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Suppressed electronic contribution in thermal conductivity of Ge2Sb2Se4Te

Kiumars Aryana, Yifei Zhang, John A. Tomko, Md Shafkat Bin Hoque, Eric R. Hoglund, David H. Olson, Joyeeta Nag, J.C. Read, Carlos Rı́os, Juejun Hu, Patrick E. Hopkins

2021Nature Communications42 citationsDOIOpen Access PDF

Abstract

Abstract Integrated nanophotonics is an emerging research direction that has attracted great interests for technologies ranging from classical to quantum computing. One of the key-components in the development of nanophotonic circuits is the phase-change unit that undergoes a solid-state phase transformation upon thermal excitation. The quaternary alloy, Ge 2 Sb 2 Se 4 Te, is one of the most promising material candidates for application in photonic circuits due to its broadband transparency and large optical contrast in the infrared spectrum. Here, we investigate the thermal properties of Ge 2 Sb 2 Se 4 Te and show that upon substituting tellurium with selenium, the thermal transport transitions from an electron dominated to a phonon dominated regime. By implementing an ultrafast mid-infrared pump-probe spectroscopy technique that allows for direct monitoring of electronic and vibrational energy carrier lifetimes in these materials, we find that this reduction in thermal conductivity is a result of a drastic change in electronic lifetimes of Ge 2 Sb 2 Se 4 Te, leading to a transition from an electron-dominated to a phonon-dominated thermal transport mechanism upon selenium substitution. In addition to thermal conductivity measurements, we provide an extensive study on the thermophysical properties of Ge 2 Sb 2 Se 4 Te thin films such as thermal boundary conductance, specific heat, and sound speed from room temperature to 400 °C across varying thicknesses.

Topics & Concepts

Thermal conductivityMaterials sciencePhononOptoelectronicsNanophotonicsPhotonicsInfraredSemiconductorPhase transitionCondensed matter physicsOpticsPhysicsComposite materialPhase-change materials and chalcogenidesNonlinear Optical Materials StudiesPhotonic and Optical Devices
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