Quantized thermal transport in single-atom junctions
Cui, Longji; Jeong, Wonho; Hur, Sunghoon; Matt, Manuel; Klockner, Jan C.; Pauly, Fabian; Nielaba, Peter; Carlos Cuevas, Juan; Meyhofer, Edgar; Reddy, Pramod
SCIENCE
2017
VL / 355 - BP / 1192 - EP / 1195
abstract
Thermal transport in individual atomic junctions and chains is of great fundamental interest because of the distinctive quantum effects expected to arise in them. By using novel, custom-fabricated, picowatt-resolution calorimetric scanning probes, we measured the thermal conductance of gold and platinum metallic wires down to single-atom junctions. Our work reveals that the thermal conductance of gold single-atom junctions is quantized at room temperature and shows that the Wiedemann-Franz law relating thermal and electrical conductance is satisfied even in single-atom contacts. Furthermore, we quantitatively explain our experimental results within the Landauer framework for quantum thermal transport. The experimental techniques reported here will enable thermal transport studies in atomic and molecular chains, which will be key to investigating numerous fundamental issues that thus far have remained experimentally inaccessible.
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