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Your search keyword '"Bidthanapally, Rao"' showing total 22 results
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22 results on '"Bidthanapally, Rao"'

1. Hybrid magnonics for short-wavelength spin waves facilitated by a magnetic heterostructure

Author

Inman, Jerad, Xiong, Yuzan, Bidthanapally, Rao, Louis, Steven, Tyberkevych, Vasyl, Qu, Hongwei, Sklenar, Joseph, Novosad, Valentine, Li, Yi, Zhang, Xufeng, and Zhang, Wei

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Recent research on hybrid magnonics has been restricted by the long magnon wavelengths of the ferromagnetic resonance modes. We present an experiment on the hybridization of 250-nm wavelength magnons with microwave photons in a multimode magnonic system consists of a planar cavity and a magnetic bilayer. The coupling between magnon modes in the two magnetic layers, i.e., the uniform mode in Permalloy (Py) and the perpendicular standing spin waves (PSSWs) in YIG, serves as an effective means for exciting short-wavelength PSSWs, which is further hybridized with the photon mode of the microwave resonator. The demonstrated magnon-photon coupling approaches the superstrong coupling regime, and can even be achieved near zero bias field., Comment: 6 pages, 4 figures

Published
2022

2. Tunable magnetically induced transparency spectra in magnon-magnon coupled Y3Fe5O12/permalloy bilayers

Author

Xiong, Yuzan, Inman, Jerad, Li, Zhengyi, Xie, Kaile, Bidthanapally, Rao, Sklenar, Joseph, Li, Peng, Louis, Steven, Tyberkevych, Vasyl, Qu, Hongwei, Xiao, Zhili, Kwok, Wai K., Novosad, Valentine, Li, Yi, Ma, Fusheng, and Zhang, Wei

Subjects
Condensed Matter - Materials Science
Abstract

Hybrid magnonic systems host a variety of characteristic quantum phenomena such as the magnetically-induced transparency (MIT) and Purcell effect, which are considered useful for future coherent quantum information processing. In this work, we experimentally demonstrate a tunable MIT effect in the Y3Fe5O12(YIG)/Permalloy(Py) magnon-magnon coupled system via changing the magnetic field orientations. By probing the magneto-optic effects of Py and YIG, we identify clear features of MIT spectra induced by the mode hybridization between the uniform mode of Py and the perpendicular standing spin-wave modes of YIG. By changing the external magnetic field orientations, we observe a tunable coupling strength between the YIG's spin-wave modes and the Py's uniform mode, upon the application of an out-of-plane magnetic field. This observation is theoretically interpreted by a geometrical consideration of the Py and YIG magnetization under the oblique magnetic field even at a constant interfacial exchange coupling. Our findings show high promise for investigating tunable coherent phenomena with hybrid magnonic platforms., Comment: 10 pages, 5 figures

Published
2022

5. Probing magnon-magnon coupling in exchange coupled Y$_3$Fe$_5$O$_{12}$/Permalloy bilayers with magneto-optical effects

Author

Xiong, Yuzan, Li, Yi, Hammami, Mouhamad, Bidthanapally, Rao, Sklenar, Joseph, Zhang, Xufeng, Qu, Hongwei, Srinivasan, Gopalan, Pearson, John, Hoffmann, Axel, Novosad, Valentine, and Zhang, Wei

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

We demonstrate the magnetically-induced transparency (MIT) effect in Y$_3$Fe$_5$O$_{12}$(YIG)/Permalloy(Py) coupled bilayers. The measurement is achieved via a heterodyne detection of the coupled magnetization dynamics using a single wavelength that probes the magneto-optical Kerr and Faraday effects of Py and YIG, respectively. Clear features of the MIT effect are evident from the deeply modulated ferromagnetic resonance of Py due to the perpendicular-standing-spin-wave of YIG. We develop a phenomenological model that nicely reproduces the experimental results including the induced amplitude and phase evolution caused by the magnon-magnon coupling. Our work offers a new route towards studying phase-resolved spin dynamics and hybrid magnonic systems., Comment: 16 pages, 3 figures

Published
2019

6. Simultaneous Optical and Electrical Spin-Torque Magnetometry with Stroboscopic Detection of Spin-Precession Phase

Author

Li, Yi, Saglam, Hilal, Zhang, Zhizhi, Bidthanapally, Rao, Xiong, Yuzan, Pearson, John E., Novosad, Valentine, Qu, Hongwei, Srinivasan, Gopalan, and Zhang, Axel Hoffmann andand Wei

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

Spin-based coherent information processing and encoding utilize the precession phase of spins in magnetic materials. However, the detection and manipulation of spin precession phases remain a major challenge for advanced spintronic functionalities. By using simultaneous electrical and optical detection, we demonstrate the direct measurement of the precession phase of Permalloy ferromagnetic resonance driven by the spin-orbit torques from adjacent heavy metals. The spin Hall angle of the heavy metals can be independently determined from concurrent electrical and optical signals. The stroboscopic optical detection also allows spatially measuring local spin-torque parameters and the induced ferromagnetic resonance with comprehensive amplitude and phase information. Our study offers a route towards future advanced characterizations of spin-torque oscillators, magnonic circuits, and tunnelling junctions, where measuring the current-induced spin dynamics of individual nanomagnets are required., Comment: 12 pages, 9 figures

Published
2019
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10. A Novel Spinel Ferrite-Hexagonal Ferrite Composite for Enhanced Magneto-Electric Coupling in a Bilayer with PZT.

Author

Saha, Sujoy, Acharya, Sabita, Popov, Maksym, Sauyet, Theodore, Pfund, Jacob, Bidthanapally, Rao, Jain, Menka, Page, Michael R., and Srinivasan, Gopalan

Subjects
NICKEL ferrite, MAGNETOELECTRIC effect, MAGNETIC anisotropy, FERRITES, SPINEL, MAGNETIC fields
Abstract

The magnetoelectric effect (ME) is an important strain mediated-phenomenon in a ferromagnetic-piezoelectric composite for a variety of sensors and signal processing devices. A bias magnetic field, in general, is essential to realize a strong ME coupling in most composites. Magnetic phases with (i) high magnetostriction for strong piezomagnetic coupling and (ii) large anisotropy field that acts as a built-in bias field are preferred so that miniature, ME composite-based devices can operate without the need for an external magnetic field. We are able to realize such a magnetic phase with a composite of (i) barium hexaferrite (BaM) with high magnetocrystalline anisotropy field and (ii) nickel ferrite (NFO) with high magnetostriction. The BNx composites, with (100 − x) wt.% of BaM and x wt.% NFO, for x = 0–100, were prepared. X-ray diffraction analysis shows that the composites did not contain any impurity phases. Scanning electron microscopy images revealed that, with an increase in NFO content, hexagonal BaM grains become prominent, leading to a large anisotropy field. The room temperature saturation magnetization showed a general increase with increasing BaM content in the composites. NFO rich composites with x ≥ 60 were found to have a large magnetostriction value of around −23 ppm, comparable to pure NFO. The anisotropy field HA of the composites, determined from magnetization and ferromagnetic resonance (FMR) measurements, increased with increasing NFO content and reached a maximum of 7.77 kOe for x = 75. The BNx composite was cut into rectangular platelets and bonded with PZT to form the bilayers. ME voltage coefficient (MEVC) measurements at low frequencies and at mechanical resonance showed strong coupling at zero bias for samples with x ≥ 33. This large in-plane HA acted as a built-in field for strong ME effects under zero external bias in the bilayers. The highest zero-bias MEVC of ~22 mV/cm Oe was obtained for BN75-PZT bilayers wherein BN75 also has the highest HA. The Bilayer of BN95-PZT showed a maximum MEVC ~992 mV/cm Oe at electromechanical resonance at 59 kHz. The use of hexaferrite–spinel ferrite composite to achieve strong zero-bias ME coupling in bilayers with PZT is significant for applications related to energy harvesting, sensors, and high frequency devices. [ABSTRACT FROM AUTHOR]

Published
2023
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14. Tunable Magnetically Induced Transparency Spectra in Magnon-Magnon Coupled Y3Fe5O12/ Permalloy Bilayers

Author

Xiong, Yuzan, primary, Inman, Jerad, additional, Li, Zhengyi, additional, Xie, Kaile, additional, Bidthanapally, Rao, additional, Sklenar, Joseph, additional, Li, Peng, additional, Louis, Steven, additional, Tyberkevych, Vasyl, additional, Qu, Hongwei, additional, Xiao, Zhili, additional, Kwok, Wai K., additional, Novosad, Valentine, additional, Li, Yi, additional, Ma, Fusheng, additional, and Zhang, Wei, additional

Published
2022
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16. Detecting Phase-Resolved Magnetization Dynamics by Magneto-Optic Effects at 1550 nm Wavelength

Author

Xiong, Yuzan, primary, Li, Yi, additional, Bidthanapally, Rao, additional, Sklenar, Joseph, additional, Hammami, Mouhamad, additional, Hall, Sawyer, additional, Zhang, Xufeng, additional, Li, Peng, additional, Pearson, John E., additional, Sebastian, Thomas, additional, Srinivasan, Gopalan, additional, Hoffmann, Axel, additional, Qu, Hongwei, additional, Novosad, Valentine, additional, and Zhang, Wei, additional

Published
2021
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17. Probing magnon–magnon coupling in exchange coupled Y\documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$_3$$\end{document}3Fe\documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$_5$$\end{document}5O\documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$_{12}$$\end{document}12/Permalloy bilayers with magneto-optical effects

Author

Xiong, Yuzan, Li, Yi, Hammami, Mouhamad, Bidthanapally, Rao, Sklenar, Joseph, Zhang, Xufeng, Qu, Hongwei, Srinivasan, Gopalan, Pearson, John, Hoffmann, Axel, Novosad, Valentine, and Zhang, Wei

Subjects
Surfaces, interfaces and thin films, Magnetic properties and materials, Spintronics, Article
Abstract

We demonstrate the magnetically-induced transparency (MIT) effect in Y\documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$_3$$\end{document}3Fe\documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$_5$$\end{document}5O\documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$_{12}$$\end{document}12(YIG)/Permalloy (Py) coupled bilayers. The measurement is achieved via a heterodyne detection of the coupled magnetization dynamics using a single wavelength that probes the magneto-optical Kerr and Faraday effects of Py and YIG, respectively. Clear features of the MIT effect are evident from the deeply modulated ferromagnetic resonance of Py due to the perpendicular-standing-spin-wave of YIG. We develop a phenomenological model that nicely reproduces the experimental results including the induced amplitude and phase evolution caused by the magnon–magnon coupling. Our work offers a new route towards studying phase-resolved spin dynamics and hybrid magnonic systems.

Published
2020

18. Converse magnetoelectric effects in composites of liquid phase epitaxy grown nickel zinc ferrite films and lead zirconate titanate: Studies on the influence of ferrite film parameters

Author

Zhou, Peng, primary, Popov, M. A., additional, Liu, Ying, additional, Bidthanapally, Rao, additional, Filippov, D. A., additional, Zhang, Tianjin, additional, Qi, Yajun, additional, Shah, P. J., additional, Howe, B. M., additional, McConney, M. E., additional, Luo, Yongming, additional, Sreenivasulu, G., additional, Srinivasan, G., additional, and Page, M. R., additional

Published
2019
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22. Fabrication and characterization of a MEMS nano-Tesla ferromagnetic-piezoelectric magnetic sensor array.

Author

Peng Qu, Gollapudi, Sreenivasulu, Bidthanapally, Rao, Srinivasan, Gopalan, Petrov, Vladimir, and Hongwei Qu

Subjects
MAGNETIC sensors, FERROMAGNETIC materials, ELECTROPLATING, THIN films, DETECTORS, MAGNETOCARDIOGRAPHY
Abstract

A self-biased MEMS magnetic sensor array with ferromagnetic-piezoelectric composites has been fabricated and characterized. The array with two Quartz-Nickel-Metglas cantilevers with nano-tesla sensitivity was fabricated by MEMS processes including silicon-quartz low temperature bonding, quartz wafer thinning, and electroplating of thick nickel thin films. Under self-biasing due to magnetization grading of ferromagnetic layer, magnetoelectric coefficients of 6.6 and 5.6V/cm Oe and resolutions of ~0.58 and ~0.75 nT are obtained at the mechanical resonant frequencies of 191.5 and 184.8 Hz for the two sensors in the array, respectively. Such arrays have the potential for applications in biomagnetic imaging technologies including magneto-cardiography. [ABSTRACT FROM AUTHOR]

Published
2016
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