Thermochemistry of MgB2 thin film synthesis

We have investigated the thermodynamic and kinetic barriers involved in the synthesis Of MgB2 films. This work refines Our initial conjectures predicting optimal MgB2 thin film growth conditions as a consequence of the unusually large kinetic barrier to MgB2 decomposition. The small Mg sticking coefficient at temperatures; greater than 300 degreesC prevents high temperature synthesis with traditional vacuum growth methods. However, as a result of the large kinetic barrier to MgB2 decomposition, in-situ thermal processing can be used to enhance the crystallinity and the superconductivity of MgB2 films. We used these methods to produce MgB2 thin films with relatively high transition temperatures (similar to37 K) by pulsed laser deposition (PLD).