Liebman, Olivia scite author profile

Liebman, Olivia

2Publications

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41Citation Statements Given

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UCLA Health

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Multiphoton Spectroscopy of a Dynamical Axion Insulator

Narang

Olivia

Curtis

et al. 2023

Preprint

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The unusual magnetoelectric transport present in Weyl semimetals can be compactly understood as manifestations of an underlying axion field, which itself is determined by the microscopic band structure. The axion couples nonlinearly to electric and magnetic fields and possesses a signature topological magnetoelectric response, leading to a modified form of Maxwell’s equations known as axion electrodynamics. Axions are naturally present in Weyl semimetals relating to the separation of the Weyl nodes in energy and in crystal momentum. In the presence of strong interactions, charge density-wave (CDW) order may develop which serves to gap the Weyl nodes and introduces corresponding collective excitations. When the inherent chiral symmetry of Weyl semimetals is spontaneously broken by the formation of CDW order, the resultant chiral condensate is endowed with intrinsic dynamics which yields a dynamical contribution to the axion field. However, unambiguous identification of this dynamical axion mode is challenging due to its inherent nonlinear coupling to electromagnetic fields. Therefore, we propose an all-optical protocol for verifying and characterizing dynamical axion collective modes in Weyl semimetals with CDW order. First, we show that axion collective mode can be excited using two-photon excitation schemes. Following excitation, the collective axion oscillations are then diagnosed by measuring the time-resolved Kerr rotation. Our results demonstrate a pathway towards utilizing multi-photon and entangled pair spectroscopies to identify new correlated phases in quantum matter.

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Carbon Kagome Nanotubes -- quasi-one-dimensional nanostructures with flat bands

Yu¹,

Sharma²,

Agarwal³

et al. 2023

Preprint

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Liebman, Olivia

Multiphoton Spectroscopy of a Dynamical Axion Insulator

Carbon Kagome Nanotubes -- quasi-one-dimensional nanostructures with flat bands

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