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New insights bolster Einstein's idea about how heat moves through solids
by Staff Writers
Oak Ridge TN (SPX) Jul 04, 2018

New research about the transfer of heat--fundamental to all materials--suggests that in thermal insulators, heat is conveyed by atomic vibrations and by random hopping of energy from atom to atom. This finding by Oak Ridge National Laboratory could introduce new materials as thermal energy barriers to drastically reduce energy costs, carbon emissions and waste heat.

A discovery by scientists at the Department of Energy's Oak Ridge National Laboratory supports a century-old theory by Albert Einstein that explains how heat moves through everything from travel mugs to engine parts.

The transfer of heat is fundamental to all materials. This new research, published in the journal Science, explored thermal insulators, which are materials that block transmission of heat.

"We saw evidence for what Einstein first proposed in 1911--that heat energy hops randomly from atom to atom in thermal insulators," said Lucas Lindsay, materials theorist at ORNL. "The hopping is in addition to the normal heat flow through the collective vibration of atoms."

The random energy hopping is not noticeable in materials that conduct heat well, like copper on the bottom of saucepans during cooking, but may be detectable in solids that are less able to transmit heat.

This observation advances understanding of heat conduction in thermal insulators and will aid the discovery of novel materials for applications from thermoelectrics that recover waste heat to barrier coatings that prevent transmission of heat.

Lindsay and his colleagues used sophisticated vibration-sensing tools to detect the motion of atoms and supercomputers to simulate the journey of heat through a simple thallium-based crystal. Their analysis revealed that the atomic vibrations in the crystal lattice were too sluggish to transmit much heat.

"Our predictions were two times lower than we observed from our experiments. We were initially baffled," Lindsay said. "This led to the observation that another heat transfer mechanism must be at play."

Knowing that the second heat transfer channel of random energy hopping exists will inform researchers on how to choose materials for heat management applications. This finding, if applied, could drastically reduce energy costs, carbon emissions and waste heat.

Many useful materials, such as silicon, have a chemically bonded latticework of atoms. Heat is usually carried through this lattice by atomic vibrations, or sound waves. These heat-bearing waves bump into each other, which slows the transfer of heat.

"The thallium-based material we studied has one of the lowest thermal conductivities of any crystal," Lindsay said. "Much of the vibrating energy is confined to single atoms, and the energy then hops randomly through the crystal."

"Both the sound waves and the heat-hopping mechanism first theorized by Einstein characterize a two-channel model, and not only in this material, but in several other materials that also demonstrate ultralow conductivity," said ORNL materials scientist David Parker.

For now, heat-hopping may only be detectable in excellent thermal insulators. "However, this heat-hopping channel may well be present in other crystalline solids, creating a new lever for managing heat," he said.

The study's lead coauthor was Saikat Mukhopadhyay, a former postdoctoral research associate at ORNL and currently a National Research Council research associate at the U.S. Naval Research Laboratory.

Research Report: "Two-channel model for ultralow thermal conductivity of crystalline Tl3VSe4,"


Related Links
Oak Ridge National Laboratory
Space Technology News - Applications and Research


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Spectral cloaking could make objects invisible under realistic conditions
Washington DC (SPX) Jul 06, 2018
Researchers and engineers have long sought ways to conceal objects by manipulating how light interacts with them. A new study offers the first demonstration of invisibility cloaking based on the manipulation of the frequency (color) of light waves as they pass through an object, a fundamentally new approach that overcomes critical shortcomings of existing cloaking technologies. The approach could be applicable to securing data transmitted over fiber optic lines and also help improve technologies f ... read more

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