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University of Exeter
College of Engineering, Mathematics and Physical Sciences
David G. Newman

David G. Newman
University of Exeter | UoE · College of Engineering, Mathematics and Physical Sciences

Doctor of Philosophy

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Publications

Unidirectional multipulse helicity-independent all-optical switching in [Ni/Pt] based synthetic ferrimagnets

Article

Full-text available

Apr 2024

Nickel-platinum-based synthetic ferrimagnets (SFi's) are highly tunable and rare-earth-free materials that allow ultrafast all optical control of magnetism to be explored. This study considers a SFi composed of a ferromagnetic [Ni/Pt] multilayer and a ferromagnetic Co layer, separated by an Ir layer that mediates an antiferromagnetic coupling. Heli...

FIG. 2. Illustration of the thin-film stack. Starting with the MgO(110)...

FIG. 3. XRR of the sample, revealing a high roughness. The solid lines...

FIG. 4. Out-of-plane ω-2θ XRD scan of the sample with Cu Kα radiation.

FIG. 5. In-plane φ-2θ χ scans with Cu Kα radiation and with (a) φ = 0...

FIG. 6. (a) Bright-field TEM image of the heterostructure, showing an...

Glancing-angle deposition of magnetic in-plane exchange springs

Article

Full-text available

Oct 2023

Magnetic exchange springs (ESs) are composed of exchange-coupled hard and soft magnetic layers, i.e., layers with high and low anisotropy, respectively. The moments in the soft layer can be wound up by applying an external field, which has to be smaller than the anisotropy field of the hard layer. Alternatively, an ES can be realized by biasing the...

All optical switching in transition metal synthetic ferrimagnetic multilayer systems with enhanced interlayer exchange coupling

Conference Paper

May 2023

Controlling in‐plane magnetic anisotropy of Co films on MgO substrates using glancing angle deposition

Article

Mar 2023

The ability to control the in‐plane magnetic anisotropy of a thin film is important for magnetic device applications. One way of accomplishing this task is by glancing angle deposition (GLAD). In this study, thin Co layers have been deposited using GLAD magnetron sputtering on MgO(001) and MgO(110) substrates. For Co films on MgO(001), the in‐plane...

Transition Metal Synthetic Ferrimagnets: Tunable Media for All-Optical Switching Driven by Nanoscale Spin Current

Article

Oct 2021

All-optical switching of magnetization has great potential for use in future ultrafast and energy efficient nanoscale magnetic storage devices. So far, research has been almost exclusively focused on rare-earth based materials, which limits device tunability and scalability. Here, we show that a perpendicularly magnetized synthetic ferrimagnet comp...

In-plane VNA-FMR $\left\vert {S}_{12}\right\vert $ results for (a)...

Out-of-plane VNA-FMR $\left\vert {S}_{12}\right\vert $ results for (a)...

In-plane XFMR results: (a) [Co(0.4)/Pt(0.9)]10/Py(50) at 2 GHz, and (b)...

Calculated angle θ of magnetization (a), (c), (e) and FMR frequency...

Out-of-plane VNA-FMR $\left\vert {S}_{12}\right\vert $ result for...

Canted standing spin-wave modes of Permalloy thin films observed by Ferromagnetic Resonance

Article

Full-text available

Feb 2021

Non-collinear spin structures in materials that combine perpendicular and in-plane magnetic anisotropies are of great technological interest for microwave and spin wave-assisted magnetization switching. [Co/Pt] multilayers are well-known perpendicular anisotropy materials that have the potential to pin the magnetization of a soft magnetic layer, su...

Optically and Microwave-Induced Magnetization Precession in [Co/ Pt]/NiFe Exchange Springs

Article

Full-text available

Nov 2020

Microwave and heat-assisted magnetic recordings are two competing technologies that have greatly increased the capacity of hard disk drives. The efficiency of the magnetic recording process can be further improved by employing non-collinear spin structures that combine perpendicular and in-plane magnetic anisotropy. Here, we investigate both microw...

Electrical Detection of DC Spin Current Propagation Through an Epitaxial Antiferromagnetic NiO Layer

Article

Jul 2020

A method for detecting dc spin current propagation through an epitaxial antiferromagnetic NiO layer is presented. Spin current is generated by spin pumping from an adjoining ferromagnetic layer and detected in a non-magnetic metallic layer by means of the inverse spin Hall effect. Comparison is made with a YIG/Pt bilayer where only the Pt layer is...

Coherent Transfer of Spin Angular Momentum by Evanescent Spin Waves within Antiferromagnetic NiO

Article

Full-text available

May 2020

Insulating antiferromagnets have recently emerged as efficient and robust conductors of spin current. Element-specific and phase-resolved x-ray ferromagnetic resonance has been used to probe the injection and transmission of ac spin current through thin epitaxial NiO(001) layers. The spin current is found to be mediated by coherent evanescent spin...

Coherent transfer of spin angular momentum by evanescent spin waves within antiferromagnetic NiO

Preprint

Dec 2019

Insulating antiferromagnets are efficient and robust conductors of spin current. To realise the full potential of these materials within spintronics, the outstanding challenges are to demonstrate scalability down to nanometric lengthscales and the transmission of coherent spin currents. Here, we report the coherent transfer of spin angular momentum...