert, Steffen, and Böni, Peter

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

Iron is one of the archetypical ferromagnets to study the critical fluctuations at a continuous phase transition thus serving as a model system for the application of scaling theory. We report a comprehensive study of the critical dynamics at the transition from the ferro- to the paramagnetic phase in Fe, employing the high-resolution neutron spin echo technique MIEZE. The results show that the dipolar interactions lead to an additional damping of the critical spin fluctuations at small momentum transfers $\bf q$. The results agree essentially with scaling theory if the dipolar interactions are taken into account by means of the mode-coupling equations. However, in contrast to expectations, the dipolar wavenumber $q_D$ that plays a central role in the scaling function $f(\kappa/q,q_D/\kappa)$ becomes temperature dependent. In the limit of small $\bf q$ the critical exponent $z$ crosses over from 2.5 to 2.0., Comment: 6 pages, 6 figures

Published

2016

6. Interplay of itinerant magnetism and spin-glass behavior in FexCr1−x

Author

Benka, Georg, primary, Bauer, Andreas, additional, Schmakat, Philipp, additional, Säubert, Steffen, additional, Seifert, Marc, additional, Jorba, Pau, additional, and Pfleiderer, Christian, additional

Published

2022

7. Experimentelle Studien ultralangsamer Magnetisierungsdynamiken

Author

Säubert, Steffen, Pfleiderer, Christian (Prof. Dr.), and Gross, Rudolf (Prof. Dr.)

Subjects

Physik, Ingenieurwissenschaften, ddc:530, ddc:620

Abstract

The present thesis reports the study of ultraslow magnetisation dynamics in the vicinity of magnetic phase transitions. Namely, low-temperature magnetisation processes in the pyrochlore oxide Yb2Ti2O7, spin wave excitations and dispersions in the archetypal ferromagnet iron, and spin relaxation processes in the spin-glass FexCr1-x. The spin dynamics in these systems were addressed by means of vibrating coil magnetometry and neutron resonance spin echo spectroscopy. Die vorliegende Arbeit behandelt ultra-langsame Magnetisierungsdynamiken an magnetischen Phasenübergängen. Erforscht wurden Magnetisierungsprozesse im Pyrochloroxid Yb2Ti2O7 bei tiefen Temperaturen, Anregungen und Dispersionen von Spinwellen im Ferromagneten Eisen, sowie Spinrelaxationsprozesse im Spinglas FexCr1-x. Die Spin Dynamiken in diesen Systemen wurden mittels Spulenvibrationsmagnetometrie und Neutronen Resonanz Spin Echo Spektroskopie untersucht.

Published

2018

8. MIEZE Neutron Spin-Echo Spectroscopy of Strongly Correlated Electron Systems

Author

Franz, Christian, primary, Säubert, Steffen, additional, Wendl, Andreas, additional, Haslbeck, Franz X., additional, Soltwedel, Olaf, additional, Jochum, Johanna K., additional, Spitz, Leonie, additional, Kindervater, Jonas, additional, Bauer, Andreas, additional, Böni, Peter, additional, and Pfleiderer, Christian, additional

Published

2019

9. Experimental Studies of Ultraslow Magnetisation Dynamics

Author

Gross, Rudolf (Prof. Dr.), Pfleiderer, Christian (Prof. Dr.), Säubert, Steffen, Gross, Rudolf (Prof. Dr.), Pfleiderer, Christian (Prof. Dr.), and Säubert, Steffen

Abstract

The present thesis reports the study of ultraslow magnetisation dynamics in the vicinity of magnetic phase transitions. Namely, low-temperature magnetisation processes in the pyrochlore oxide Yb2Ti2O7, spin wave excitations and dispersions in the archetypal ferromagnet iron, and spin relaxation processes in the spin-glass FexCr1-x. The spin dynamics in these systems were addressed by means of vibrating coil magnetometry and neutron resonance spin echo spectroscopy., Die vorliegende Arbeit behandelt ultra-langsame Magnetisierungsdynamiken an magnetischen Phasenübergängen. Erforscht wurden Magnetisierungsprozesse im Pyrochloroxid Yb2Ti2O7 bei tiefen Temperaturen, Anregungen und Dispersionen von Spinwellen im Ferromagneten Eisen, sowie Spinrelaxationsprozesse im Spinglas FexCr1-x. Die Spin Dynamiken in diesen Systemen wurden mittels Spulenvibrationsmagnetometrie und Neutronen Resonanz Spin Echo Spektroskopie untersucht.

Published

2018

10. Experimental Studies of Ultraslow Magnetisation Dynamics

Author

Pfleiderer, Christian (Prof. Dr.), Pfleiderer, Christian (Prof. Dr.);Gross, Rudolf (Prof. Dr.), Säubert, Steffen, Pfleiderer, Christian (Prof. Dr.), Pfleiderer, Christian (Prof. Dr.);Gross, Rudolf (Prof. Dr.), and Säubert, Steffen

Abstract

The present thesis reports the study of ultraslow magnetisation dynamics in the vicinity of magnetic phase transitions. Namely, low-temperature magnetisation processes in the pyrochlore oxide Yb2Ti2O7, spin wave excitations and dispersions in the archetypal ferromagnet iron, and spin relaxation processes in the spin-glass FexCr1-x. The spin dynamics in these systems were addressed by means of vibrating coil magnetometry and neutron resonance spin echo spectroscopy., Die vorliegende Arbeit behandelt ultra-langsame Magnetisierungsdynamiken an magnetischen Phasenübergängen. Erforscht wurden Magnetisierungsprozesse im Pyrochloroxid Yb2Ti2O7 bei tiefen Temperaturen, Anregungen und Dispersionen von Spinwellen im Ferromagneten Eisen, sowie Spinrelaxationsprozesse im Spinglas FexCr1-x. Die Spin Dynamiken in diesen Systemen wurden mittels Spulenvibrationsmagnetometrie und Neutronen Resonanz Spin Echo Spektroskopie untersucht.

Published

2018

11. Neutron and hard X-ray diffraction studies of the isothermal transformation kinetics in the research reactor fuel candidate U–8 wt%Mo

Author

Säubert, Steffen, primary, Jungwirth, Rainer, additional, Zweifel, Tobias, additional, Hofmann, Michael, additional, Hoelzel, Markus, additional, and Petry, Winfried, additional

Published

2016

12. Interplay of itinerant magnetism and spin-glass behavior in Fe x Cr 1 − x

Author

Benka, Georg, Bauer, Andreas, Schmakat, Philipp, Säubert, Steffen, Seifert, Marc, Jorba, Pau, and Pfleiderer, Christian