Litcius/Paper detail

Phonon‐Dominated Energy Transport in Purely Metallic Heterostructures

Marc Herzog, A. von Reppert, Jan‐Etienne Pudell, Carsten Henkel, M. Kronseder, C. H. Back, A. A. Maznev, Matias Bargheer

2022Advanced Functional Materials14 citationsDOIOpen Access PDF

Abstract

Abstract Ultrafast X‐ray diffraction is used to quantify the transport of energy in laser‐excited nanoscale gold–nickel (Au–Ni) bilayers. Electron transport and efficient electron–phonon coupling in Ni convert the laser‐deposited energy in the conduction electrons within a few picoseconds into a strong non‐equilibrium between hot Ni and cold Au phonons at the bilayer interface. Modeling of the subsequent equilibration dynamics within various two‐temperature models confirms that for ultrathin Au films, the thermal transport is dominated by phonons instead of conduction electrons because of the weak electron–phonon coupling in Au.

Topics & Concepts

Materials sciencePhononElectronThermal conductionCondensed matter physicsPicosecondNanoscopic scaleExcited stateBilayerHeterojunctionCoupling (piping)LaserAtomic physicsOptoelectronicsNanotechnologyPhysicsOpticsQuantum mechanicsGeneticsMetallurgyComposite materialMembraneBiologyThermal properties of materialsGraphene research and applicationsThermal Radiation and Cooling Technologies