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Bondarenko, A.V. (author), Kounalakis, M. (author), Kusminskiy, Silvia Viola (author), Bauer, G.E. (author), Blanter, Y.M. (author)
Optical photons are ideal carriers for long-distance transmission, while state-of-the-art quantum processors, such as supercon-ducting qubits, operate at microwave frequencies. An important requirement for networked quantum computation is therefore the ability to coherently convert the quantum information from microwave to optical frequencies...
conference paper 2023
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Carmiggelt, J.J. (author), Bertelli, I. (author), Mulder, R.W. (author), Teepe, A. (author), Elyasi, Mehrdad (author), Simon, B.G. (author), Bauer, G.E. (author), Blanter, Y.M. (author), van der Sar, T. (author)
Quantum sensing has developed into a main branch of quantum science and technology. It aims at measuring physical quantities with high resolution, sensitivity, and dynamic range. Electron spins in diamond are powerful magnetic field sensors, but their sensitivity in the microwave regime is limited to a narrow band around their resonance...
journal article 2023
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Bauer, G.E. (author), Tang, P. (author), Elyasi, M. (author), Blanter, Y.M. (author), Van Wees, B. J. (author)
We discuss spin-wave transport in anisotropic ferromagnets with an emphasis on the zeros of the band edges as a function of a magnetic field. An associated divergence of the magnon spin should be observable by enhanced magnon conductivities in nonlocal configurations, especially in two-dimensional ferromagnets.
journal article 2023
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Kounalakis, M. (author), Bauer, G.E. (author), Blanter, Y.M. (author)
We propose to directly and quantum-coherently couple a superconducting transmon qubit to magnons - the quanta of the collective spin excitations, in a nearby magnetic particle. The magnet's stray field couples to the qubit via a superconducting quantum interference device. We predict a resonant magnon-qubit exchange and a nonlinear radiation...
journal article 2022
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Zare Rameshti, Babak (author), Viola Kusminskiy, Silvia (author), Haigh, James A. (author), Usami, Koji (author), Lachance-Quirion, Dany (author), Nakamura, Yasunobu (author), Hu, Can Ming (author), Bauer, G.E. (author), Blanter, Y.M. (author)
Cavity magnonics deals with the interaction of magnons — elementary excitations in magnetic materials — and confined electromagnetic fields. We introduce the basic physics and review the experimental and theoretical progress of this young field that is gearing up for integration in future quantum technologies. Much of its appeal is derived...
review 2022
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Bertelli, I. (author), Simon, B.G. (author), Yu, T. (author), Aarts, Jan (author), Bauer, G.E. (author), Blanter, Y.M. (author), van der Sar, T. (author)
Spin waves in magnetic insulators are low-damping signal carriers that can enable a new generation of spintronic devices. The excitation, control, and detection of spin waves by metal electrodes is crucial for interfacing these devices to electrical circuits. As such, it is important to understand metal-induced damping of spin-wave transport,...
journal article 2021
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Ortmanns, Lara C. (author), Bauer, G.E. (author), Blanter, Y.M. (author)
We determine magnon spectra of an atomic bilayer magnet with ferromagnetic intra- and both ferro- and antiferromagnetic interlayer coupling. Analytic expressions for the full magnon band of the latter case reveal that both exchange interactions govern the fundamental magnon gap. The inter- and intralayer magnetic ordering are not independent:...
journal article 2021
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Yu, T. (author), Zhang, Yu Xiang (author), Sharma, S. (author), Zhang, Xiang (author), Blanter, Y.M. (author), Bauer, G.E. (author)
We report strong chiral coupling between magnons and photons in microwave waveguides that contain chains of small magnets on special lines. Large magnon accumulations at one edge of the chain emerge when exciting the magnets by a phased antenna array. This mechanism holds the promise of new functionalities in nonlinear and quantum magnonics.
journal article 2020
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Elyasi, M. (author), Blanter, Y.M. (author), Bauer, G.E. (author)
We theoretically explore nonlinearities of ferromagnets in microwave cavities in the classical and quantum regimes and assess the resources for quantum information, i.e., fluctuation squeezing and bipartite entanglement. The (semi)classical analysis of the anharmonic oscillator (Duffing) model for the Kittel mode when including all other...
journal article 2020
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Bertelli, I. (author), Carmiggelt, J.J. (author), Yu, T. (author), Simon, B.G. (author), Pothoven, C.C. (author), Bauer, G.E. (author), Blanter, Y.M. (author), Aarts, J.M. (author), van der Sar, T. (author)
Spin waves-the elementary excitations of magnetic materials-are prime candidate signal carriers for low-dissipation information processing. Being able to image coherent spin-wave transport is crucial for developing interference-based spin-wave devices. We introduce magnetic resonance imaging of the microwave magnetic stray fields that are...
journal article 2020
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Šimić, Fran (author), Sharma, S. (author), Blanter, Y.M. (author), Bauer, G.E. (author)
We propose and model a method to excite a large number of coherent magnons with high momentum in optical cavities. This is achieved by two counterpropagating optical modes that are detuned by the frequency of a selected magnon, similar to stimulated Raman scattering. In submillimeter-size yttrium iron garnet spheres, a milliwatt laser input...
journal article 2020
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Yu, T. (author), Zhang, Xiang (author), Sharma, S. (author), Blanter, Y.M. (author), Bauer, G.E. (author)
We theoretically investigate the collective excitations of multiple (sub)millimeter-sized ferromagnets mediated by waveguide photons. By the position of the magnets in the waveguide, the magnon-photon coupling can be tuned to be chiral, i.e., magnons only couple with photons propagating in one direction, leading to an asymmetric transfer of...
journal article 2020
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Yu, T. (author), Blanter, Y.M. (author), Bauer, G.E. (author)
We report a theory for the coherent and incoherent chiral pumping of spin waves into thin magnetic films through the dipolar coupling with a local magnetic transducer, such as a nanowire. The ferromagnetic resonance of the nanowire is broadened by the injection of unidirectional spin waves that generates a nonequilibrium magnetization in only...
journal article 2019
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Yu, T. (author), Liu, Chuanpu (author), Yu, Haiming (author), Blanter, Y.M. (author), Bauer, G.E. (author)
We theoretically investigate the interlayer dipolar and exchange couplings between an array of metallic magnetic nanowires grown on top of an extended ultrathin yttrium iron garnet film. The calculated interlayer dipolar coupling agrees with observed anticrossings [Chen et al., Phys. Rev. Lett. 120, 217202 (2018)PRLTAO0031-900710.1103...
journal article 2019
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Sharma, S. (author), Rameshti, Babak Zare (author), Blanter, Y.M. (author), Bauer, G.E. (author)
Inelastic scattering of photons is a promising technique to manipulate magnons but it suffers from weak intrinsic coupling. We theoretically discuss an idea to increase optomagnonic coupling in optical whispering gallery mode cavities by generalizing a previous analysis to include the exchange interaction. We predict that the optomagnonic...
journal article 2019
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Yu, T. (author), Sharma, S. (author), Blanter, Y.M. (author), Bauer, G.E. (author)
The chirality of magnetostatic Damon-Eshbach (DE) magnons affects the transport of energy and angular momentum at the surface of magnetic films and spheres. We calculate the surface-disorder-limited dephasing and transport lifetimes of surface modes of sufficiently thick high-quality ferromagnetic films such as yttrium iron garnet. Surface...
journal article 2019
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Chen, Jilei (author), Yu, T. (author), Liu, Chuanpu (author), Liu, Tao (author), Madami, Marco (author), Shen, Ka (author), Zhang, J (author), Blanter, Y.M. (author), Bauer, G.E. (author)
Magnon spintronics is a prosperous field that promises beyond-CMOS technology based on elementary excitations of the magnetic order that act as information carriers for future computational architectures. Unidirectional propagation of spin waves is key to the realization of magnonic logic devices. However, previous efforts to enhance the...
journal article 2019
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Sharma, S. (author), Blanter, Y.M. (author), Bauer, G.E. (author)
Inelastic scattering of light by spin waves generates an energy flow between the light and magnetization fields, a process that can be enhanced and controlled by concentrating the light in magneto-optical resonators. Here, we model the cooling of a sphere made of a magnetic insulator, such as yttrium iron garnet, using a monochromatic laser...
journal article 2018
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Haigh, J. A. (author), Lambert, N. J. (author), Sharma, S. (author), Blanter, Y.M. (author), Bauer, G.E. (author), Ramsay, A. J. (author)
We identify experimentally the magnetostatic modes active for Brillouin light scattering in the optical whispering gallery modes of a yttrium iron garnet sphere. Each mode is identified by magnetic-field dispersion of ferromagnetic-resonance spectroscopy and coupling strength to the known field distribution of the microwave drive antenna. Our...
journal article 2018
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Sharma, S. (author), Blanter, Y.M. (author), Bauer, G.E. (author)
Brillouin light scattering is an established technique to study magnons, the elementary excitations of a magnet. Its efficiency can be enhanced by cavities that concentrate the light intensity. Here, we theoretically study inelastic scattering of photons by a magnetic sphere that supports optical whispering gallery modes in a plane normal to...
journal article 2017
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