异常中子核磁干涉光谱学

IF 9.7 2区材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY

Materials Today Physics Pub Date : 2025-07-18 DOI:10.1016/j.mtphys.2025.101777

Chuliang Fu , Phum Siriviboon , Artittaya Boonkird , Michael Landry , Kiran Mak , Mouyang Cheng , Jeffrey Lynn , Chen Li , Weiwei Xie , Avishek Maity , Masaaki Matsuda , Mingda Li

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引用次数: 0

摘要

电子-声子相互作用在材料的电学、热学、光学和超导性能中起着关键作用。然而，测量声子模式分辨电子-声子相互作用一直具有挑战性。本文提出了基于中子散射的异常中子核磁干涉谱（ANUBIS），其中中子核散射和磁散射共存导致电子-声子相互作用下的异常动力学结构因子。这种异常结构因子在声子波向量处的电子-声子耦合常数是线性的，并且与动量和能量分辨介电函数成正比。实验配置可以使用现有的极化非弹性中子散射装置来实现，并且一个数量级的估计表明观测到异常散射信号的可行性相对于声子散射约为10−4至10−3，通过初步实验验证了这一点，并且在新兴的中子设施中可以实现。我们的建议提供了一种替代的基于中子的计量来探测关键的电子特性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Anomalous neutron nuclear-magnetic interference spectroscopy

The electron–phonon interaction plays a critical role in materials’ electrical, thermal, optical, and superconducting properties. However, measuring the phonon mode-resolved electron–phonon interaction has been challenging. Here we propose neutron-scattering-based Anomalous Neutron nUclear-Magnetic Interference Spectroscopy (ANUBIS), where the co-existence of neutron nuclear scattering and magnetic scattering leads to anomalous dynamical structure factor under the presence of the electron–phonon interaction. Such anomalous structure factor is linear in electron–phonon coupling constant at the phonon wavevector, and is directly proportional to the momentum and energy-resolved dielectric function. The experimental configuration can be achieved using existing polarized inelastic neutron scattering setup, and an order-of-magnitude estimate shows the viability to observe the anomalous scattering signal is around

1 0^{- 4}

1 0^{- 3}

relative to phonon scattering, which is examined through the preliminary experiments and achievable at emerging neutron facilities. Our proposal offers an alternative neutron-based metrology to probe the crucial electronic properties.

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来源期刊

Materials Today Physics Materials Science-General Materials Science

CiteScore

14.00

自引率

7.80%

发文量

284

审稿时长

15 days

期刊介绍： Materials Today Physics is a multi-disciplinary journal focused on the physics of materials, encompassing both the physical properties and materials synthesis. Operating at the interface of physics and materials science, this journal covers one of the largest and most dynamic fields within physical science. The forefront research in materials physics is driving advancements in new materials, uncovering new physics, and fostering novel applications at an unprecedented pace.