Your search keyword '"E E Fullerton"' showing total 7 results

1. The fluctuation-dissipation measurement instrument at the Linac Coherent Light Source

Author

T. A. Assefa, M. H. Seaberg, A. H. Reid, L. Shen, V. Esposito, G. L. Dakovski, W. Schlotter, B. Holladay, R. Streubel, S. A. Montoya, P. Hart, K. Nakahara, S. Moeller, S. D. Kevan, P. Fischer, E. E. Fullerton, W. Colocho, A. Lutman, F.-J. Decker, S. K. Sinha, S. Roy, E. Blackburn, and J. J. Turner

Subjects

Instrumentation

Abstract

The development of new modes at x-ray free electron lasers has inspired novel methods for studying fluctuations at different energies and timescales. For closely spaced x-ray pulses that can be varied on ultrafast time scales, we have constructed a pair of advanced instruments to conduct studies targeting quantum materials. We first describe a prototype instrument built to test the proof-of-principle of resonant magnetic scattering using ultrafast pulse pairs. This is followed by a description of a new endstation, the so-called fluctuation–dissipation measurement instrument, which was used to carry out studies with a fast area detector. In addition, we describe various types of diagnostics for single-shot contrast measurements, which can be used to normalize data on a pulse-by-pulse basis and calibrate pulse amplitude ratios, both of which are important for the study of fluctuations in materials. Furthermore, we present some new results using the instrument that demonstrates access to higher momentum resolution.

Published

2022

2. Discretized evolution of solitons in the achiral stripe phase of a Fe/Gd thin film

Author

A. Singh, M. K. Sanyal, J. C. T. Lee, J. J. Chess, R. Streubel, S. A. Montoya, M. K. Mukhopadhyay, B. J. McMorran, E. E. Fullerton, P. Fischer, S. D. Kevan, and S. Roy

Subjects

Engineering, Fluids & Plasmas, Physical Sciences, Chemical Sciences, Condensed Matter::Strongly Correlated Electrons, Nonlinear Sciences::Pattern Formation and Solitons

Abstract

Understanding magnetic phase transitions from stripe to skyrmion textures provide fundamental scientific insights into the details of the intermediate topologies through which the system evolves. The solitonic nature of spin texture in both stripe and skyrmion phases has been observed in materials with Dzyaloshinskii-Moriya interaction. Here we show that the field evolution in a dipolar interaction mediated Fe/Gd multilayer that exhibits achiral stripe textures behaves similar to a finite-sized chiral soliton lattice. As a function of magnetic field, the stripes exhibit discrete jumps in periodicity indicative of intermediate topologies as the stripes get wound into skyrmions.

Published

2022

3. Ultrafast kinetics of the antiferromagnetic-ferromagnetic phase transition in FeRh

Author

G. Li, R. Medapalli, J. H. Mentink, R. V. Mikhaylovskiy, T. G. H. Blank, S. K. K. Patel, A. K. Zvezdin, Th. Rasing, E. E. Fullerton, and A. V. Kimel

Subjects

Ultrafast Spectroscopy of Correlated Materials, Condensed Matter - Materials Science, Multidisciplinary, Condensed Matter - Mesoscale and Nanoscale Physics, Spectroscopy of Solids and Interfaces, Mesoscale and Nanoscale Physics (cond-mat.mes-hall), General Physics and Astronomy, Materials Science (cond-mat.mtrl-sci), FOS: Physical sciences, Physics::Optics, Condensed Matter::Strongly Correlated Electrons, General Chemistry, General Biochemistry, Genetics and Molecular Biology

Abstract

Understanding how fast short-range interactions build up long-range order is one of the most intriguing topics in condensed matter physics. FeRh is a test specimen for studying this problem in magnetism, where the microscopic spin-spin exchange interaction is ultimately responsible for either ferro- or antiferromagnetic macroscopic order. Femtosecond laser excitation can induce ferromagnetism in antiferromagnetic FeRh, but the mechanism and dynamics of this transition are topics of intense debates. Employing double-pump THz emission spectroscopy has enabled us to dramatically increase the temporal detection window of THz emission probes of transient states without sacrificing any loss of resolution or sensitivity. It allows us to study the kinetics of emergent ferromagnetism from the femtosecond up to the nanosecond timescales in FeRh/Pt bilayers. Our results strongly suggest a latency period between the initial pump-excitation and the emission of THz radiation by ferromagnetic nuclei., 35 pages total, 8 figures in main text, 7 figures in supplementary

Published

2022

4. Ultrafast kinetics of the antiferromagnetic-ferromagnetic phase transition in FeRh

Author

G, Li, R, Medapalli, J H, Mentink, R V, Mikhaylovskiy, T G H, Blank, S K K, Patel, A K, Zvezdin, Th, Rasing, E E, Fullerton, and A V, Kimel

Abstract

Understanding how fast short-range interactions build up long-range order is one of the most intriguing topics in condensed matter physics. FeRh is a test specimen for studying this problem in magnetism, where the microscopic spin-spin exchange interaction is ultimately responsible for either ferro- or antiferromagnetic macroscopic order. Femtosecond laser excitation can induce ferromagnetism in antiferromagnetic FeRh, but the mechanism and dynamics of this transition are topics of intense debates. Employing double-pump THz emission spectroscopy has enabled us to dramatically increase the temporal detection window of THz emission probes of transient states without sacrificing any loss of resolution or sensitivity. It allows us to study the kinetics of emergent ferromagnetism from the femtosecond up to the nanosecond timescales in FeRh/Pt bilayers. Our results strongly suggest a latency period between the initial pump-excitation and the emission of THz radiation by ferromagnetic nuclei.

Published

2021

5. Micro-structuration effects on local magneto-transport in [Co/Pd]IrMn thin films

Author

C. Walker, M. Parkes, C. Olsson, D. Keavney, E. E. Fullerton, and K. Chesnel

Subjects

Condensed Matter - Materials Science, Materials Science (cond-mat.mtrl-sci), FOS: Physical sciences, General Physics and Astronomy, Applied Physics (physics.app-ph), Physics - Applied Physics

Abstract

We measured the local magneto-transport (MT) signal with an out-of-plane magnetic field, including magneto-resistance (MR) and Extraordinary Hall effect (EHE), in exchange-biased [Co/Pd]IrMn thin multilayers that are micro-structured with a 100 μm window. We found that when measured locally around the window, the MT signal deviate from the expected behavior. We studied possible causes, including film micro-structuration, electrical contact geometry as well as magnetic field angular tilt. We found that tilting the magnetic field direction with respect to the normal direction does not significantly affect the MT signal, whereas the positioning and geometry of the contacts seem to highly affect the MT signal. For comparison purposes, we carried these MT measurements using the Van-der-Pauw method on a set of four microscopic contacts directly surrounding the window, and on another set of micro-contacts located outside the window, as well as a set of four contacts positioned several millimeters away of each other at the corners of the wafer. If the contacts are sufficiently far apart, the EHE and MR signals have the expected shape and are not significantly affected by the presence of the window. If, on the other hand, the contacts are micro-positioned, the shape of the EHE signal is drastically deformed, and may be modeled as a mix of the standard EHE and MR signals measured on the outer contacts. Furthermore, if the micro-contacts are located directly around the window, the deformation is amplified, and the weight of the MR signal in the mix is further increased by about 40 %. This suggests that the electron path in the Hall geometry is disturbed by both the proximity of the electrodes and by the presence of the window, which both contribute to the deformation for about two-third and one third, respectively.

Published

2022

6. Epitaxial hard-soft magnetic heterostructures as model exchange-spring magnets

Author

J. S. Jiang, E. E. Fullerton, M. Grims

Subjects

General Chemical Engineering, General Physics and Astronomy

Published

2000

7. Advances in Nanomagnetism via X-Ray Techniques

Author

G. Srajer, L. H. Lewis, S. D. Bader, A. J. Epstein, C. S. Fadley, E. E. Fullerton, A. Hoffmann, J. B. Kortright, Kannan M. Krishnan, S. A. Majetich, and et al. et al.

Subjects

Chemistry, X-ray, Nanotechnology, General Medicine

Published

2007