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29 March 2024 |
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Article overview
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Hybrid quantum systems based on magnonics | Dany Lachance-Quirion
; Yutaka Tabuchi
; Arnaud Gloppe
; Koji Usami
; Yasunobu Nakamura
; | Date: |
8 Feb 2019 | Abstract: | Engineered quantum systems enabling novel capabilities for communication,
computation, and sensing have blossomed in the last decade. Architectures
benefiting from combining distinct and complementary physical quantum systems
have emerged as promising platforms for developing quantum technologies. A new
class of hybrid quantum systems based on collective spin excitations in
ferromagnetic materials has led to the diverse set of experimental platforms
which are outlined in this review article. More specifically, the coherent
interaction between microwave cavity modes and collective spin-wave modes is
presented as the backbone of the development of more complex hybrid quantum
systems. Indeed, quanta of excitation of the spin-wave modes, called magnons,
can also interact coherently with optical photons, phonons, and superconducting
qubits in the fields of cavity optomagnonics, cavity magnomechanics, and
quantum magnonics, respectively. Notably, quantum magnonics provides a
promising platform for performing quantum optics experiments in
magnetically-ordered solid-state systems. Applications of hybrid quantum
systems based on magnonics for quantum information processing and quantum
sensing are also outlined briefly. | Source: | arXiv, 1902.3024 | Services: | Forum | Review | PDF | Favorites |
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