Kristian Arjas scite author profile

We present a comprehensive investigation of propagating spin waves in nanometer-thick yttrium iron garnet (YIG) films. We use broadband spin-wave spectroscopy with integrated coplanar waveguides (CPWs) and microstrip antennas on top of continuous and patterned YIG films to characterize spin waves with wave vectors up to 10 rad/µm. All films are grown by pulsed laser deposition. From spin-wave transmission spectra, parameters such as the Gilbert damping constant, spin-wave dispersion relation, group velocity, relaxation time, and decay length are derived and their dependence on magnetic bias field strength and angle is systematically gauged. For a 40-nm-thick YIG film, we obtain a damping constant of 3.5 × 10 −4 and a maximum decay length of 1.2 mm. Our experiments reveal a strong variation of spin-wave parameters with magnetic bias field and wave vector. Spinwave properties change considerably up to a magnetic bias field of about 30 mT and above a field angle of θH = 20 • , where θH = 0 • corresponds to the Damon-Eshbach configuration.

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Magnetic on–off switching of a plasmonic laser

Freire-Fernández

Cuerda

Daskalakis

et al. 2021

Nat. Photon.

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Loss-Driven Topological Transitions in Lasing

Salerno

Heilmann²,

Arjas³

et al. 2022

Phys. Rev. Lett.

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We experimentally observe lasing in a hexamer plasmonic lattice and find that, when tuning the scale of the unit cell, the polarization properties of the emission change. By a theoretical analysis, we identify the lasing modes as quasi-bound-states in continuum of topological charges of zero, one, or two. A T-matrix simulation of the structure reveals that the mode quality (Q) factors depend on the scale of the unit cell, with highest-Q modes favored by lasing. The system thus shows a loss-driven transition between lasing in modes of trivial and high-order topological charge.

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Kristian Arjas

Propagating spin waves in nanometer-thick yttrium iron garnet films: Dependence on wave vector, magnetic field strength, and angle

Magnetic on–off switching of a plasmonic laser

Loss-Driven Topological Transitions in Lasing

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