Classification of charge density waves based on their nature

Author:

Zhu Xuetao,Cao Yanwei,Zhang Jiandi,Plummer E. W.,Guo Jiandong

Abstract

The concept of a charge density wave (CDW) permeates much of condensed matter physics and chemistry. CDWs have their origin rooted in the instability of a one-dimensional system described by Peierls. The extension of this concept to reduced dimensional systems has led to the concept of Fermi surface nesting (FSN), which dictates the wave vector(qCDW)of the CDW and the corresponding lattice distortion. The idea is that segments of the Fermi contours are connected byqCDW, resulting in the effective screening of phonons inducing Kohn anomalies in their dispersion atqCDW, driving a lattice restructuring at low temperatures. There is growing theoretical and experimental evidence that this picture fails in many real systems and in fact it is the momentum dependence of the electron–phonon coupling (EPC) matrix element that determines the characteristic of the CDW phase. Based on the published results for the prototypical CDW system 2H-NbSe2, we show how well theq-dependent EPC matrix element, but not the FSN, can describe the origin of the CDW. We further demonstrate a procedure of combing electronic band and phonon measurements to extract the EPC matrix element, allowing the electronic states involved in the EPC to be identified. Thus, we show that a large EPC does not necessarily induce the CDW phase, with Bi2Sr2CaCu2O8+δas the example, and the charge-ordered phenomena observed in various cuprates are not driven by FSN or EPC. To experimentally resolve the microscopic picture of EPC will lead to a fundamental change in the way we think about, write about, and classify charge density waves.

Funder

973 project China

NSF China

Publisher

Proceedings of the National Academy of Sciences

Subject

Multidisciplinary

Reference42 articles.

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2. Peierls RE (1955) Quantum Theory of Solids (Oxford Univ Press, New York)

3. Image of the Fermi Surface in the Vibration Spectrum of a Metal

4. Fermi surface nesting and the origin of charge density waves in metals

5. Strong-Coupling Theory of Charge-Density-Wave Transitions

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