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Your search keyword '"Brangham, Jack T."' showing total 22 results
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22 results on '"Brangham, Jack T."'

1. Long lifetime of thermally-excited magnons in bulk yttrium iron garnet

Author

Jamison, John S., Yang, Zihao, Giles, Brandon L., Brangham, Jack T., Wu, Guanzhong, Hammel, P. Chris, Yang, Fengyuan, and Myers, Roberto C.

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

Spin currents are generated within the bulk of magnetic materials due to heat flow, an effect called intrinsic spin-Seebeck. This bulk bosonic spin current consists of a diffusing thermal magnon cloud, parametrized by the magnon chemical potential ($\mu_{m}$), with a diffusion length of several microns in yttrium iron garnet (YIG). Transient opto-thermal measurements of the spin-Seebeck effect (SSE) as a function of temperature reveal the time evolution of $\mu_{m}$ due to intrinsic SSE in YIG. The interface SSE develops at times < 2 ns while the intrinsic SSE signal continues to evolve at times > 500 $\mu$s, dominating the temperature dependence of SSE in bulk YIG. Time-dependent SSE data are fit to a multi-temperature model of coupled spin/heat transport using finite element method (FEM), where the magnon spin lifetime ($\tau$) and magnon-phonon thermalization time ($\tau_{mp}$) are used as fit parameters. From 300 K to 4 K, $\tau_{mp}$ varies from 1 to 10 ns, whereas $\tau$ varies from 2 to 60 $\mu$s with the spin lifetime peaking at 90 K. At low temperature, a reduction in $\tau$ is observed consistent with impurity relaxation reported in ferromagnetic resonance measurements. These results demonstrate that the thermal magnon cloud in YIG contains extremely low frequency magnons (~10 GHz) providing spectral insight to the microscopic scattering processes involved in magnon spin/heat diffusion., Comment: 35 pages and 17 figures

Published
2018
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2. Imaging Magnetization Structure and Dynamics in Ultrathin YIG/Pt Bilayers with High Sensitivity Using the Time-Resolved Longitudinal Spin Seebeck Effect

Author

Bartell, Jason M., Jermain, Colin L., Aradhya, Sriharsha V., Brangham, Jack T., Yang, Fengyuan, Ralph, Daniel C., and Fuchs, Gregory D.

Subjects
Condensed Matter - Materials Science
Abstract

We demonstrate an instrument for time-resolved magnetic imaging that is highly sensitive to the in-plane magnetization state and dynamics of thin-film bilayers of yttrium iron garnet (Y3Fe5O12,YIG)/Pt: the time-resolved longitudinal spin Seebeck (TRLSSE) effect microscope. We detect the local, in-plane magnetic orientation within the YIG by focusing a picosecond laser to generate thermally-driven spin current from the YIG into the Pt by the spin Seebeck effect, and then use the inverse spin Hall effect in the Pt to transduce this spin current to an output voltage. To establish the time resolution of TRLSSE, we show that pulsed optical heating of patterned YIG (20 nm)/Pt(6 nm)/Ru (2 nm) wires generates a magnetization-dependent voltage pulse of less than 100 ps. We demonstrate TRLSSE microscopy to image both static magnetic structure and gigahertz-frequency magnetic resonance dynamics with sub-micron spatial resolution and a sensitivity to magnetic orientation below 0.3$^{\circ}/\sqrt{\text{Hz}}$ in ultrathin YIG., Comment: 31 pages manuscript, format including supporting information

Published
2016
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3. Strong modulation of spin currents in bilayer graphene by static and fluctuating proximity exchange fields

Author

Singh, Simranjeet, Katoch, Jyoti, Zhu, Tiancong, Meng, Keng-Yuan, Liu, Tianyu, Brangham, Jack T., Yang, Fengyuan Y., Flatté, Michael, and Kawakami, Roland K.

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

Two dimensional (2D) materials provide a unique platform to explore the full potential of magnetic proximity driven phenomena, which can be further used for applications in next generation spintronic devices. Of particular interest is to understand and control spin currents in graphene by the magnetic exchange field of a nearby ferromagnetic material in graphene/ferromagnetic-insulator (FMI) heterostructures. Here, we present the experimental study showing the strong modulation of spin currents in graphene layers by controlling the direction of the exchange field due to FMI magnetization. Owing to clean interfaces, a strong magnetic exchange coupling leads to the experimental observation of complete spin modulation at low externally applied magnetic fields in short graphene channels. Additionally, we discover that the graphene spin current can be fully dephased by randomly fluctuating exchange fields. This is manifested as an unusually strong temperature dependence of the non-local spin signals in graphene, which is due to spin relaxation by thermally-induced transverse fluctuations of the FMI magnetization.

Published
2016
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4. Picosecond spin Seebeck effect

Author

Kimling, Johannes, Choi, Gyung-Min, Brangham, Jack T., Matalla-Wagner, Tristan, Huebner, Torsten, Kuschel, Timo, Yang, Fengyuan, and Cahill, David G.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We report time-resolved magneto-optic Kerr effect measurements of the longitudinal spin Seebeck effect driven by an interfacial temperature difference between itinerant electrons and magnons. The measured time-evolution of spin accumulation induced by laser-excitation indicates transfer of angular momentum across Au/Y$_3$Fe$_5$O$_{12}$ and Cu/Y$_3$Fe$_5$O$_{12}$ interfaces on a picosecond time-scale. The product of spin-mixing conductance and interfacial spin Seebeck coefficient determined is of the order of $10^8$ A m$^{-2}$ K$^{-1}$., Comment: 16 pages, 4 figures, 1 table

Published
2016
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12. Picosecond Spin Seebeck Effect

Author

Kimling, Johannes, primary, Choi, Gyung-Min, additional, Brangham, Jack T., additional, Matalla-Wagner, Tristan, additional, Huebner, Torsten, additional, Kuschel, Timo, additional, Yang, Fengyuan, additional, and Cahill, David G., additional

Published
2017
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13. Thickness and angular dependent ferromagnetic resonance of ultra-low damping Co25Fe75 epitaxial films.

Author

Cheng, Yang, Lee, Aidan J., Brangham, Jack T., White, Shane P., Ruane, William T., Hammel, P. Chris, and Yang, Fengyuan

Subjects
FERROMAGNETIC resonance, EPITAXIAL layers, SPINTRONICS, MAGNETIC anisotropy, MAGNESIUM oxide
Abstract

Metallic ferromagnets with ultra-low damping are highly desirable for charge-based spintronic applications. Here, we systematically investigate the magnetic dynamics of Co25Fe75 epitaxial films with a Gilbert damping constant as low as 7.1 × 10−4. The in-plane angular dependence of ferromagnetic resonance (FMR) was measured on various thicknesses of Co25Fe75 films grown on MgO and MgAl2O4, from which the mechanisms for FMR linewidth broadening can be distinguished and quantified. The thickness dependencies of the magnetic anisotropy and inhomogeneous broadening of the linewidth are good indicators of crystal quality and magnetic uniformity. Additionally, it is shown that anisotropic two-magnon scattering is induced by defects at the surfaces. [ABSTRACT FROM AUTHOR]

Published
2018
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15. Exceptionally high magnetization of stoichiometric Y3Fe5O12 epitaxial films grown on Gd3Ga5O12

Author

Gallagher, James C., primary, Yang, Angela S., additional, Brangham, Jack T., additional, Esser, Bryan D., additional, White, Shane P., additional, Page, Michael R., additional, Meng, Keng-Yuan, additional, Yu, Sisheng, additional, Adur, Rohan, additional, Ruane, William, additional, Dunsiger, Sarah R., additional, McComb, David W., additional, Yang, Fengyuan, additional, and Hammel, P. Chris, additional

Published
2016
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16. Metallic Ferromagnetic Films With Magnetic Damping Under 1.4 × 10-3.

Author

Lee, Aidan J., Brangham, Jack T., Yang Cheng, White, Shane P., Ruane, William T., Esser, Bryan D., McComb, David W., Hammel, P. Chris, and Fengyuan Yang

Abstract

Low-damping magnetic materials have been widely used in microwave and spintronic applications because of their low energy loss and high sensitivity. While the Gilbert damping constant can reach 10-4 to 10-5 in some insulating ferromagnets, metallic ferromagnets generally have larger damping due to magnon scattering by conduction electrons. Meanwhile, low-damping metallic ferromagnets are desired for charge-based spintronic devices. Here, we report the growth of Co25Fe75 epitaxial films with excellent crystalline quality evident by the clear Laue oscillations and exceptionally narrow rocking curve in the X-ray diffraction scans as well as from scanning transmission electron microscopy. Remarkably, the Co25Fe75 epitaxial films exhibit a damping constant <1.4 × 10-3, which is comparable to the values for some high-quality Y3Fe5O12 films. This record low damping for metallic ferromagnets offers new opportunities for charge-based applications such as spin-transfer-torque-induced switching and magnetic oscillations. [ABSTRACT FROM AUTHOR]

Published
2017
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17. Exceptionally high magnetization of stoichiometric Y3Fe5O12 epitaxial films grown on Gd3Ga5O12.

Author

Gallagher, James C., Yang, Angela S., Brangham, Jack T., Esser, Bryan D., White, Shane P., Page, Michael R., Keng-Yuan Meng, Sisheng Yu, Adur, Rohan, Ruane, William, Dunsiger, Sarah R., McComb, David W., Fengyuan Yang, and Hammel, P. Chris

Subjects
MAGNETIZATION, FERROMAGNETIC resonance, CRYSTALLINE polymers, STOICHIOMETRY, MAGNETIC insulators
Abstract

The saturation magnetization of Y3Fe5O12 (YIG) epitaxial films 4 to 250 nm in thickness has been determined by complementary measurements including the angular and frequency dependencies of the ferromagnetic resonance fields as well as magnetometry measurements. The YIG films exhibit state-of-the-art crystalline quality, proper stoichiometry, and pure Fe3+ valence state. The values of YIG magnetization obtained from all the techniques significantly exceed previously reported values for single crystal YIG and the theoretical maximum. This enhancement of magnetization, not attributable to off-stoichiometry or other defects in YIG, opens opportunities for tuning magnetic properties in epitaxial films of magnetic insulators. [ABSTRACT FROM AUTHOR]

Published
2016
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19. Spin Transport and Dynamics in Magnetic Heterostructures

Author

Brangham, Jack T.

Subjects
Physics, Spintronics, condensed matter, antiferromagnetic, sputtering, single crystal
Abstract

Spintronics research over the past two decades has focused on developing an understanding of spin transport in materials currently used in the semiconductor industry for potential spin-based applications. Recently, a surge of interest in spin transport in antiferromagnetic materials and spin interactions in novel materials have led to many promising discoveries. The work in this dissertation explores discrepancies in past discoveries, provides evidence to support recent theories on antiferromagnetic (AFM) spin transport, and develops the capabilities to further explore spin physics in novel states of matter. This dissertation focuses on four primary topics. First, a thickness dependence of the spin Hall angle in Au is discussed as a potential explanation for a large variance in the previously reported values. Second, evidence supporting a highly efficient mode of spin transport mediated by AFM fluctuations is found in the temperature dependence of the spin pumping signal in Pt/NiO/Y3Fe5O12 trilayers. Third, a new low damping metallic ferromagnet is developed and characterized as a potential platform for future spintronic research. Finally, a molecular beam epitaxy system is established with the capabilities to prepare topologically insulating materials that are predicted to host many novel phenomena.

Published
2017

20. Thickness dependence of spin Hall angle of Au grown on Y3Fe5O12 epitaxial films.

Author

Brangham, Jack T., Keng-Yuan Meng, Yang, Angela S., Gallagher, James C., Esser, Bryan D., White, Shane P., Sisheng Yu, McComb, David W., Hammel, P. Chris, and Fengyuan Yang

Subjects
*EPITAXY, *SPIN Hall effect, *SILVER
Abstract

We measure the spin Hall angle in Au layers of 5-100 nm thicknesses by spin pumping from Y3Fe5O12 epitaxial films grown by ultrahigh vacuum, off-axis sputtering. We observe a striking increase in the spin Hall angle for Au layers thinner than the measured spin diffusion length of 12.6 nm. In particular, the 5 nm Au layer shows a large spin Hall angle of 0.087, compared to those of 0.016 and 0.017 for the 50 and 100 nm Au layers, respectively, suggesting that the top surface plays a dominant role in spin Hall physics when the spin current is able to reach it. Other spin pumping related parameters, including Gilbert damping enhancement, interfacial spin mixing conductance, and spin current are also determined for Au layers of various thicknesses. Given the pervasive role of ultrathin films in electrical and spin transport applications, this result emphasizes the importance of considering the impact of the top surface and reveals the possibility of tuning critical spin parameters by film thickness. [ABSTRACT FROM AUTHOR]

Published
2016
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21. Exceptionally high magnetization of stoichiometric Y3Fe5O12 epitaxial films grown on Gd3Ga5O12.

Author

Gallagher, James C., Yang, Angela S., Brangham, Jack T., Esser, Bryan D., White, Shane P., Page, Michael R., Keng-Yuan Meng, Sisheng Yu, Adur, Rohan, Ruane, William, Dunsiger, Sarah R., McComb, David W., Fengyuan Yang, and Hammel, P. Chris

Subjects
*MAGNETIZATION, *FERROMAGNETIC resonance, *CRYSTALLINE polymers, *STOICHIOMETRY, *MAGNETIC insulators
Abstract

The saturation magnetization of Y3Fe5O12 (YIG) epitaxial films 4 to 250 nm in thickness has been determined by complementary measurements including the angular and frequency dependencies of the ferromagnetic resonance fields as well as magnetometry measurements. The YIG films exhibit state-of-the-art crystalline quality, proper stoichiometry, and pure Fe3+ valence state. The values of YIG magnetization obtained from all the techniques significantly exceed previously reported values for single crystal YIG and the theoretical maximum. This enhancement of magnetization, not attributable to off-stoichiometry or other defects in YIG, opens opportunities for tuning magnetic properties in epitaxial films of magnetic insulators. [ABSTRACT FROM AUTHOR]

Published
2016
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22. Tris(3-nitro-pentane-2,4-dionato-κO,O')-cobalt(III).

Author

Johnston DH, Brangham JT, and Rapp CD

Abstract

The structure of the title compound, [Co(C(5)H(6)NO(4))(3)], consists of a Co(III) ion octahedrally coordinated by three bidentate 3-nitro-pentane-2,4-dionate ligands. The complex was prepared via the nitration of tris-(2,4-penta-nedionato-κ(2)O,O')cobalt(III) with a solution of copper(II) nitrate in glacial acetic acid. The central C atom and the nitro group of one 3-nitro-pentane-2,4-dionate ligand are disordered over two positions with an occupancy ratio of 0.848 (4):0.152 (4). A second nitro group is also disordered over two orientations with an occupancy ratio of 0.892 (7):0.108 (7). Two of the ligand methyl groups form C-H⋯O inter-actions with two different nitro groups to form chains running along the c axis. Additional C-H⋯O inter-actions are found between ligand methyl groups and the cobalt-bound O atoms, also resulting in the formation of chains along the c axis.

Published
2012
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