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Giant magneto-birefringence effect and tuneable colouration of 2D crystal suspensions

Baofu Ding, Wenjun Kuang, Yikun Pan, I. V. Grigorieva, A. K. Geim, Bilu Liu, Hui-Ming Cheng

2020Nature Communications58 citationsDOIOpen Access PDF

Abstract

One of the long-sought-after goals in light manipulation is tuning of transmitted interference colours. Previous approaches toward this goal include material chirality, strain and electric-field controls. Alternatively, colour control by magnetic field offers contactless, non-invasive and energy-free advantages but has remained elusive due to feeble magneto-birefringence in conventional transparent media. Here we demonstrate an anomalously large magneto-birefringence effect in transparent suspensions of magnetic two-dimensional crystals, which arises from a combination of a large Cotton-Mouton coefficient and relatively high magnetic saturation birefringence. The effect is orders of magnitude stronger than those previously demonstrated for transparent materials. The transmitted colours of the suspension can be continuously tuned over two-wavelength cycles by moderate magnetic fields below 0.8 T. The work opens a new avenue to tune transmitted colours, and can be further extended to other systems with artificially engineered magnetic birefringence.

Topics & Concepts

Magnetic fieldSaturation (graph theory)Materials scienceSuspension (topology)Condensed matter physicsCrystal (programming language)OptoelectronicsWork (physics)Strain (injury)OpticsMagnetic nanoparticlesRecording mediaInterference (communication)Liquid crystalNanotechnologyPhotonic crystalField (mathematics)Magnetic hysteresisMagnetic susceptibilityMetamaterials and Metasurfaces ApplicationsMultiferroics and related materialsPhotonic Crystals and Applications
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