Controlling photon-magnon coupling using another magnon
- URL: http://arxiv.org/abs/2506.02463v2
- Date: Thu, 19 Jun 2025 08:50:59 GMT
- Title: Controlling photon-magnon coupling using another magnon
- Authors: Fizaan Khan, Sachin Verma, Biswanath Bhoi, Rajeev Singh,
- Abstract summary: We investigate photon-mediated magnon-magnon coupling between Yttrium Iron Garnet (YIG) and permalloy (NiFe) thin films placed on a planar hexagonal ring resonator.<n>We observe clear signatures of magnon-magnon interaction in the absence of direct dipolar interaction between the magnetic films.
- Score: 0.0
- License: http://creativecommons.org/licenses/by/4.0/
- Abstract: We investigate photon-mediated magnon-magnon coupling between spatially separated Yttrium Iron Garnet (YIG) and permalloy (NiFe) thin films placed on a planar hexagonal ring resonator. We observe clear signatures of magnon-magnon interaction in the absence of direct dipolar interaction between the magnetic films. Notably, the coupling strength between the hexagonal ring resonator and the permalloy film increases with the thickness of the YIG film, despite a fixed permalloy film thickness, suggesting the presence of an indirect interaction channel mediated by resonator photons. To support these findings, we present a theoretical model that accurately reproduces the observed transmission spectra and reveals a nontrivial interdependence between the individual coupling strengths of YIG and permalloy to the resonator. These results underscore the importance of indirect interactions and potential crosstalk pathways in designing hybrid magnonic systems and scalable quantum architectures, while demonstrating the feasibility of cost-effective, planar configurations for experimental implementation. These insights are valuable for advancing low-loss, coherent information transfer in hybrid quantum devices.
Related papers
- Engineering giant transmon molecules as mediators of conditional two-photon gates [44.99833362998488]
We show how to use an array of non-locally coupled transmon "molecules" to engineer a passive photonic controlled gate for waveguide photons.<n>Our work opens the use of giant atoms as key elements of microwave photonic quantum computing devices.
arXiv Detail & Related papers (2025-07-07T18:03:59Z) - Emergent Kitaev materials in synthetic Fermi-Hubbard bilayers [49.1574468325115]
Bond-directional spin-spin interactions in a Fermi-Hubbard bilayer can be realized with ultracold fermions in Raman optical lattices.<n>We analyze the Fermi-liquid and Mott-insulating phases, highlighting a correspondence between Dirac and Majorana quasi-particles.<n>Our results establish that cold-atom quantum simulators based on Raman optical lattices can be a playground for extended Kitaev models.
arXiv Detail & Related papers (2025-04-22T10:07:56Z) - Second-order correlation and squeezing of photons in cavities with ultrastrong magnon-photon interactions [0.0]
This study focuses on ferromagnetic and antiferromagnetic cavities within the ultrastrong coupling regime.<n>We show that counter-rotating magnon-photon interactions induce quadrature squeezing in the cavity mode.<n> tuning the anisotropic magnon-cavity couplings enhances the squeezing effect.
arXiv Detail & Related papers (2024-11-27T16:59:41Z) - Photon correlation time-asymmetry and dynamical coherence in multichromophoric systems [44.99833362998488]
We show that time-asymmetries in the cross-correlations of photons corresponding to different polarizations can be exploited to probe quantum coherent transport mechanisms and steady-state coherence properties.
Our results put forward photon correlation asymmetry as a promising approach to investigate coherent contributions to excited-stated dynamics in molecular aggregates and other many-site quantum emitters.
arXiv Detail & Related papers (2024-04-24T21:06:01Z) - Controlling magnon-photon coupling in a planar geometry [0.0]
We study magnon-photon coupling using a high-quality factor split-ring resonator.
We find that the coupling is stronger for spheres with a larger diameter as predicted by theory.
arXiv Detail & Related papers (2024-02-05T15:01:57Z) - Engineering the impact of phonon dephasing on the coherence of a WSe$_{2}$ single-photon source via cavity quantum electrodynamics [36.88715167286119]
Emitter dephasing is one of the key issues in the performance of solid-state single photon sources.
We show that it is possible to tune and engineer the coherence of photons emitted from a single WSe$$ monolayer dot via selectively coupling it to a spectral cavity resonance.
arXiv Detail & Related papers (2023-07-13T16:41:06Z) - Atom interferometry with coherent enhancement of Bragg pulse sequences [41.94295877935867]
We demonstrate momentum splitting up to 200 photon recoils in an ultra-cold atom interferometer.
We highlight a new mechanism of destructive interference of the losses leading to a sizeable efficiency enhancement of the beam splitters.
arXiv Detail & Related papers (2023-05-16T15:00:05Z) - Measuring the magnon-photon coupling in shaped ferromagnets: tuning of
the resonance frequency [50.591267188664666]
cavity photons and ferromagnetic spins excitations can exchange information coherently in hybrid architectures.
Speed enhancement is usually achieved by optimizing the geometry of the electromagnetic cavity.
We show that the geometry of the ferromagnet plays also an important role, by setting the fundamental frequency of the magnonic resonator.
arXiv Detail & Related papers (2022-07-08T11:28:31Z) - Entangled biphoton enhanced double quantum coherence signal as a probe
for cavity polariton correlations in presence of phonon induced dephasing [0.0]
We propose a biphoton entanglement-enhanced multidimensional spectroscopic technique as a probe for the dissipative polariton dynamics in the ultrafast regime.
The proposed technique is shown to be particularly sensitive to inter-manifold polariton coherence between the two and one-excitation subspaces.
It is demonstrated to be able to monitor the dynamical role of cavity-mediated excitonic correlations, and dephasing in the presence of phonon-induced dissipation.
arXiv Detail & Related papers (2022-05-31T11:25:34Z) - Coexistence of coupling-induced transparency and absorption of
transmission signals in magnon-mediated photon-photon coupling [3.6704226968275258]
Coexistence of coupling-induced transparency (CIT) and absorption (CIA) of signals in magnon-mediated photon-photon coupling was experimentally determined.
This work, promisingly, can provide guidance for design of efficient, flexible, and well-controllable photon-magnonic devices.
arXiv Detail & Related papers (2022-02-06T00:56:26Z) - Optomagnonics in dispersive media: magnon-photon coupling enhancement at
the epsilon-near-zero frequency [0.0]
Single-magnon photon optomagnonic coupling can be comparable to the uniform magnon's frequency for small magnetic volumes.
Non-linear energy spectrum intrinsic to this coupling regime regime can be probed via the characteristic multiple magnon sidebands in the photon power spectrum.
arXiv Detail & Related papers (2021-10-06T18:00:22Z) - Chemical tuning of spin clock transitions in molecular monomers based on
nuclear spin-free Ni(II) [52.259804540075514]
We report the existence of a sizeable quantum tunnelling splitting between the two lowest electronic spin levels of mononuclear Ni complexes.
The level anti-crossing, or magnetic clock transition, associated with this gap has been directly monitored by heat capacity experiments.
The comparison of these results with those obtained for a Co derivative, for which tunnelling is forbidden by symmetry, shows that the clock transition leads to an effective suppression of intermolecular spin-spin interactions.
arXiv Detail & Related papers (2021-03-04T13:31:40Z)
This list is automatically generated from the titles and abstracts of the papers in this site.
This site does not guarantee the quality of this site (including all information) and is not responsible for any consequences.