Emerging topics in nanophononics and elastic, acoustic, and mechanical metamaterials: an overview
This broad review summarizes recent advances and “hot” research topics in nanophononics
and elastic, acoustic, and mechanical metamaterials based on results presented by the …
and elastic, acoustic, and mechanical metamaterials based on results presented by the …
[HTML][HTML] Ultra-efficient and parameter-free computation of submicron thermal transport with phonon Boltzmann transport equation
Understanding thermal transport at the submicron scale is crucial for engineering
applications, especially in the thermal management of electronics and tailoring the thermal …
applications, especially in the thermal management of electronics and tailoring the thermal …
Quantitative analysis of nonequilibrium phonon transport near a nanoscale hotspot
J Xu, Y Hu, H Bao - Physical Review Applied, 2023 - APS
Understanding thermal transport by phonons near nanoscale hotspots is critical for many
engineering applications, especially for nanoscale thermal measurements and …
engineering applications, especially for nanoscale thermal measurements and …
Temporal and spectral multiplexing for EUV multibeam ptychography with a high harmonic light source
We demonstrate temporally multiplexed multibeam ptychography implemented for the first
time in the EUV, by using a high harmonic based light source. This allows for simultaneous …
time in the EUV, by using a high harmonic based light source. This allows for simultaneous …
Universal behavior of highly confined heat flow in semiconductor nanosystems: From nanomeshes to metalattices
Nanostructuring on length scales corresponding to phonon mean free paths provides control
over heat flow in semiconductors and makes it possible to engineer their thermal properties …
over heat flow in semiconductors and makes it possible to engineer their thermal properties …
Enhancing the thermal conductivity of semiconductor thin films via phonon funneling
The second law of thermodynamics asserts that energy diffuses from hot to cold. The
resulting temperature gradients drive the efficiencies and failures in a plethora of …
resulting temperature gradients drive the efficiencies and failures in a plethora of …
Anisotropic Phononic and Electronic Thermal Transport in BeN4
Beryllium polynitride (BeN4) has been recently synthesized under high-pressure conditions
[Bykov et al. Phys. Rev. Lett. 2021, 126, 175501]. Its anisotropic lattice structure dependent …
[Bykov et al. Phys. Rev. Lett. 2021, 126, 175501]. Its anisotropic lattice structure dependent …
Nanoheating and Nanoconduction with Near‐Field Plasmonics: Prospects for Harnessing the Moiré and Seebeck Effects in Ultrathin Films
Near‐field plasmonics is a burgeoning field that has unlocked several opportunities related
to quantum information processing, single‐molecule spectroscopy, and cavity quantum …
to quantum information processing, single‐molecule spectroscopy, and cavity quantum …
Nonmonotonic heat dissipation phenomenon in close-packed hotspot systems
Transient heat dissipation in close-packed quasi-two-dimensional nanoline and three-
dimensional nanocuboid hotspot systems is studied based on the phonon Boltzmann …
dimensional nanocuboid hotspot systems is studied based on the phonon Boltzmann …
Study of non-diffusive thermal behaviors in nanoscale transistors under different heating strategies
Understanding the phonon transport mechanisms and efficiently capturing the
spatiotemporal distributions of temperature is of great significance for alleviating hotspot …
spatiotemporal distributions of temperature is of great significance for alleviating hotspot …