A. Strinić scite author profile

Magnetoelectric phenomena are intimately linked to relativistic effects and also require the material to break spatial inversion symmetry and time-reversal invariance. Magnetoelectric coupling can substantially affect light–matter interaction and lead to non-reciprocal light propagation. Here, we confirm on a fully experimental basis, without invoking either symmetry-based or material-specific assumptions, that the optical magnetoelectric effect in materials with non-parallel magnetization (M) and electric polarization (P) generates a trilinear term in the refractive index, δn ∝ k ⋅ (P × M), where k is the propagation vector of light. Its sharp magnetoelectric resonances in the terahertz regime, which are simultaneously electric and magnetic dipole active excitations, make Co2Mo3O8 an ideal compound to demonstrate this fundamental relation via independent variation of M, P, and k. Remarkably, the material shows almost perfect one-way transparency in moderate magnetic fields for one of these magnetoelectric resonances.

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Magnetoelectric properties and low-energy excitations of multiferroic FeCr2S4

Strinić

Reschke

Vasin

et al. 2020

Phys. Rev. B

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Magneto-optical assessment of Plasmodium parasite growth via hemozoin crystal size

Orbán

Schumacher

Mucza

et al. 2023

Preprint

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Hemozoin is a natural biomarker formed during the hemoglobin metabolism of Plasmodiumparasites, the causative agents of malaria. The rotating-crystal magneto-optical detection (RMOD) has been developed for its rapid and sensitive detection both in cell cultures and patient samples. In the current article we demonstrate that, besides quantifying the overall concentration of hemozoin produced by the parasites, RMOD can also track the size distribution of the hemozoin crystals. We establish the relations between the magneto-optical signal, the mean parasite age and the median crystal size throughout one erythrocytic cycle of Plasmodium falciparum parasites, where the latter two are determined by optical and scanning electron microscopy, respectively. The significant correlation between the magneto-optical signal and the stage distribution of the parasites indicates that the RMOD method can be utilized for species-specific malaria diagnosis and for the quick assessment of drug efficacy.

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A. Strinić

Insulating improper ferroelectric domain walls as robust barrier layer capacitors

Magnetic and vibronic terahertz excitations in Zn-doped Fe2Mo3O8

Confirming the trilinear form of the optical magnetoelectric effect in the polar honeycomb antiferromagnet Co2Mo3O8

Magnetoelectric properties and low-energy excitations of multiferroic FeCr2S4

Magneto-optical assessment of Plasmodium parasite growth via hemozoin crystal size

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