Your search keyword '"Kent, Noah"' showing total 2 results

1. Ferromagnetic resonances in single-crystal yttrium iron garnet nanofilms fabricated by metal-organic decomposition.

Author

Wang, Szu-Fan, Chorazewicz, Kayetan, Lamichhane, Suvechhya, Parrott, Ronald A., Cabrini, Stefano, Fischer, Peter, Kent, Noah, Turner, John H., Ishibashi, Takayuki, Frohock, Zachary Parker, Wisser, Jacob J., Li, Peng, Zielinski, Ruthi, Herrington, Bryce, Suzuki, Yuri, Wu, Mingzhong, Munechika, Keiko, Pina-Hernandez, Carlos, Streubel, Robert, and Sweet, Allen A.

Subjects

YTTRIUM iron garnet, NANOFILMS, MAGNETIC materials, PULSED laser deposition, PHASE noise, MILLIMETER waves, FERROMAGNETIC resonance

Abstract

Tunable microwave and millimeter wave oscillators and bandpass filters with ultra-low phase noise play a critical role in electronic devices, including wireless communication, microelectronics, and quantum computing. Magnetic materials, such as yttrium iron garnet (YIG), possess ultra-low phase noise and a ferromagnetic resonance tunable up to tens of gigahertz. Here, we report structural and magnetic properties of single-crystal 60 and 130 nm-thick YIG films prepared by metal-organic decomposition epitaxy. These films, consisting of multiple homoepitaxially grown monolayers, are atomically flat and possess magnetic properties similar to those grown with liquid-phase epitaxy, pulsed laser deposition, and sputtering. Our approach does not involve expensive high-vacuum deposition systems and is a true low-cost alternative to current commercial techniques that have the potential to transform the industry. [ABSTRACT FROM AUTHOR]

Published

2021

2. Generation and stability of structurally imprinted target skyrmions in magnetic multilayers.

Author

Kent, Noah, Streubel, Robert, Lambert, Charles-Henri, Ceballos, Alejandro, Je, Soong-Gun, Dhuey, Scott, Im, Mi-Young, Büttner, Felix, Hellman, Frances, Salahuddin, Sayeef, and Fischer, Peter

Subjects

*SKYRMIONS, *DOMAIN walls (String models), *STRUCTURAL failures, *X-ray imaging, *MAGNETIC fields

Abstract

Target Skyrmions (TSks) are extended topological spin textures with a constant chirality where the rotation of the z component of the magnetization is larger than π. TSks have topological charge 1 or 0, if the z component of the magnetization Mz goes through a rotation of nπ where n is an odd or even integer, respectively. TSks with a rotation of the z component of up to 4π have been imaged via high spatial resolution element-specific x-ray imaging. The TSks were generated by weakly coupling 30 nm thin Permalloy (Ni80Fe20, PY) disks with a 1 μm diameter to asymmetric (Ir 1 nm/Co 1.5 nm/Pt 1 nm) × 7 multilayers that exhibit Dzyaloshinskii-Moriya interaction. The PY disks stabilize the TSks in the multilayers due to reduced stray field energy and enforced circular symmetry from pinning of domain walls at the edges of the disks. Upon applying external magnetic fields, it is the skyrmion core at the center that ensures stability of the TSk, whereas the collapse of the extended structures in the TSk does not depend on the topological charge. [ABSTRACT FROM AUTHOR]

Published

2019