Dominant ZA phonons and thermal carriers in HfS2
Abstract
Through a systematic study of HfS2 based on density functional theory calculations using the quasiharmonic approximation, we show that out-of-plane ZA phonons alone are responsible for 80% of the thermal transport—both in-plane and out-of-plane. The calculations determine the temperature-dependent structural, phonon, and thermal properties in HfS2. The cause is the uncommonly strong interlayer van der Waals interaction relative to its in-plane interaction. The highly anisotropic interactions also give rise to a combination of effects including anisotropic phonon group velocities, a large ZA-optical phonon gap, and a vanishing Grüneisen parameter in ZA modes that leads to large phonon lifetimes. In turn, these enable other unusual properties. HfS2 can have either a negative (T<40 K) or positive (T>40 K) temperature-dependent thermal expansion coefficient and an exceptionally large LO-TO splitting.
Document Details
- Document Type
- Pub Defense Publication
- Publication Date
- Oct 22, 2019
- Source ID
- 10.1063/1.5110515
Entities
People
- Jie Peng
- Madan Dubey
- Peter W Chung
- Sina Najmaei
Organizations
- United States Army Research Laboratory
- University of Maryland