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1. Vertically Graded FeNi Alloys with Low Damping and a Sizeable Spin-Orbit Torque

Author

Maizel, Rachel E., Wu, Shuang, Balakrishnan, Purnima P., Grutter, Alexander J., Kinane, Christy J., Caruana, Andrew J., Nakarmi, Prabandha, Nepal, Bhuwan, Smith, David A., Lim, Youngmin, Jones, Julia L., Thomas, Wyatt C., Zhao, Jing, Michel, F. Marc, Mewes, Tim, and Emori, Satoru

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Energy-efficient spintronic devices require a large spin-orbit torque (SOT) and low damping to excite magnetic precession. In conventional devices with heavy-metal/ferromagnet bilayers, reducing the ferromagnet thickness to $\sim$1 nm enhances the SOT but dramatically increases damping. Here, we investigate an alternative approach based on a 10 nm thick single-layer ferromagnet to attain both low damping and a sizable SOT. Instead of relying on a single interface, we continuously break the bulk inversion symmetry with a vertical compositional gradient of two ferromagnetic elements: Fe with low intrinsic damping and Ni with sizable spin-orbit coupling. We find low effective damping parameters of $\alpha_\mathrm{eff} < 5\times10^{-3}$ in the FeNi alloy films, despite the steep compositional gradients. Moreover, we reveal a sizable anti-damping SOT efficiency of $\theta_\mathrm{AD} \approx 0.05$, even without an intentional compositional gradient. Through depth-resolved x-ray diffraction, we identify a lattice strain gradient as crucial symmetry breaking that underpins the SOT. Our findings provide fresh insights into damping and SOTs in single-layer ferromagnets for power-efficient spintronic devices.

Published
2024

2. Electrical switching of the perpendicular Neel order in a collinear antiferromagnet

Author

He, Wenqing, Zhang, Tianyi, Zhou, Yongjian, Wan, Caihua, Wu, Hao, Cui, Baoshan, Xia, Jihao, Zhang, Ran, Guo, Tengyu, Chen, Peng, Zhao, Mingkun, Jiang, Leina, Grutter, Alexander, Balakrishnan, Purnima P., Caruana, Andrew J., Kinane, Christy J., Langridge, Sean, Yu, Guoqiang, Song, Cheng, and Han, Xiufeng

Subjects
Physics - Applied Physics
Abstract

Electrical manipulation of magnetic order by current-induced spin torques lays the foundation for spintronics. One promising approach is encoding information in the N\'eel vector of antiferromagnetic (AFM) materials, particularly to collinear antiferromagnets with the perpendicular magnetic anisotropy (PMA), as the negligible stray fields and terahertz spin dynamics can enable memory devices with higher integration density and ultrafast speed. Here we demonstrate that the N\'eel order information in a prototypical collinear AFM insulator with PMA, Cr2O3, can be reliably readout via the anomalous Hall effect and efficiently switched by the spin-orbit torque (SOT) effect with a low current density of 5.8*106 A/cm2. Moreover, using Cr2O3 as a mediator, we electrically switch the magnetization of a Y3Fe5O12 film exchange-coupled to the Cr2O3 layer, unambiguously confirming the N\'eel order switching of the Cr2O3 layer. This work provides a significant basis for developing AFM memory devices based on collinear AFM materials with PMA.

Published
2024

4. Advice on describing Bayesian analysis of neutron and X-ray reflectometry

Author

McCluskey, Andrew R., Caruana, Andrew J., Kinane, Christy J., Armstrong, Alexander J., Arnold, Tom, Cooper, Joshaniel F. K., Cortie, David L., Hughes, Arwel V., Moulin, Jean-François, Nelson, Andrew R. J., Potrzebowski, Wojciech, and Straostin, Vladimir

Subjects
Statistics - Applications, Condensed Matter - Materials Science, Condensed Matter - Soft Condensed Matter
Abstract

Driven by the availability of modern software and hardware, Bayesian analysis is becoming more popular in neutron and X-ray reflectometry analysis. The understandability and replicability of these analyses may be harmed by inconsistencies in how the probability distributions central to Bayesian methods are represented in the literature. Herein, we provide advice on how to report the results of Bayesian analysis as applied to neutron and X-ray reflectometry. This includes the clear reporting of initial starting conditions, the prior probabilities, and results of any analysis, and the posterior probabilities that are the Bayesian equivalent of the error bar, to enable replicability and improve understanding. We believe that this advice, grounded in our experience working in the field, will enable greater analytical reproducibility among the reflectometry community, as well as improve the quality and usability of results.

Published
2022
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5. Tailoring Magnetic Exchange Interactions in Ferromagnet-Intercalated MnBi2Te4 Superlattices

Author

Chen, Peng, Yao, Qi, Sun, Qiang, Grutter, Alexander J., Quarterman, P., Balakrishnan, Purnima P., Kinane, Christy J., Caruana, Andrew J., Langridge, Sean, Cui, Baoshan, Li, Lun, Ji, Yuchen, Zhang, Yong, Liu, Zhongkai, Zou, Jin, Yu, Guoqiang, Yang, Yumeng, and Kou, Xufeng

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The intrinsic magnetic topological insulator MnBi2Te4 (MBT) has provided a platform for the successful realization of exotic quantum phenomena. To broaden the horizons of MBT-based material systems, we intercalate ferromagnetic MnTe layers to construct the [(MBT)(MnTe)m]N superlattices by molecular beam epitaxy. The effective incorporation of ferromagnetic spacers mediates the anti-ferromagnetic interlayer coupling among the MBT layers through the exchange spring effect at the MBT/MnTe hetero-interfaces. Moreover, the precise control of the MnTe thickness enables the modulation of relative strengths among the constituent magnetic orders, leading to tunable magnetoelectric responses, while the superlattice periodicity serves as an additional tuning parameter to tailor the spin configurations of the synthesized multi-layers. Our results demonstrate the advantages of superlattice engineering for optimizing the magnetic interactions in MBT-family systems, and the ferromagnet-intercalated strategy opens up new avenues in magnetic topological insulator structural design and spintronic applications., Comment: 20 pages, 5 figures

Published
2021
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6. Study of magnetic interface and its effect in Fe/NiFe bilayers of alternating order

Author

Nayak, Sagarika, Das, Sudhansu Sekhar, Singh, Braj Bhusan, Charlton, Timothy R., Kinane, Christy J., and Bedanta, Subhankar

Subjects
Condensed Matter - Materials Science
Abstract

We present a comprehensive study on the magnetization reversal in Fe/NiFe bilayer system by alternating the order of the magnetic layers. All the samples show growth-induced uniaxial magnetic anisotropy due to oblique angle deposition technique. Strong interfacial exchange coupling between the Fe and NiFe layers leads to the single-phase hysteresis loops in the bilayer system. The strength of coupling being dependent on the interface changes upon alternating the order of magnetic layers. The magnetic parameters such as coercivity HC, and anisotropy field HK become almost doubled when NiFe layer is grown over the Fe layers. This enhancement in the magnetic parameters is primarily dependent on the increase of the thickness and magnetic moment of Fe-NiFe interfacial layer as revealed from the polarized neutron reectivity (PNR) data of the bilayer samples. The difference in the thickness and magnetization of the Fe-NiFe interfacial layer indicates the modification of the microstructure by alternating the order of the magnetic layers of the bilayers. The interfacial magnetic moment increased by almost 18 % when NiFe layer is grown over the Fe layer. In spite of the different values of anisotropy fields and modified interfacial exchange coupling, the Gilbert damping constant values of the ferromagnetic bilayers remain similar to single NiFe layer., Comment: 9 pages, 9 figures

Published
2020

7. Tailoring the magnetic exchange interaction in MnBi2Te4 superlattices via the intercalation of ferromagnetic layers

Author

Chen, Peng, Yao, Qi, Xu, Junqi, Sun, Qiang, Grutter, Alexander J., Quarterman, Patrick, Balakrishnan, Purnima P., Kinane, Christy J., Caruana, Andrew J., Langridge, Sean, Li, Ang, Achinuq, Barat, Heppell, Emily, Ji, Yuchen, Liu, Shanshan, Cui, Baoshan, Liu, Jiuming, Huang, Puyang, Liu, Zhongkai, Yu, Guoqiang, Xiu, Faxian, Hesjedal, Thorsten, Zou, Jin, Han, Xiaodong, Zhang, Haijun, Yang, Yumeng, and Kou, Xufeng

Published
2023
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8. On the Origin of Superconductivity at Nickel-Bismuth Interfaces

Author

Vaughan, Matthew, Satchell, Nathan, Ali, Mannan, Kinane, Christy J., Stenning, Gavin B. G., Langridge, Sean, and Burnell, Gavin

Subjects
Condensed Matter - Superconductivity
Abstract

Unconventional superconductivity has been suggested to be present at the interface between bismuth and nickel in thin-film bilayers. In this work, we study the structural, magnetic and superconducting properties of sputter deposited Bi/Ni bilayers. As-grown, our films do not display a superconducting transition, however, when stored at room temperature, after about 14 days our bilayers develop a superconducting transition up to 3.8 K. To systematically study the effect of low temperature annealing on our bilayers, we perform structural characterization with X-ray diffraction and polarized neutron reflectometry, along with magnetometry and low temperature electrical transport measurements on samples annealed at $70\,^\circ$C. We show that the onset of superconductivity in our samples is coincident with the formation of ordered NiBi$_3$ intermetallic alloy, a known $s$-wave superconductor. We calculate that the annealing process has an activation energy of $(0.86\pm 0.06)$eV. As a consequence, gentle heating of the bilayers will cause formation of the superconducting NiBi$_3$ at the Ni/Bi interface, which poses a challenge to studying any distinct properties of Bi/Ni bilayers without degrading that interface., Comment: 13 pages, 7 figures

Published
2019
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9. Vertically graded FeNi alloys with low damping and a sizeable spin-orbit torque

Author

Wegrowe, Jean-Eric, Friedman, Joseph S., Razeghi, Manijeh, Jaffrès, Henri, Maizel, Rachel E., Wu, Shuang, Balakrishnan, Purnima P., Grutter, Alexander J., Kinane, Christy J., Caruana, Andrew J., Nakarmi, Prabandha, Nepal, Bhuwan, Smith, David A., Lim, Youngmin, Jones, Julia L., Thomas, Wyatt C., Zhao, Jing, Michel, F. Marc, Mewes, Tim, and Emori, Satoru

Published
2024
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10. Density profile of 3He in a nanoscale 3He-4He superfluid film determined by neutron scattering.

Author

Kirichek, Oleg, Lawson, Christopher R., Kinane, Christy J., Caruana, Andrew J., Langridge, Sean, Charlton, Timothy R., and McClintock, Peter V. E.

Subjects
SILICON isotopes, SUPERFLUIDITY, INVISCID flow, HELIUM isotopes, NEUTRON reflectometry, PHASE transitions
Abstract

For decades, superfluid helium has attracted the interest of the scientific community as an extremely pure realisation of a quantum liquid, only accessible at temperatures close to absolute zero. Previously, helium films have only been observed directly using X-rays. However, this method is limited to temperatures above 1 K due to the high levels of energy deposition, and it also suffers from an inability to distinguish between helium isotopes. Here we show that a 3He layer on top of a phase separated mixture film at 170 mK gradually dissolves into the 4He with increasing temperature. We also observe an anomaly in film behaviour near 300 mK and unexpected restoration of the layered structure at 1.5 K which is consistent with a re-entrant phase transition leading to the suppression of superfluidity in the film near 300 mK. Our successful application of neutron scattering to study helium films at ultra-low temperatures opens up new possibilities for future research. Superfluidity, a liquid exhibiting frictionless flow, is so far limited to observations in low-temperature 3He and 4He, where the underlying mechanisms governing the quantum state are complex and different for each isotope, making for a fascinating but challenging phenomenon to study experimentally. The authors use isotope-sensitive neutron reflectometry to investigate mixed 3He/4He superfluid He films on a Si surface, and resolve the structural features and phase transitions that occur with changing temperature. [ABSTRACT FROM AUTHOR]

Published
2024
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11. Determining the Proximity Effect-Induced Magnetic Moment in Graphene by Polarized Neutron Reflectivity and X-ray Magnetic Circular Dichroism

Author

Aboljadayel, Razan O. M., primary, Kinane, Christy J., additional, Vaz, Carlos A. F., additional, Love, David M., additional, Weatherup, Robert S., additional, Braeuninger-Weimer, Philipp, additional, Martin, Marie-Blandine, additional, Ionescu, Adrian, additional, Caruana, Andrew J., additional, Charlton, Timothy R., additional, Llandro, Justin, additional, Monteiro, Pedro M. S., additional, Barnes, Crispin H. W., additional, Hofmann, Stephan, additional, and Langridge, Sean, additional

Published
2023
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12. Advice on describing Bayesian analysis of neutron and X-ray reflectometry

Author

McCluskey, Andrew R., primary, Caruana, Andrew J., additional, Kinane, Christy J., additional, Armstrong, Alexander J., additional, Arnold, Thomas, additional, Cooper, Joshaniel F. K., additional, Cortie, David L., additional, Hughes, Arwel V., additional, Moulin, Jean-Francois, additional, Nelson, Andrew R. J., additional, Potrzebowski, Wojciech, additional, and Starostin, Vladimir, additional

Published
2023
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13. Tailoring the magnetic exchange interaction in MnBi2Te4 superlattices via the intercalation of ferromagnetic layers

Author

Chen, Peng, primary, Yao, Qi, additional, Xu, Junqi, additional, Sun, Qiang, additional, Grutter, Alexander J., additional, Quarterman, Patrick, additional, Balakrishnan, Purnima P., additional, Kinane, Christy J., additional, Caruana, Andrew J., additional, Langridge, Sean, additional, Li, Ang, additional, Achinuq, Barat, additional, Heppell, Emily, additional, Ji, Yuchen, additional, Liu, Shanshan, additional, Cui, Baoshan, additional, Liu, Jiuming, additional, Huang, Puyang, additional, Liu, Zhongkai, additional, Yu, Guoqiang, additional, Xiu, Faxian, additional, Hesjedal, Thorsten, additional, Zou, Jin, additional, Han, Xiaodong, additional, Zhang, Haijun, additional, Yang, Yumeng, additional, and Kou, Xufeng, additional

Published
2022
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15. Tailoring Magnetic Exchange Interactions in Ferromagnet-Intercalated MnBi2Te4 Superlattices

Author

Kou, Xufeng, primary, Chen, Peng, additional, Yao, Qi, additional, Sun, Qiang, additional, Grutter, Alexander, additional, Quarterman, Patrick, additional, Balakrishnan, Purnima P., additional, Kinane, Christy J., additional, Caruana, Andrew J., additional, Langridge, Sean, additional, Cui, Baoshan, additional, Li, Lun, additional, Ji, Yuchen, additional, Zhang, Yong, additional, Liu, Zhongkai, additional, Zou, Jin, additional, Yu, Guoqiang, additional, and Yang, Yumeng, additional

Published
2022
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17. Soliton-Mediated Magnetic Reversal in an All-Oxide-Based Synthetic Antiferromagnetic Superlattice

Author

Zhang, Kexuan, primary, Zhernenkov, Kirill, additional, Saerbeck, Thomas, additional, Glavic, Artur, additional, Qu, Lili, additional, Kinane, Christy J., additional, Caruana, Andrew J., additional, Hua, Enda, additional, Gao, Guanyin, additional, Jin, Feng, additional, Ge, Binghui, additional, Cheng, Feng, additional, Pütter, Sabine, additional, Koutsioubas, Alexandros, additional, Mattauch, Stefan, additional, Brueckel, Thomas, additional, Su, Yixi, additional, Wang, Lingfei, additional, and Wu, Wenbin, additional

Published
2021
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19. Interface-Induced Magnetization and Exchange Bias in LSMO/BFO Multiferroic Heterostructures

Author

Prajapat, Champa Lal, primary, Bhatt, Harsh, additional, Kumar, Yogesh, additional, Rao, T. V. Chandrasekhar, additional, Mishra, Prasant K., additional, Ravikumar, Gurazada, additional, Kinane, Christy J., additional, Satpati, Biswarup, additional, Caruana, Andrew, additional, Langridge, Sean, additional, Basu, Saibal, additional, and Singh, Surendra, additional

Published
2020
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22. Structural and magnetic properties of ultra-thin Fe films on metal-organic chemical vapour deposited GaN(0001)

Author

Kim, Jun-Young, primary, Ionescu, Adrian, additional, Mansell, Rhodri, additional, Farrer, Ian, additional, Oehler, Fabrice, additional, Kinane, Christy J., additional, Cooper, Joshaniel F. K., additional, Steinke, Nina-Juliane, additional, Langridge, Sean, additional, Stankiewicz, Romuald, additional, Humphreys, Colin J., additional, Cowburn, Russell P., additional, Holmes, Stuart N., additional, and Barnes, Crispin H. W., additional

Published
2017
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23. Room temperature ferrimagnetism and ferroelectricity in strained, thin films of BiFe0.5Mn0.5O3

Author

Choi, Eun-Mi, Fix, Thomas, Kursumovic, Ahmed, Kinane, Christy J., Arena, Darío, Sahonta, Suman-Lata, Bi, Zhenxing, Xiong, Jie, Yang, Li, Lee, Jun-Sik, Wang, Haiyan, Langridge, Sean, Kim, Yong-Min, Borisevich, Albina Y., MacLaren, Ian, Ramasse, Quentin M., Blamire, Mark G., Jia, Quanxi, and MacManus-Driscoll, Judith L.

Abstract

Highly strained films of BiFe0.5Mn0.5O3 (BFMO) grown at very low rates by pulsed laser deposition were demonstrated to exhibit both ferrimagnetism and ferroelectricity at room temperature and above. Magnetisation measurements demonstrated ferrimagnetism (TC ∼ 600K), with a room temperature saturation moment (MS.) of up to 90 emu/cc (∼ 0.58 μBf.u) on high quality (001) SrTiO3. X-ray magnetic circular dichroism showed that the ferrimagnetism arose from antiferromagnetically coupled Fe3+ and Mn3+. While scanning transmission electron microscope studies showed there was no long range ordering of Fe and Mn, the magnetic properties were found to be strongly dependent on the strain state in the films. The magnetism is explained to arise from one of three possible mechanisms with Bi polarization playing a key role. A signature of room temperature ferroelectricity in the films was measured by piezoresponse force microscopy and was confirmed using angular dark field scanning transmission electron microscopy. The demonstration of strain induced, high temperature multiferroism is a promising development for future spintronic and memory applications at room temperature and above.

Published
2014

24. Neutron commissioning of the SPRINTER detector

Author

Duxbury, Dominic M., primary, Kinane, Christy J., additional, Rhodes, Nigel J., additional, Schooneveld, Erik M., additional, Skoda, Maximilian W.A., additional, Spill, Edward J., additional, and Welbourn, Rebecca J.L., additional

Published
2016
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25. Interface-Coupled BiFeO3 /BiMnO3 Superlattices with Magnetic Transition Temperature up to 410 K

Author

Choi, Eun-Mi, primary, Kleibeuker, Josée E., additional, Fix, Thomas, additional, Xiong, Jie, additional, Kinane, Christy J., additional, Arena, Darío, additional, Langridge, Sean, additional, Chen, Aiping, additional, Bi, Zhenxing, additional, Lee, Joon Hwan, additional, Wang, Haiyan, additional, Jia, Quanxi, additional, Blamire, Mark G., additional, and MacManus-Driscoll, Judith L., additional

Published
2016
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28. Molecular weight dependent vertical composition profiles of PCDTBT:PC71BM blends for organic photovoltaics

Author

Kingsley, James W., primary, Marchisio, Pier Paolo, additional, Yi, Hunan, additional, Iraqi, Ahmed, additional, Kinane, Christy J., additional, Langridge, Sean, additional, Thompson, Richard L., additional, Cadby, Ashley J., additional, Pearson, Andrew J., additional, Lidzey, David G., additional, Jones, Richard A. L., additional, and Parnell, Andrew J., additional

Published
2014
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29. Interface-Coupled BiFeO3/BiMnO3 Superlattices with Magnetic Transition Temperature up to 410 K.

Author

Choi, Eun-Mi, Kleibeuker, Josée E., Fix, Thomas, Xiong, Jie, Kinane, Christy J., Arena, Darío, Langridge, Sean, Chen, Aiping, Bi, Zhenxing, Lee, Joon Hwan, Wang, Haiyan, Jia, Quanxi, Blamire, Mark G., and MacManus-Driscoll, Judith L.

Subjects
BISMUTH compounds, MAGNETIC transitions, SUPERLATTICES, FERROELECTRICITY, PEROVSKITE, EPITAXY
Abstract

The article discusses study on interface-coupled bismuth ferrite, BiFeO3(BFO)/bismuth magnesium oxide, BiMnO3 (BMO) superlattices with magnetic transition temperature up to 410 Kelvin. Topics discussed include ferroelectricity in perovskite oxides, verification of epitaxy as well as the phase purity of the superlattices and magnetic transitions and clear magnetization at temperatures above the critical temperature of BMO.

Published
2016
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32. Room Temperature Ferrimagnetism and Ferroelectricity in Strained, Thin Films of BiFe0.5Mn0.5O3.

Author

Choi, Eun‐Mi, Fix, Thomas, Kursumovic, Ahmed, Kinane, Christy J., Arena, Darío, Sahonta, Suman‐Lata, Bi, Zhenxing, Xiong, Jie, Yan, Li, Lee, Jun‐Sik, Wang, Haiyan, Langridge, Sean, Kim, Young‐Min, Borisevich, Albina Y., MacLaren, Ian, Ramasse, Quentin M., Blamire, Mark G., Jia, Quanxi, and MacManus‐Driscoll, Judith L.

Subjects
FERRIMAGNETISM, FERROELECTRICITY, ELECTRIC properties of thin films, MAGNETIC properties of thin films, MAGNETIC properties of bismuth, SPINTRONICS, MANGANESE, ELECTROMETALLURGY
Abstract

Highly strained films of BiFe0.5Mn0.5O3 (BFMO) grown at very low rates by pulsed laser deposition were demonstrated to exhibit both ferrimagnetism and ferroelectricity at room temperature and above. Magnetisation measurements demonstrated ferrimagnetism ( TC ∼ 600K), with a room temperature saturation moment ( MS) of up to 90 emu/cc (∼ 0.58 μB/f.u) on high quality (001) SrTiO3. X-ray magnetic circular dichroism showed that the ferrimagnetism arose from antiferromagnetically coupled Fe3+ and Mn3+. While scanning transmission electron microscope studies showed there was no long range ordering of Fe and Mn, the magnetic properties were found to be strongly dependent on the strain state in the films. The magnetism is explained to arise from one of three possible mechanisms with Bi polarization playing a key role. A signature of room temperature ferroelectricity in the films was measured by piezoresponse force microscopy and was confirmed using angular dark field scanning transmission electron microscopy. The demonstration of strain induced, high temperature multiferroism is a promising development for future spintronic and memory applications at room temperature and above. [ABSTRACT FROM AUTHOR]

Published
2014
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33. Molecular weight dependent vertical composition profiles of PCDTBT:PC71BM blends for organic photovoltaics.

Author

Kingsley, James W., Marchisio, Pier Paolo, Hunan Yi, Iraqi, Ahmed, Kinane, Christy J., Langridge, Sean, Thompson, Richard L., Cadby, Ashley J., Pearson, Andrew J., Lidzey, David G., Jones, Richard A. L., and Parnell, Andrew J.

Subjects
MOLECULAR weights, MOLECULAR physics, PHYSICAL & theoretical chemistry, PHOTOVOLTAIC cells, POLYMERS, PARTICLES (Nuclear physics), NUCLEAR physics
Abstract

We have used Soxhlet solvent purification to fractionate a broad molecular weight distribution of the polycarbazole polymer PCDTBT into three lower polydispersity molecular weight fractions. Organic photovoltaic devices were made using a blend of the fullerene acceptor PC71BM with the molecular weight fractions. An average power conversion efficiency of 5.89% (peak efficiency of 6.15%) was measured for PCDTBT blend devices with a number average molecular weight of Mn = 25.5 kDa. There was significant variation between the molecular weight fractions with low (Mn = 15.0 kDa) and high (Mn = 34.9 kDa) fractions producing devices with average efficiencies of 5.02% and 3.70% respectively. Neutron reflectivity measurements on these polymer:PC71BM blend layers showed that larger molecular weights leads to an increase in the polymer enrichment layer thickness at the anode interface, this improves efficiency up to a limiting point where the polymer solubility causes a reduction of the PCDTBT concentration in the active layer. [ABSTRACT FROM AUTHOR]

Published
2014
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34. Performance Characteristics of the OSMOND Neutron Detector.

Author

Bateman, J. Edmond, Charlton, Timothy R., Dalgliesh, Robert, Duxbury, Dominic M., Kinane, Christy J., Rhodes, Nigel J., Schooneveld, Erik M., and Spill, Edward J.

Subjects
NEUTRON counters, NUCLEAR counters, SCINTILLATION counters, REFLECTOMETER, SPALLATION (Nuclear physics), NEUTRON beams
Abstract

The performance characteristics of the Off Specular MicrOstrip Neutron Detector (OSMOND) are described. Based on microstrip gas chamber (MSGC) detectors, OSMOND is a high counting rate detector, with sub-millimeter position resolution, capable of replacing the existing rate limited scintillator detectors currently in use on the suite of reflectometer instruments of the ISIS spallation neutron source. The detector system is described together with results of neutron beam tests carried out on the CRISP and POLREF reflectometers. [ABSTRACT FROM PUBLISHER]

Published
2013
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36. Determining the Proximity Effect-Induced Magnetic Moment in Graphene by Polarized Neutron Reflectivity and X-ray Magnetic Circular Dichroism

Author

Razan O. M. Aboljadayel, Christy J. Kinane, Carlos A. F. Vaz, David M. Love, Robert S. Weatherup, Philipp Braeuninger-Weimer, Marie-Blandine Martin, Adrian Ionescu, Andrew J. Caruana, Timothy R. Charlton, Justin Llandro, Pedro M. S. Monteiro, Crispin H. W. Barnes, Stephan Hofmann, Sean Langridge, Aboljadayel, Razan OM [0000-0002-4512-9858], Kinane, Christy J [0000-0002-1185-0719], Vaz, Carlos AF [0000-0002-6209-8918], Weatherup, Robert S [0000-0002-3993-9045], Braeuninger-Weimer, Philipp [0000-0001-8677-1647], Caruana, Andrew J [0000-0003-0715-5876], Charlton, Timothy R [0000-0002-5443-8492], Llandro, Justin [0000-0002-1362-6083], Hofmann, Stephan [0000-0001-6375-1459], and Apollo - University of Cambridge Repository

Subjects
Condensed Matter::Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics, XMCD, magnetism, graphene, Mesoscale and Nanoscale Physics (cond-mat.mes-hall), Physics::Atomic and Molecular Clusters, FOS: Physical sciences, Physics::Optics, General Materials Science, heterostructure, PNR
Abstract

We report the magnitude of the induced magnetic moment in CVD-grown epitaxial and rotated-domain graphene in proximity with a ferromagnetic Ni film, using polarized neutron reflectivity (PNR) and X-ray magnetic circular dichroism (XMCD). The XMCD spectra at the C K-edge confirms the presence of a magnetic signal in the graphene layer and the sum rules give a magnetic moment of up to $\sim\,0.47\,\mu$_B/C atom induced in the graphene layer. For a more precise estimation, we conducted PNR measurements. The PNR results indicate an induced magnetic moment of $\sim$ 0.53 $\mu$_B/C atom at 10 K for rotated graphene and $\sim$ 0.38 $\mu$_B/C atom at 10 K for epitaxial graphene. Additional PNR measurements on graphene grown on a non-magnetic Ni_9Mo_1 substrate, where no magnetic moment in graphene is measured, suggest that the origin of the induced magnetic moment is due to the opening of the graphene's Dirac cone as a result of the strong C pz-3d hybridization., Comment: 21 pages, 7 figures

Published
2023

37. Room Temperature Ferrimagnetism and Ferroelectricity in Strained, Thin Films of BiFe0.5Mn0.5O3.

Author

Choi, Eun‐Mi, Fix, Thomas, Kursumovic, Ahmed, Kinane, Christy J., Arena, Darío, Sahonta, Suman‐Lata, Bi, Zhenxing, Xiong, Jie, Yan, Li, Lee, Jun‐Sik, Wang, Haiyan, Langridge, Sean, Kim, Young‐Min, Borisevich, Albina Y., MacLaren, Ian, Ramasse, Quentin M., Blamire, Mark G., Jia, Quanxi, and MacManus‐Driscoll, Judith L.

Subjects
*FERRIMAGNETISM, *FERROELECTRICITY, *ELECTRIC properties of thin films, *MAGNETIC properties of thin films, *SPINTRONICS, *MANGANESE, *ELECTROMETALLURGY, MAGNETIC properties of bismuth
Abstract

Highly strained films of BiFe0.5Mn0.5O3 (BFMO) grown at very low rates by pulsed laser deposition were demonstrated to exhibit both ferrimagnetism and ferroelectricity at room temperature and above. Magnetisation measurements demonstrated ferrimagnetism ( TC ∼ 600K), with a room temperature saturation moment ( MS) of up to 90 emu/cc (∼ 0.58 μB/f.u) on high quality (001) SrTiO3. X-ray magnetic circular dichroism showed that the ferrimagnetism arose from antiferromagnetically coupled Fe3+ and Mn3+. While scanning transmission electron microscope studies showed there was no long range ordering of Fe and Mn, the magnetic properties were found to be strongly dependent on the strain state in the films. The magnetism is explained to arise from one of three possible mechanisms with Bi polarization playing a key role. A signature of room temperature ferroelectricity in the films was measured by piezoresponse force microscopy and was confirmed using angular dark field scanning transmission electron microscopy. The demonstration of strain induced, high temperature multiferroism is a promising development for future spintronic and memory applications at room temperature and above. [ABSTRACT FROM AUTHOR]

Published
2014
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38. Thin Film TaFe, TaCo, and TaNi as Potential Optical Hydrogen Sensing Materials.

Author

Bannenberg LJ, Veeneman IM, Straus FIB, Chen HY, Kinane CJ, Hall S, Thijs MA, and Schreuders H

Abstract

This paper studies the structural and optical properties of tantalum-iron-, tantalum-cobalt-, and tantalum-nickel-sputtered thin films both ex situ and while being exposed to various hydrogen pressures/concentrations, with a focus on optical hydrogen sensing applications. Optical hydrogen sensors require sensing materials that absorb hydrogen when exposed to a hydrogen-containing environment. In turn, the absorption of hydrogen causes a change in the optical properties that can be used to create a sensor. Here, we take tantalum as a starting material and alloy it with Fe, Co, or Ni with the aim to tune the optical hydrogen sensing properties. The rationale is that alloying with a smaller element would compress the unit cell, reduce the amount of hydrogen absorbed, and shift the pressure composition isotherm to higher pressures. X-ray diffraction shows that no lattice compression is realized for the crystalline Ta body-centered cubic phase when Ta is alloyed with Fe, Co, or Ni, but that phase segregation occurs where the crystalline body-centered cubic phase coexists with another phase, as for example an X-ray amorphous one or fine-grained intermetallic compounds. The fraction of this phase increases with increasing alloyant concentration up until the point that no more body-centered cubic phase is observed for 20% alloyant concentration. Neutron reflectometry indicates only a limited reduction of the hydrogen content with alloying. As such, the ability to tune the sensing performance of these materials by alloying with Fe, Co, and/or Ni is relatively small and less effective than substitution with previously studied Pd or Ru, which do allow for a tuning of the size of the unit cell, and consequently tunable hydrogen sensing properties. Despite this, optical transmission measurements show that a reversible, stable, and hysteresis-free optical response to hydrogen is achieved over a wide range of hydrogen pressures/concentrations for Ta-Fe, Ta-Co, or Ta-Ni alloys which would allow them to be used in optical hydrogen sensors., Competing Interests: The authors declare the following competing financial interest(s): Two of the authors are listed as inventor on a patent for these materials owned by Delft University of Technology entitled: Optical Thin-Film Hydrogen Sensing Material Based on Tantalum or Other Group V Element Alloy., (© 2024 The Authors. Published by American Chemical Society.)

Published
2024
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39. Correlation of Magnetic and Superconducting Properties with the Strength of the Magnetic Proximity Effect in La 0.67 Sr 0.33 MnO 3 /SrTiO 3 /YBa 2 Cu 3 O 7-δ Heterostructures.

Author

Bhatt H, Kumar Y, Prajapat CL, Kinane CJ, Caruana A, Langridge S, Basu S, and Singh S

Abstract

The effect of the stacking sequence on magnetic and superconducting properties in La 0.67 Sr 0.33 MnO 3 (LSMO)/YBa 2 Cu 3 O 7-δ (YBCO) and LSMO/SrTiO 3 /YBCO heterostructures, which consequently affected the magnetic proximity effect (MPE), was investigated using spin-polarized neutron reflectivity experiments. The results established the intrinsic nature of MPE and its correlation with stacking sequence-dependent magnetic and superconducting properties in these oxide heterostructure systems. We found an increase in the superconducting transition temperature ( T sc ) and magnetization for both of the heterostructures as compared to heterostructures with a reversed stacking order. The evolution of the magnetization of the interfacial ferromagnetic (FM) layer, studied as a function of temperature for both heterostructures, showed a decrease in the MPE-induced magnetic depleted layer thickness for heterostructures at a higher T sc . A comparison of the results of different studies with the present results suggested that the average magnetization and transition temperatures of a FM and a superconductor (SC) were important parameters that dictate the strength of the proximity effect due to the complex interaction of SC and FM in these systems. Tuning the strength of MPE in FM/SC and FM/I/SC oxide heterostructures may provide a promising platform for the effective realization of devices.

Published
2022
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40. Room Temperature Ferrimagnetism and Ferroelectricity in Strained, Thin Films of BiFe 0.5 Mn 0.5 O 3 .

Author

Choi EM, Fix T, Kursumovic A, Kinane CJ, Arena D, Sahonta SL, Bi Z, Xiong J, Yan L, Lee JS, Wang H, Langridge S, Kim YM, Borisevich AY, MacLaren I, Ramasse QM, Blamire MG, Jia Q, and MacManus-Driscoll JL

Abstract

Highly strained films of BiFe 0.5 Mn 0.5 O 3 (BFMO) grown at very low rates by pulsed laser deposition were demonstrated to exhibit both ferrimagnetism and ferroelectricity at room temperature and above. Magnetisation measurements demonstrated ferrimagnetism ( T C ∼ 600K), with a room temperature saturation moment ( M S ) of up to 90 emu/cc (∼ 0.58 μ B /f.u) on high quality (001) SrTiO 3 . X-ray magnetic circular dichroism showed that the ferrimagnetism arose from antiferromagnetically coupled Fe 3+ and Mn 3+ . While scanning transmission electron microscope studies showed there was no long range ordering of Fe and Mn, the magnetic properties were found to be strongly dependent on the strain state in the films. The magnetism is explained to arise from one of three possible mechanisms with Bi polarization playing a key role. A signature of room temperature ferroelectricity in the films was measured by piezoresponse force microscopy and was confirmed using angular dark field scanning transmission electron microscopy. The demonstration of strain induced, high temperature multiferroism is a promising development for future spintronic and memory applications at room temperature and above.

Published
2014
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