Energy exchange between atoms with a quartz crystal μ-balance

Fecha

2018

Tipo

artículo original

Autores

Guevara Bertsch, Milena
Chavarría Sibaja, Andrés
Godínez Sandí, Alejandro
Herrera Sancho, Óscar Andrey

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Resumen

We propose an experimental method to fully characterize the energy exchange of particles during the physical vapor deposition (PVD) process of thin surface layers. Our approach is based on the careful observation of perturbations of the oscillation frequency of a quartz crystal μ-balance induced by the particles’ interaction. With this technique it is possible to measure the momentum exchange of the atoms during the evaporation process and determine the ideal evaporation rate for uniform energy distribution. We are able to follow the desorption dynamics of particles’ immediately after the first layers have been formed. These results are in close relation to the surface binding energy of the evaporated material and offer a better control to obtain the desired properties of the thin surface layer. The novelty of our work consists of the demonstration that quartz crystal μ-balance can be successfully implemented to monitor complex dynamics through the energy interaction of particles during PVD. We applied our technique to investigate the PVD mechanism for diverse elements, usually implemented in the development of film surface layers, such as Cu, W, Au, Gd and In, and confirm that our results are in agreement with measurements done previously with other techniques such as low temperature photo-luminescence.

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NUCLEAR ENERGY, EVAPORATION, ATOMS, QUARTZ CRYSTAL

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