Your search keyword '"Cavill, Stuart A."' showing total 45 results

1. Emergent half-metal with mixed structural order in (111)-oriented (LaMnO$_3$)$_{2n}$|(SrMnO$_3$)$_n$ superlattices

Author

Cossu, Fabrizio, Nascimento, Jùlio Alves Do, Cavill, Stuart A., Di Marco, Igor, Lazarov, Vlado K., and Kim, Heung-Sik

Subjects

Condensed Matter - Materials Science

Abstract

Using first-principles techniques, we study the structural, magnetic and electronic properties of (111)-oriented (LaMnO$_3$)$_{2n}$$\vert$(SrMnO$_3$)$_{n}$ superlattices of varying thickness ($n=2,4,6$). We find that the properties of the thinnest superlattice ($n=2$) are similar to the celebrated half-metallic ferromagnetic alloy La$_{2/3}$Sr$_{1/3}$MnO$_3$, with quenched Jahn-Teller distortions. At intermediate thickness ($n=4$), the $a^{-}a^{-}a^{-}$ tilting pattern transitions to the $a^{-}a^{-}c^{+}$ tilting pattern, driven by the lattice degrees of freedom in the LaMnO$_3$ region. The emergence of the Jahn-Teller modes and the spatial extent needed for their development play a key role in this structural transition. For the largest thickness considered ($n=6$), we unveil an emergent separation of Jahn-Teller and volume-breathing orders in the ground-state structure with the $a^{-}a^{-}c^{+}$ tilting pattern, whereas it vanishes in the antiferromagnetic configurations. The ground state of all superlattices is half-metallic ferromagnetic, not affected by the underlying series of structural transitions. Overall, these results outline a thickness-induced crossover between the physical properties of bulk La$_{2/3}$Sr$_{1/3}$MnO$_3$ and bulk LaMnO$_3$., Comment: 7 pages excluding references, 8 figures

Published

2023

2. Gate-Tunable Reversible Rashba-Edelstein Effect in a Few-Layer Graphene/2H-TaS2 Heterostructure at Room Temperature

Author

Li, Lijun, Zhang, Jin, Myeong, Gyuho, Shin, Wongil, Lim, Hongsik, Kim, Boram, Kim, Seungho, Jin, Taehyeok, Cavill, Stuart A., Kim, Beom Seo, Kim, Changyoung, Lischner, Johannes, Ferreira, Aires, and Cho, Sungjae

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

We report the observation of current-induced spin polarization, the Rashba-Edelstein effect (REE), and its Onsager reciprocal phenomenon, the spin galvanic effect (SGE), in a few-layer graphene/2H-TaS2 heterostructure at room temperature. Spin-sensitive electrical measurements unveil full spin-polarization reversal by an applied gate voltage. The observed gate-tunable charge-to-spin conversion is explained by the ideal work function mismatch between 2H-TaS2 and graphene, which allows strong interface-induced Bychkov-Rashba interaction with a spin-gap reaching 70 meV, while keeping the Dirac nature of the spectrum intact across electron and hole sectors. The reversible electrical generation and control of the nonequilibrium spin polarization vector, not previously observed in a nonmagnetic material, are elegant manifestations of emergent 2D Dirac fermions with robust spin-helical structure. Our experimental findings, supported by first-principles relativistic electronic structure and transport calculations, demonstrate a route to design low-power spin-logic circuits from layered materials., Comment: Main text (24 pages, 4 figures) + supplementary material (29 pages, 15 figures). Experimental data for Onsager-reciprocal effect (SGE) added. Title, abstract, main text, references and SM updated

Published

2019

3. Unambiguous Electrical Detection of Spin-Charge Conversion in Lateral Spin-Valves

Author

Cavill, Stuart A., Huang, Chunli, Offidani, Manuel, Lin, Yu-Hsuan, Cazalilla, Miguel A., and Ferreira, Aires

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

Efficient detection of spin-charge conversion is crucial for advancing our understanding of emergent phenomena in spin-orbit-coupled nanostructures. Here, we provide proof of principle of an electrical detection scheme of spin-charge conversion that enables full disentanglement of competing spin-orbit coupling transport phenomena in diffusive lateral channels i.e. the inverse spin Hall effect (ISHE) and the spin galvanic effect (SGE). A suitable detection geometry in an applied oblique magnetic field is shown to provide direct access to spin-charge transport coefficients through a simple symmetry analysis of the output non-local resistance. The scheme is robust against tilting of the spin-injector magnetization, disorder and spurious non-spin related contributions to the non-local signal, and can be used to probe spin-charge conversion effects in both spin-valve and hybrid optospintronic devices., Comment: 6 pages, 2 figures + supplementary information (2 pages, 3 figures). Improved theory accounting for a much wider class of lateral spin-valve devices. Readability has been improved to make work accessible to wider audience. Title, abstract, main text, references and SM updated accordingly

Published

2019

4. Emergent half-metal with mixed structural order in (111)-oriented (LaMnO3)2n|(SrMnO3)n superlattices

Author

Cossu, Fabrizio, Do Nascimento, Julio Alves, Cavill, Stuart A., Di Marco, Igor, Lazarov, Vlado K., Kim, Heung-Sik, Cossu, Fabrizio, Do Nascimento, Julio Alves, Cavill, Stuart A., Di Marco, Igor, Lazarov, Vlado K., and Kim, Heung-Sik

Abstract

Using first-principles techniques, we study the structural, magnetic, and electronic properties of (111)-oriented (LaMnO3)2n |(SrMnO3)n superlattices of varying thickness (n = 2, 4, 6). We find that the properties of the thinnest superlattice (n = 2) are similar to the celebrated half-metallic ferromagnetic alloy La2/3Sr1/3MnO3, with quenched Jahn-Teller distortions. At intermediate thickness (n = 4), the a-a-a- tilting pattern transitions to the a-a-c+ tilting pattern, driven by the lattice degrees of freedom in the LaMnO3 region. The emergence of the Jahn-Teller modes and the spatial extent needed for their development play a key role in this structural transition. For the largest thickness considered (n = 6), we unveil an emergent separation of Jahn-Teller and volume-breathing orders in the ground-state structure with the a-a-c+ tilting pattern, whereas it vanishes in the antiferromagnetic configurations. The ground state of all superlattices is half-metallic ferromagnetic, not affected by the underlying series of structural transitions. Overall, these results outline a thickness-induced crossover between the physical properties of bulk La2/3Sr1/3MnO3 and bulk LaMnO3.

Published

2024

5. Effect of annealing on the structure and magnetic properties of Co2FeAl0.5Si0.5 thin films on Ge(111)

Author

Achinuq, Barat, Love, Christopher, Kepaptsoglou, Demie, Nedelkoski, Zlatko, Yamada, Shinya, Ghasemi, Arsham, Ramasse, Quentin M., Hamaya, Kohei, Cavill, Stuart A., and Lazarov, Vlado K.

Published

2018

6. A phonon study of semiconductor tunnelling devices

Author

Cavill, Stuart Alan

Subjects

530.41, ELECTRON-PHONON COUPLING, SEMICONDUCTOR MATERIALS, TUNNEL EFFECT, TUNNEL DIODES, SUPERLATTICES, MAGNETIC FIELDS, TEMPERATURE DEPENDENCE, ELECTRIC CURRENTS

Published

2000

7. Photonic Characterisation of Indium Tin Oxide as a Function of Deposition Conditions

Author

Blair, Samuel F. J., primary, Male, Joshua S., additional, Cavill, Stuart A., additional, Reardon, Christopher P., additional, and Krauss, Thomas F., additional

Published

2023

8. Towards the In-situ Detection of Spin Charge Accumulation at a Metal/Insulator Interface Using STEM-EELS Technique

Author

El hajraoui, Khalil, primary, Kerrigan, Adam, additional, Morrison, Kelly, additional, Cavill, Stuart, additional, Lazarov, Vlado, additional, Ramasse, Quentin M, additional, and Kepaptsoglou, Demie, additional

Published

2022

9. Determining Atomic Structure of Grain Boundaries and Heterostructure Interfaces at Solid-State Electrode/Electrolyte Heterostructures in Lithium Based Oxides

Author

Murrill, Connor, primary, Cavill, Stuart, additional, El hajraoui, Khalil, additional, Kepaptsoglou, Demie, additional, Douthwaite, Richard, additional, and Lazarov, Vlado K, additional

Published

2022

10. Proposal for Unambiguous Electrical Detection of Spin-Charge Conversion in Lateral Spin Valves

Author

Cavill, Stuart Alan, Huang, Chunli, Offidani, Manuel, Lin, Yu-Hsuan, Cazalilla, Miguel A., and Ferreira, Aires

Subjects

Condensed Matter::Strongly Correlated Electrons

Abstract

Efficient detection of spin-charge conversion is crucial for advancing our understanding of emergent phenomena in spin-orbit-coupled nanostructures. Here, we provide a proof of principle of an electrical detection scheme of spin-charge conversion that enables full disentanglement of competing spin-orbit coupling (SOC) transport phenomena in diffusive lateral channels, i.e., the inverse spin Hall effect and the spin galvanic effect. A suitable geometry in an applied oblique magnetic field is shown to provide direct access to SOC transport coefficients through a symmetry analysis of the output nonlocal resistance. The scheme is robust against tilting of the spin-injector magnetization, disorder, and spurious non-spin-related contributions to the nonlocal signal and can be used to probe spin-charge conversion effects in both spin- valve and hybrid optospintronic devices.

Published

2020

11. “PREHABILITATION” - AN INNOVATIVE APPROACH TO PATIENT TREATMENT AND OUTCOMES IN ELECTIVE JOINT ARTHROPLASTY: O277

Author

McKeever, Janice, Munro, Adrienne, Brown, Ted, and Cavill, Stuart

Published

2013

12. Electrocatalytic Proton Reduction by a Cobalt(III) Hydride Complex with Phosphinopyridine PN Ligands

Author

Walaijai, Khanittha, primary, Cavill, Stuart A., additional, Whitwood, Adrian C., additional, Douthwaite, Richard E., additional, and Perutz, Robin N., additional

Published

2020

13. Proposal for Unambiguous Electrical Detection of Spin-Charge Conversion in Lateral Spin Valves

Author

Cavill, Stuart A., primary, Huang, Chunli, additional, Offidani, Manuel, additional, Lin, Yu-Hsuan, additional, Cazalilla, Miguel A., additional, and Ferreira, Aires, additional

Published

2020

14. Gate-Tunable Reversible Rashba–Edelstein Effect in a Few-Layer Graphene/2H-TaS2 Heterostructure at Room Temperature

Author

Li, Lijun, primary, Zhang, Jin, additional, Myeong, Gyuho, additional, Shin, Wongil, additional, Lim, Hongsik, additional, Kim, Boram, additional, Kim, Seungho, additional, Jin, Taehyeok, additional, Cavill, Stuart, additional, Kim, Beom Seo, additional, Kim, Changyoung, additional, Lischner, Johannes, additional, Ferreira, Aires, additional, and Cho, Sungjae, additional

Published

2020

15. Interface Engineered Room-Temperature Ferromagnetic Insulating State in Ultrathin Manganite Films

Author

Li, Weiwei, Zhu, Bonan, He, Qian, Borisevich, Albina Y, Yun, Chao, Wu, Rui, Lu, Ping, Qi, Zhimin, Wang, Qiang, Chen, Aiping, Wang, Haiyan, Cavill, Stuart A, Zhang, Kelvin HL, MacManus-Driscoll, Judith L, Li, Weiwei [0000-0001-5781-5401], and Apollo - University of Cambridge Repository

Subjects

Manganite Thin Films, Abo3 Perovskite Oxides, Interface Engineering, Ferromagnetic Insulators, Octahedral Proximity Effect

Abstract

Ultrathin epitaxial films of ferromagnetic insulators (FMIs) with Curie temperatures near room temperature are critically needed for use in dissipationless quantum computation and spintronic devices. However, such materials are extremely rare. Here, a room-temperature FMI is achieved in ultrathin La0.9Ba0.1MnO3 films grown on SrTiO3 substrates via an interface proximity effect. Detailed scanning transmission electron microscopy images clearly demonstrate that MnO6 octahedral rotations in La0.9Ba0.1MnO3 close to the interface are strongly suppressed. As determined from in situ X-ray photoemission spectroscopy, O K-edge X-ray absorption spectroscopy, and density functional theory, the realization of the FMI state arises from a reduction of Mn eg bandwidth caused by the quenched MnO6 octahedral rotations. The emerging FMI state in La0.9Ba0.1MnO3 together with necessary coherent interface achieved with the perovskite substrate gives very high potential for future high performance electronic devices.

Published

2019

16. Room temperature ferroelectric and magnetic investigations and detailed phase analysis of Aurivillius phase Bi5Ti3Fe0.7Co0.3O15 thin films.

Author

Keeney, Lynette, Kulkarni, Santosh, Deepak, Nitin, Schmidt, Michael, Petkov, Nikolay, Zhang, Panfeng F., Cavill, Stuart, Roy, Saibal, Pemble, Martyn E., and Whatmore, Roger W.

Subjects

FERROELECTRIC materials, FERROELECTRICITY, MAGNETICS, THIN film research, CHEMICAL solution deposition, TRANSMISSION electron microscopy

Abstract

Aurivillius phase Bi5Ti3Fe0.7Co0.3O15 (BTF7C3O) thin films on α-quartz substrates were fabricated by a chemical solution deposition method and the room temperature ferroelectric and magnetic properties of this candidate multiferroic were compared with those of thin films of Mn3+ substituted, Bi5Ti3Fe0.7Mn0.3O15 (BTF7M3O). Vertical and lateral piezoresponse force microscopy (PFM) measurements of the films conclusively demonstrate that BTF7C3O and BTF7M3O thin films are piezoelectric and ferroelectric at room temperature, with the major polarization vector in the lateral plane of the films. No net magnetization was observed for the in-plane superconducting quantum interference device (SQUID) magnetometry measurements of BTF7M3O thin films. In contrast, SQUID measurements of the BTF7C3O films clearly demonstrated ferromagnetic behavior, with a remanent magnetization, Br, of 6.37 emu/cm3 (or 804 memu/g), remanent moment = 4.99 × 10-5 emu. The BTF7C3O films were scrutinized by x-ray diffraction, high resolution transmission electron microscopy, scanning transmission electron microscopy, and energy dispersive x-ray analysis mapping to assess the prospect of the observed multiferroic properties being intrinsic to the main phase. The results of extensive micro-structural phase analysis demonstrated that the BTF7C3O films comprised of a 3.95% Fe/Co-rich spinel phase, likely CoFe2 - xTixO4, which would account for the observed magnetic moment in the films. Additionally, x-ray magnetic circular dichroism photoemission electron microscopy (XMCD-PEEM) imaging confirmed that the majority of magnetic response arises from the Fe sites of Fe/Co-rich spinel phase inclusions. While the magnetic contribution from the main phase could not be determined by the XMCD-PEEM images, these data however imply that the Bi5Ti3Fe0.7Co0.3O15 thin films are likely not single phase multiferroics at room temperature. The PFM results presented demonstrate that the naturally 2D nanostructured Bi5Ti3Fe0.7Co0.3O15 phase is a novel ferroelectric and has potential commercial applications in high temperature piezoelectric and ferroelectric memory technologies. The implications for the conclusive demonstration of ferroelectric and ferromagnetic properties in single-phase materials of this type are discussed. [ABSTRACT FROM AUTHOR]

Published

2012

17. Strain dependent defect mediated ferromagnetism in Mn-doped and undoped ZnO thin films.

Author

Schoofs, Frank, Fix, Thomas, Hakimi, Ali M. H. R., Dhesi, Sarnjeet S., Van der Laan, Gerrit, Cavill, Stuart A., Langridge, Sean, MacManus-Driscoll, Judith L., and Blamire, Mark G.

Subjects

MAGNETIC properties, ZINC oxide, THIN films, FERROMAGNETISM, DICHROISM

Abstract

The structural and magnetic properties of pulsed laser deposited zinc oxide thin films have been investigated. Room temperature ferromagnetism is present in undoped as well as Mn-doped films. The saturation magnetization of the thin films reveals a dependence on both the composition and the out of plane lattice parameter. X-ray magnetic circular dichroism down to 2 K reveals a purely paramagnetic contribution from the Mn in Mn:ZnO films. We conclude that the observed ferromagnetism arises entirely from intrinsic defects in the ZnO which can be varied by manipulation of the lattice parameter. [ABSTRACT FROM AUTHOR]

Published

2010

18. Anisotropic absorption of pure spin currents

Author

Baker, A. A., Figueroa, A. I., Love, Christopher, Cavill, Stuart Alan, Hesjedal, T, and van der Laan, G.

Subjects

Condensed Matter::Materials Science, Condensed Matter::Strongly Correlated Electrons

Abstract

Spin transfer in magnetic multilayers offers the possibility of ultrafast, low-power device operation. We report a study of spin pumping in spin valves, demonstrating that a strong anisotropy of spin pumping from the source layer can be induced by an angular dependence of the total Gilbert damping parameter, α, in the spin sink layer. Using lab- and synchrotron-based ferromagnetic resonance, we show that an in-plane variation of damping in a crystalline Co50Fe50 layer leads to an anisotropic α in a polycrystalline Ni81Fe19 layer. This anisotropy is suppressed above the spin diffusion length in Cr, which is found to be 8 nm, and is independent of static exchange coupling in the spin valve. These results offer a valuable insight into the transmission and absorption of spin currents, and a mechanism by which enhanced spin torques and angular control may be realized for next-generation spintronic devices.

Published

2016

19. Gate-Tunable Reversible Rashba–Edelstein Effect in a Few-Layer Graphene/2H-TaS2Heterostructure at Room Temperature

Author

Li, Lijun, Zhang, Jin, Myeong, Gyuho, Shin, Wongil, Lim, Hongsik, Kim, Boram, Kim, Seungho, Jin, Taehyeok, Cavill, Stuart, Kim, Beom Seo, Kim, Changyoung, Lischner, Johannes, Ferreira, Aires, and Cho, Sungjae

Abstract

We report the observation of current-induced spin polarization, the Rashba–Edelstein effect (REE), and its Onsager reciprocal phenomenon, the spin galvanic effect (SGE), in a few-layer graphene/2H-TaS2heterostructure at room temperature. Spin-sensitive electrical measurements unveil full spin-polarization reversal by an applied gate voltage. The observed gate-tunable charge-to-spin conversion is explained by the ideal work function mismatch between 2H-TaS2and graphene, which allows for a strong interface-induced Bychkov–Rashba interaction with a spin-gap reaching 70 meV, while keeping the Dirac nature of the spectrum intact across electron and hole sectors. The reversible electrical generation and control of the nonequilibrium spin polarization vector, not previously observed in a nonmagnetic material, are elegant manifestations of emergent two-dimensional Dirac Fermions with robust spin-helical structure. Our experimental findings, supported by first-principles relativistic electronic structure and transport calculations, demonstrate a route to design low-power spin–logic circuits from layered materials.

Published

2020

20. Holographic Magnetic Imaging of Single-Layer Nanocontact Spin-Transfer Oscillators

Author

Parra, Erick O. Burgos, Bukin, Nick, Dupraz, Maxime, Beutier, Guillaume, Sani, Sohrab Redjai, Popescu, Horia, Cavill, Stuart A., Åkerman, Johan, Jaouen, Nicolas, Keatley, Paul S., Hicken, Robert J., van der Laan, Gerrit, Ogrin, Feodor Y., Parra, Erick O. Burgos, Bukin, Nick, Dupraz, Maxime, Beutier, Guillaume, Sani, Sohrab Redjai, Popescu, Horia, Cavill, Stuart A., Åkerman, Johan, Jaouen, Nicolas, Keatley, Paul S., Hicken, Robert J., van der Laan, Gerrit, and Ogrin, Feodor Y.

Abstract

Time-averaged images of the magnetization within single-layer spin-transfer oscillators have been obtained using the holography with extended reference by autocorrelation linear differential operator technique. Transport measurements on a Pd(5)-Cu(20)-Ni81Fe19(7)-Cu(2)-Pd(2) (in nanometers) stack with a 100 nm diameter nanocontact reveal the presence of vortex dynamics. Magnetic images of the device for injected current values of 24 and -24 mA suggest that a vortex has been ejected from the nanocontact and become pinned at the edge of the region that is visible through the Au mask., QC 20160815

Published

2016

21. Holographic Magnetic Imaging of Single-Layer Nanocontact Spin-Transfer Oscillators

Author

Burgos Parra, Erick O., primary, Bukin, Nick, additional, Dupraz, Maxime, additional, Beutier, Guillaume, additional, Sani, Sohrab Redjai, additional, Popescu, Horia, additional, Cavill, Stuart A., additional, Akerman, Johan, additional, Jaouen, Nicolas, additional, Keatley, Paul S., additional, Hicken, Robert J., additional, van der Laan, Gerrit, additional, and Ogrin, Feodor Y., additional

Published

2016

22. Contributions from coherent and incoherent lattice excitations to ultrafast optical control of magnetic anisotropy of metallic films

Author

Kats, Vladimir N., additional, Linnik, Tatiana L., additional, Salasyuk, Alexey S., additional, Rushforth, Andrew W., additional, Wang, Mu, additional, Wadely, Peter, additional, Akimov, Andrey V., additional, Cavill, Stuart A., additional, Holý, Václav, additional, Kalashnikova, Alexandra M., additional, and Scherbakov, Alexey V., additional

Published

2016

23. The effect of prehabilitation on the range of motion and functional outcomes in patients following the total knee or hip arthroplasty: A pilot randomized trial

Author

Cavill, Stuart, primary, McKenzie, Kylie, additional, Munro, Adrienne, additional, McKeever, Janice, additional, Whelan, Lucy, additional, Biggs, Luke, additional, Skinner, Elizabeth H., additional, and Haines, Terry P., additional

Published

2016

24. The SteppingUp implementation optimisation trial. Final report

Author

Osborne, Richard, McCabe, Marita, Buchbinder, Rachelle, Dodson, Sarity, Batterham, Roy, Cavill, Stuart, Bentley, Sharon, McDonald, Geraldine, Osborne, Richard, McCabe, Marita, Buchbinder, Rachelle, Dodson, Sarity, Batterham, Roy, Cavill, Stuart, Bentley, Sharon, and McDonald, Geraldine

Published

2013

25. Stepping up: when arthritis or pain gets you down. Final report

Author

Ginifer, Yvonne, Trinder, Leanne, Osborne, Richard, McCabe, Marita, Buchbinder, Rachelle, Cavill, Stuart, Haymes, Sharon, Batterham, Roy, Dodson, Sarity, Ginifer, Yvonne, Trinder, Leanne, Osborne, Richard, McCabe, Marita, Buchbinder, Rachelle, Cavill, Stuart, Haymes, Sharon, Batterham, Roy, and Dodson, Sarity

Published

2011

26. Exchange Bias in Fe@Cr Core–Shell Nanoparticles

Author

Binns, Chris, primary, Qureshi, Muhammad T., additional, Peddis, Davide, additional, Baker, Stephen H., additional, Howes, Paul B., additional, Boatwright, Adrian, additional, Cavill, Stuart A., additional, Dhesi, Sarnjeet S., additional, Lari, Leonardo, additional, Kröger, Roland, additional, and Langridge, Sean, additional

Published

2013

27. Holographic imaging of interlayer coupling in Co/Pt/NiFe

Author

Duckworth, Thomas A, primary, Ogrin, Feodor Y, additional, Beutier, Guillaume, additional, Dhesi, Sarnjeet S, additional, Cavill, Stuart A, additional, Langridge, Sean, additional, Whiteside, Amy, additional, Moore, Thomas, additional, Dupraz, Maxime, additional, Yakhou, Flora, additional, and Laan, Gerrit van der, additional

Published

2013

28. Chromium nanostructures formed by dewetting of heteroepitaxial films on W(100)

Author

Bennett, Roger A., primary, Mulley, James S., additional, Etman, Haitham A., additional, Sparkes, Ailsa, additional, Eralp, Tugce, additional, Held, Georg, additional, Cavill, Stuart A., additional, and Dhesi, Sarnjeet S., additional

Published

2012

29. Magnetic-field-induced domain-wall motion in permalloy nanowires with modified Gilbert damping

Author

Moore, Thomas A., primary, Möhrke, Philipp, additional, Heyne, Lutz, additional, Kaldun, Andreas, additional, Kläui, Mathias, additional, Backes, Dirk, additional, Rhensius, Jan, additional, Heyderman, Laura J., additional, Thiele, Jan-Ulrich, additional, Woltersdorf, Georg, additional, Fraile Rodríguez, Arantxa, additional, Nolting, Frithjof, additional, Menteş, Tevfik O., additional, Niño, Miguel Á., additional, Locatelli, Andrea, additional, Potenza, Alessandro, additional, Marchetto, Helder, additional, Cavill, Stuart, additional, and Dhesi, Sarnjeet S., additional

Published

2010

30. Determination of Domain Wall Depinning and Driving Currents in Doped Permalloy Structures

Author

Lepadatu, Serban, primary, Claydon, Jill S., additional, Ciudad, David, additional, Kinane, Christy J., additional, Langridge, Sean, additional, Cavill, Stuart, additional, Dhesi, Sarnjeet S., additional, and Marrows, Christopher H., additional

Published

2010

31. I18 – the microfocus spectroscopy beamline at the Diamond Light Source

Author

Mosselmans, J. Frederick W., primary, Quinn, Paul D., additional, Dent, Andrew J., additional, Cavill, Stuart A., additional, Moreno, Sofia Diaz, additional, Peach, Andrew, additional, Leicester, Peter J., additional, Keylock, Stephen J., additional, Gregory, Simon R., additional, Atkinson, Kirk D., additional, and Rosell, Josep Roque, additional

Published

2009

32. Self-Assembled Metallic Nanowires on a Dielectric Support: Pd on Rutile TiO2(110)

Author

Humphrey, David S., primary, Cabailh, Gregory, additional, Pang, Chi L., additional, Muryn, Chris A., additional, Cavill, Stuart A., additional, Marchetto, Helder, additional, Potenza, Alessandro, additional, Dhesi, Sarnjeet S., additional, and Thornton, Geoff, additional

Published

2009

33. Contributions from coherent and incoherent lattice excitations to ultrafast optical control of magnetic anisotropy of metallic films

Author

Rafailov, Michael K., Mazur, Eric, Kats, Vladimir N., Linnik, Tatiana L., Salasyuk, Alexey S., Rushforth, Andrew W., Wang, Mu, Wadely, Peter, Akimov, Andrey V., Cavill, Stuart A., Holý, Václav, Kalashnikova, Alexandra M., and Scherbakov, Alexey V.

Published

2016

34. Interface Engineered Room‐Temperature Ferromagnetic Insulating State in Ultrathin Manganite Films.

Author

Li, Weiwei, Zhu, Bonan, He, Qian, Borisevich, Albina Y., Yun, Chao, Wu, Rui, Lu, Ping, Qi, Zhimin, Wang, Qiang, Chen, Aiping, Wang, Haiyan, Cavill, Stuart A., Zhang, Kelvin H. L., and MacManus‐Driscoll, Judith L.

Subjects

THIN films, MANGANITE, SCANNING transmission electron microscopy, PHOTOEMISSION, PHOTOELECTRON spectroscopy, QUANTUM computing, X-ray spectroscopy

Abstract

Ultrathin epitaxial films of ferromagnetic insulators (FMIs) with Curie temperatures near room temperature are critically needed for use in dissipationless quantum computation and spintronic devices. However, such materials are extremely rare. Here, a room‐temperature FMI is achieved in ultrathin La0.9Ba0.1MnO3 films grown on SrTiO3 substrates via an interface proximity effect. Detailed scanning transmission electron microscopy images clearly demonstrate that MnO6 octahedral rotations in La0.9Ba0.1MnO3 close to the interface are strongly suppressed. As determined from in situ X‐ray photoemission spectroscopy, O K‐edge X‐ray absorption spectroscopy, and density functional theory, the realization of the FMI state arises from a reduction of Mn eg bandwidth caused by the quenched MnO6 octahedral rotations. The emerging FMI state in La0.9Ba0.1MnO3 together with necessary coherent interface achieved with the perovskite substrate gives very high potential for future high performance electronic devices. [ABSTRACT FROM AUTHOR]

Published

2020

35. Magnetic X-ray spectroscopy and FMR spin-pumping studies of PLD amorphous YIG

Author

Cheshire, Daniel Matthew and Cavill, Stuart Alan

Abstract

In this thesis, the magnon diffusion length in amorphous YIG (a-YIG) has been studied in a series of YIG(45nm)/a-YIG/Pt(5nm) trilayer structures, fabricated on Gadolinium Gallium Garnet (GGG) substrates by pulsed laser deposition (PLD). VNA-FMR spectroscopy shows a large change in Gilbert damping with the addition of either Pt, or a-YIG plus Pt; indicating spin-pumping through the a-YIG spacer into the Pt. No significant enhancement in damping is observed when only a-YIG is grown on YIG for thicknesses between 0 and 30nm, without the Pt layer. As the thickness of the a-YIG layer is increased, the additional damping due to spin pumping into the Pt is reduced. The relationship between damping and a-YIG thickness resembles one described by diffusive magnon transport. However, a significantly longer magnon diffusion length of (16±2)nm for a-YIG is observed; approximately four times larger than that observed in previous spin-pumping studies. Additionally, spectroscopic magnetometry offered by XMCD has been performed on a series of a-YIG thin films to study magnetization at the two Fe3+ sites. The Fe environment near the surface of the amorphous material is shown to be different to that in the crystalline state. Atomic multiplet calculations using Cowan's ab initio Hartree-Fock method suggest a-YIG magnetism is 80% dominated by Oh-coordinated Fe species, compared to the crystalline YIG which approaches the expected Fe3+ Td:Oh ratio of 3:2, with no Fe2+. Ratios of Fe2+:Fe3+ in a-YIG could not be determined with certainty from fits of the XMCD by atomic multiplet calculations. Oh-dominated magnetism from a-YIG XMCD is shown to be weak and stable with thermal annealing, only changing significantly with recrystallisation of the YIG at 650°C, where Fe3+ Td dominates over Oh Fe species. Bulk-sensitive Fe K-edge XAS and XANES provides experimental evidence for a Fe3+/Fe ratio approaching 1 in both a-YIG and YIG films.

Published

2023

36. Contributions from coherent and incoherent lattice excitations to ultrafast optical control of magnetic anisotropy of metallic films

Author

Kats, Vladimir N., Linnik, Tatiana L., Salasyuk, Alexey S., Rushforth, Andrew W., Wang, Mu, Wadley, Peter, Akimov, Andrey V., Cavill, Stuart A., Holy, Vaclav, Kalashnikova, Alexandra M., Scherbakov, Alexey V., Kats, Vladimir N., Linnik, Tatiana L., Salasyuk, Alexey S., Rushforth, Andrew W., Wang, Mu, Wadley, Peter, Akimov, Andrey V., Cavill, Stuart A., Holy, Vaclav, Kalashnikova, Alexandra M., and Scherbakov, Alexey V.

Abstract

Spin-lattice coupling is one of the most prominent interactions mediating response of spin ensemble to ultrafast optical excitation. Here we exploit optically generated coherent and incoherent phonons to drive coherent spin dynamics, i.e. precession, in thin films of magnetostrictive metal Galfenol. We demonstrate unambiguously that coherent phonons, also seen as dynamical strain generated due to picosecond lattice temperature raise, give raise to magnetic anisotropy changes of the optically excited magnetic film; and this contribution may be comparable to or even dominate over the contribution from the temperature increase itself, considered as incoherent phonons.

37. Contributions from coherent and incoherent lattice excitations to ultrafast optical control of magnetic anisotropy of metallic films

Author

Kats, Vladimir N., Linnik, Tatiana L., Salasyuk, Alexey S., Rushforth, Andrew W., Wang, Mu, Wadley, Peter, Akimov, Andrey V., Cavill, Stuart A., Holy, Vaclav, Kalashnikova, Alexandra M., Scherbakov, Alexey V., Kats, Vladimir N., Linnik, Tatiana L., Salasyuk, Alexey S., Rushforth, Andrew W., Wang, Mu, Wadley, Peter, Akimov, Andrey V., Cavill, Stuart A., Holy, Vaclav, Kalashnikova, Alexandra M., and Scherbakov, Alexey V.

Abstract

Spin-lattice coupling is one of the most prominent interactions mediating response of spin ensemble to ultrafast optical excitation. Here we exploit optically generated coherent and incoherent phonons to drive coherent spin dynamics, i.e. precession, in thin films of magnetostrictive metal Galfenol. We demonstrate unambiguously that coherent phonons, also seen as dynamical strain generated due to picosecond lattice temperature raise, give raise to magnetic anisotropy changes of the optically excited magnetic film; and this contribution may be comparable to or even dominate over the contribution from the temperature increase itself, considered as incoherent phonons.

38. Contributions from coherent and incoherent lattice excitations to ultrafast optical control of magnetic anisotropy of metallic films

Author

Kats, Vladimir N., Linnik, Tatiana L., Salasyuk, Alexey S., Rushforth, Andrew W., Wang, Mu, Wadley, Peter, Akimov, Andrey V., Cavill, Stuart A., Holy, Vaclav, Kalashnikova, Alexandra M., Scherbakov, Alexey V., Kats, Vladimir N., Linnik, Tatiana L., Salasyuk, Alexey S., Rushforth, Andrew W., Wang, Mu, Wadley, Peter, Akimov, Andrey V., Cavill, Stuart A., Holy, Vaclav, Kalashnikova, Alexandra M., and Scherbakov, Alexey V.

Abstract

Spin-lattice coupling is one of the most prominent interactions mediating response of spin ensemble to ultrafast optical excitation. Here we exploit optically generated coherent and incoherent phonons to drive coherent spin dynamics, i.e. precession, in thin films of magnetostrictive metal Galfenol. We demonstrate unambiguously that coherent phonons, also seen as dynamical strain generated due to picosecond lattice temperature raise, give raise to magnetic anisotropy changes of the optically excited magnetic film; and this contribution may be comparable to or even dominate over the contribution from the temperature increase itself, considered as incoherent phonons.

39. Contributions from coherent and incoherent lattice excitations to ultrafast optical control of magnetic anisotropy of metallic films

Author

Kats, Vladimir N., Linnik, Tatiana L., Salasyuk, Alexey S., Rushforth, Andrew W., Wang, Mu, Wadley, Peter, Akimov, Andrey V., Cavill, Stuart A., Holy, Vaclav, Kalashnikova, Alexandra M., Scherbakov, Alexey V., Kats, Vladimir N., Linnik, Tatiana L., Salasyuk, Alexey S., Rushforth, Andrew W., Wang, Mu, Wadley, Peter, Akimov, Andrey V., Cavill, Stuart A., Holy, Vaclav, Kalashnikova, Alexandra M., and Scherbakov, Alexey V.

Abstract

Spin-lattice coupling is one of the most prominent interactions mediating response of spin ensemble to ultrafast optical excitation. Here we exploit optically generated coherent and incoherent phonons to drive coherent spin dynamics, i.e. precession, in thin films of magnetostrictive metal Galfenol. We demonstrate unambiguously that coherent phonons, also seen as dynamical strain generated due to picosecond lattice temperature raise, give raise to magnetic anisotropy changes of the optically excited magnetic film; and this contribution may be comparable to or even dominate over the contribution from the temperature increase itself, considered as incoherent phonons.

40. Evidence for non-collinear magnetic structure at low temperature in M-type hexaferrite

Author

Alsaqer, Ohoud and Cavill, Stuart

Abstract

The field of magnetoelectric (ME) multiferroics is driven by the promise of controlling magnetism using applied electric fields, offering the possibility of a new generation of ultra-low power devices. Among the few room temperature single-phase ME multiferroics reported, M-type hexaferrite shows potential for device applications as they exhibit a low field ME effect at room temperature. The observed magnetoelectric properties in Co-Ti doped strontium M-type hexaferrrite are associated with the presence of the non-collinear magnetic structure that induces an electric polarisation through the inverse Dzyaloshinskii-Moriya interaction. Many studies reported the presence of the non-collinear magnetic structure with different elements and substitution rates. Hence, the non-collinear magnetic structure is the key to understanding the magnteoelectric properties in M-type doped hexaferrrites. The work presented in this thesis had two main objectives. The first was to investigate the role of variation (Co-Ti) substitution in strontium ferrite polycrystalline hexaferrite on magnetic properties and their temperature dependence. The second was to characterise the structural and magnetic properties of doped strontium ferrite single crystal, where the substitution induced magnetic anisotropy changes from uniaxial to planar anisotropy. In addition, to investigate the role of the strain of doped strontium ferrite epitaxial thin films on magnetic properties. A spontaneous transition from a collinear ferrimagnetic structure to a noncollinear magnetic structure has been detected in temperature dependent magnetisation measurements. This transition temperature, Tp is sensitive to the substitution rate as well as the measuring field. XMCD analysis reveals that the spin orientation of the magnetic ions (Fe, Co) at specific site symmetries vary with the thickness of the thin film.

Published

2022

41. Correlating magnetic and structural properties of full Heusler Co2FeSi films

Author

Azaceta, Irene, Lazarov, Vlado, and Cavill, Stuart

Abstract

The half-metallic properties of Heusler alloys make them ideal spin injectors for numerous spintronic applications. In particular, Co2FeAl1−xSix alloys are very attractive for current perpendicular-to-plane giant magnetoresistance (CPP-GMR), tunnel magnetoresistance (TMR) and in lateral spin-valve (LSV) devices due to their high spin polarisation (SP) and high Curie temperature (Tc). However, half-metallicity can be significantly reduced due to structural disorder, defects or interfacial effects. The work in this thesis had two main objectives. The first was building a bespoke molecular beam epitaxy (MBE) system for the growth of Co2FeAl(1−x)Six Heusler films. The second, was optimizing the growth conditions for Co2FeSi (CFS) thin films on technologically relevant substrates, namely Si(111) and MgO(001). With that aim, the effect of stoichiometry and growth temperature on the structural and magnetic properties of CFS has been studied. The CFS films grown in this work exhibit properties comparable to those reported in the literature for high quality Heusler films used in spintronic devices. Lastly, the effect of a NiO overlayer on the magnetocrystalline anisotropy (MCA) of CFS is discussed. Non-annealed CFS films are partially L21 ordered when grown on Si(111). However, even at temperatures < 130C, interfacial effects switch the magnetic easy axis (EA) from [10-1] to [1-10] in CFS/Si(111). HAADF-STEM images suggest that the CFS/Si interface has suffered some changes although further studies are required to characterize them. Contrary to CFS/Si(111), the growth temperature has to be increased to 350C for CFS films to show some degree of L21 on MgO(001). Whereas uncapped CFS/MgO(001) exhibits a cubic MCA with Kc > 0, NiO-capped CFS/MgO(001) samples have a Kc < 0, which brings the EA along <110>.

Published

2021

42. Correlating magnetic damping and microstructure in "half metal" thin films

Author

Love, Christopher, Cavill, Stuart, and van der Laan, Gerrit

Subjects

530

Abstract

Highly spin-polarised materials show great promise in applied spintronics as spin-filters and spin transfer torque magnetic random-access memory devices for data storage. However, controllable magnetisation switching requires materials with a low Gilbert damping parameter and stable magnetic properties at room temperature. Two highly spin-polarised magnetic materials with critical temperatures well above room temperature are characterised using a series of structural and magnetic analysis techniques. Correlation between the magnetic damping and microstructure is observed in both Fe3O4 and Co2FeAl0.5Si0.5 samples and both are seen to improve structurally and show more favourable damping parameters with annealing. Annealing Fe3O4 in CO/CO2 is shown to reduce the antiphase boundary density and decrease the two-magnon scattering-like extrinsic damping effects. The quality of the sample structure and the stoichiometry is also seen to improve considerably after the annealing although the defects are not completely eliminated. An anomalous peak in the damping of the annealed film is observed at 10GHz Co2FeAl0.5Si0.5 grown on germanium and silicon substrates is seen to also improve with thermal annealing. The Gilbert damping is seen to be lower in the as-grown scheme using the silicon substrate but greater reduction of damping post-annealing is seen on germanium. In both cases the B2 order is observed in the Co2FeAl0.5Si0.5 thin films, and intermixing between the sample and substrate observed above 500oC is sufficient to disrupt the crystal structure and introduce significant extrinsic damping effects which increase the total damping. This prevents the Co2FeAl0.5Si0.5 from reaching the more desirable L21 structure.

Published

2018

43. Effect of annealing on the structure and magnetic properties of Co2FeAl0.5Si0.5 thin films on Ge(111).

Author

Kuerbanjiang, Balati, Love, Christopher, Kepaptsoglou, Demie, Nedelkoski, Zlatko, Yamada, Shinya, Ghasemi, Arsham, Ramasse, Quentin M., Hamaya, Kohei, Cavill, Stuart A., and Lazarov, Vlado K.

Subjects

*HEUSLER alloys, *CRYSTAL structure, *THIN films, *GERMANIUM compounds, *ANNEALING of crystals, *MAGNETIC properties, *EPITAXY

Abstract

We present a magnetic and structural properties study of epitaxially grown B 2-ordered full Heusler Co 2 FeSi 0.5 Al 0.5 single crystal films on Ge(111) substrates, as a function of annealing temperature. Hysteresis loop measurements reveal that the magnetic properties of Co 2 FeSi 0.5 Al 0.5 are stable up to 450 °C while ferromagnetic resonance linewidth measurements show a reduction of Gilbert damping from 5.6 × 10 −3 to 2.9 × 10 −3 for as-grown and annealed film, respectively. Above 500 °C, the films have increased coercivity, decreased saturation magnetisation, and show characteristic two-magnon scattering resonance line-shapes. Magnetic inhomogeneities developed within the film when annealed above 500 °C were correlated to significant interdiffusion at the film-substrate interface, as confirmed by scanning transmission electron microscopy and electron energy loss spectroscopy. By performing first-principles calculations based on atomistic models developed from atomically-resolved microscopy images, we show the magnetic moment of the Co 2 FeSi 0.5 Al 0.5 film reduces upon Co substitution by Ge atoms. [ABSTRACT FROM AUTHOR]

Published

2018

44. Room temperature ferroelectric and magnetic investigations and detailed phase analysis of Aurivillius phase Bi{sub 5}Ti{sub 3}Fe{sub 0.7}Co{sub 0.3}O{sub 15} thin films

Author

Cavill, Stuart [Diamond Light Source Ltd., Harwell Science and Innovation Campus, Didcot, Oxfordshire OX11 0DE (United Kingdom)]

Published

2012

45. Interface Engineered Room-Temperature Ferromagnetic Insulating State in Ultrathin Manganite Films.

Author

Li W, Zhu B, He Q, Borisevich AY, Yun C, Wu R, Lu P, Qi Z, Wang Q, Chen A, Wang H, Cavill SA, Zhang KHL, and MacManus-Driscoll JL

Abstract

Ultrathin epitaxial films of ferromagnetic insulators (FMIs) with Curie temperatures near room temperature are critically needed for use in dissipationless quantum computation and spintronic devices. However, such materials are extremely rare. Here, a room-temperature FMI is achieved in ultrathin La 0.9 Ba 0.1 MnO 3 films grown on SrTiO 3 substrates via an interface proximity effect. Detailed scanning transmission electron microscopy images clearly demonstrate that MnO 6 octahedral rotations in La 0.9 Ba 0.1 MnO 3 close to the interface are strongly suppressed. As determined from in situ X-ray photoemission spectroscopy, O K -edge X-ray absorption spectroscopy, and density functional theory, the realization of the FMI state arises from a reduction of Mn e g bandwidth caused by the quenched MnO 6 octahedral rotations. The emerging FMI state in La 0.9 Ba 0.1 MnO 3 together with necessary coherent interface achieved with the perovskite substrate gives very high potential for future high performance electronic devices., Competing Interests: The authors declare no conflict of interest., (© 2019 The Authors. Published by WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2019