The phase transition from Ni2Si to NiSi transrotational structures was studied in terms of incubation t0 and characteristic times, i.e. the time required to trigger the transformation and the time after which the volume fraction occupied by the NiSi phase increases by 60%. The authors combined the effective medium approximation and the Avrami-Johnson-Mehl models to relate the measured sheet resistance Rs versus time to t in the temperature range between 230 and 320 °C With this method, the nucleation barrier and the activation energies for NiSi growth were obtained, 0.5 and 0.93 eV, respectively, with the density of nucleation sites higher in thicker layers
Nucleation and growth of NiSi from Ni2Si transrotational domains (vol 90, pg 053507, 2007)
Alberti Alessandra;La Magna Antonino;Rimini Emanuele
2007
Abstract
The phase transition from Ni2Si to NiSi transrotational structures was studied in terms of incubation t0 and characteristic times, i.e. the time required to trigger the transformation and the time after which the volume fraction occupied by the NiSi phase increases by 60%. The authors combined the effective medium approximation and the Avrami-Johnson-Mehl models to relate the measured sheet resistance Rs versus time to t in the temperature range between 230 and 320 °C With this method, the nucleation barrier and the activation energies for NiSi growth were obtained, 0.5 and 0.93 eV, respectively, with the density of nucleation sites higher in thicker layersI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
