Metastable Structure of Layers Shaped During Pulse Magnetron Sputtering

Prelegent i afiliacja: 
Katarzyna Nowakowska-Langier, National Centre for Nuclear Research
wt., 2022-11-08 13:00 do 14:00

The forming the properties of materials consists in fulfilling the sequence of different energy states. First, one should obtain the state of increased free energy, as the excited initial state for subsequent treatments and then conduct controlled relaxation of this energy excess in order to reach a lower level of non-equilibrium energy state of material - defined as a new degree of structure metastability, both in phase and morphological terms. This grade determines the usable properties of the material as a synthesis product. Effectiveness in implementation the above sequence, which is crucial for obtaining the desired properties of materials, is directly dependent on recognition of the synthesis environment. In the case of plasma surface engineering methods, this effectiveness is conditioned by ensuring of high levels of the energy and the degree of non-equilibrity of plasma at the same time. The pulse processes that minimize the risk of uncontrolled arcing and electrode degradation at high power densities are the most advantageous from this point of view. Additionally these conditions create a unique chance for freezing of metastable states of synthesis products on cold substrates, difficult or impossible to achieve by other means. Plasma that meets above-mentioned features I defined as an “active” synthesis environment, because such plasma contains factors that directly determine the possibility of achieving high-energy excitations of primary synthesis products. This talk will give an overview of research results concerning of use pulse magnetron sputtering method in case of synthesis of different metastable layers material.