M. V. Nikitin scite author profile

We demonstrate that samples of quasi one-dimensional compounds show torsional vibrations induced by the sliding charge-density wave (CDW). Narrowband noise at the fundamental frequency is found in the vibrations spectra. The result suggests an approach to studies of the CDW dynamics and presents CDW conductors as tunable (ultra)sonic acoustoelectronic generators-unique solids vibrating under dc voltage.

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Mechanically induced Shapiro steps: Enormous effect of vibrations on the charge-density wave transport

Nikitin

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Pokrovskiǐ

et al. 2021

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Charge-density wave (CDW) transport is studied in the whiskers of orthorhombic TaS3 suspended between piezoelectric actuators. It is found that when the frequency of rf voltage applied to the actuators coincides with a vibration resonance of the whisker, the I–V curves show Shapiro-step-like features, similar with those under rf voltage applied directly to the sample. We provide evidence that the features observed are coupled with the periodic lattice deformation. The effect of vibrations appears surprisingly strong: a time-dependent strain not exceeding 10−4 results in a periodic stop of the CDW. The result suggests an area of electromechanical effects inherent to sliding CDWs.

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Self-Detection of Ultrasonic Standing Waves and Anomaly of Young’s Modulus at Uniaxial Extension Whiskers of the Quasi-One-Dimensional Conductor TaS3

et al. 2019

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M. V. Nikitin

High-frequency, 'quantum' and electromechanical effects in quasi-one-dimensional charge density wave conductors

Shapiro steps in the torsion of a quasi-one-dimensional conductor TaS3

Tunable harmonic vibrations of quasi one-dimensional conductors induced by sliding charge-density waves

Mechanically induced Shapiro steps: Enormous effect of vibrations on the charge-density wave transport

Self-Detection of Ultrasonic Standing Waves and Anomaly of Young’s Modulus at Uniaxial Extension Whiskers of the Quasi-One-Dimensional Conductor TaS3

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