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Main Authors: Xu, Jing, Horn, Connor, Jiang, Yu, Pishehvar, Amin, Li, Xinhao, Rosenmann, Daniel, Han, Xu, Levy, Miguel, Guha, Supratik, Zhang, Xufeng
Format: Preprint
Published: 2023
Subjects:
Online Access:https://arxiv.org/abs/2312.10660
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author Xu, Jing
Horn, Connor
Jiang, Yu
Pishehvar, Amin
Li, Xinhao
Rosenmann, Daniel
Han, Xu
Levy, Miguel
Guha, Supratik
Zhang, Xufeng
author_facet Xu, Jing
Horn, Connor
Jiang, Yu
Pishehvar, Amin
Li, Xinhao
Rosenmann, Daniel
Han, Xu
Levy, Miguel
Guha, Supratik
Zhang, Xufeng
contents Yttrium iron garnet (YIG) magnonics has garnered significant research interest because of the unique properties of magnons (quasiparticles of collective spin excitation) for signal processing. In particular, hybrid systems based on YIG magnonics show great promise for quantum information science due to their broad frequency tunability and strong compatibility with other platforms. However, their broad applications have been severely constrained by substantial microwave loss in the gadolinium gallium garnet (GGG) substrate at cryogenic temperatures. In this study, we demonstrate that YIG thin films can be spalled from YIG/GGG samples. Our approach is validated by measuring hybrid devices comprising superconducting resonators and spalled YIG films, which exhibits anti-crossing features that indicate strong coupling between magnons and microwave photons. Such new capability of separating YIG thin films from GGG substrates via spalling, and the integrated superconductor-YIG devices represent a significant advancement for integrated magnonic devices, paving the way for advanced magnon-based coherent information processing.
format Preprint
id arxiv_https___arxiv_org_abs_2312_10660
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Cryogenic hybrid magnonic circuits based on spalled YIG thin films
Xu, Jing
Horn, Connor
Jiang, Yu
Pishehvar, Amin
Li, Xinhao
Rosenmann, Daniel
Han, Xu
Levy, Miguel
Guha, Supratik
Zhang, Xufeng
Mesoscale and Nanoscale Physics
Quantum Physics
Yttrium iron garnet (YIG) magnonics has garnered significant research interest because of the unique properties of magnons (quasiparticles of collective spin excitation) for signal processing. In particular, hybrid systems based on YIG magnonics show great promise for quantum information science due to their broad frequency tunability and strong compatibility with other platforms. However, their broad applications have been severely constrained by substantial microwave loss in the gadolinium gallium garnet (GGG) substrate at cryogenic temperatures. In this study, we demonstrate that YIG thin films can be spalled from YIG/GGG samples. Our approach is validated by measuring hybrid devices comprising superconducting resonators and spalled YIG films, which exhibits anti-crossing features that indicate strong coupling between magnons and microwave photons. Such new capability of separating YIG thin films from GGG substrates via spalling, and the integrated superconductor-YIG devices represent a significant advancement for integrated magnonic devices, paving the way for advanced magnon-based coherent information processing.
title Cryogenic hybrid magnonic circuits based on spalled YIG thin films
topic Mesoscale and Nanoscale Physics
Quantum Physics
url https://arxiv.org/abs/2312.10660