We have studied the degradation of MgB2 thin films, grown by hybrid physical-chemical vapor deposition (HPCVD), by submerging MgB2 films into de-ionized water at different temperatures. The thickness, room temperature resistance, and superconducting transition were measured as a function of time in water and the temperature of the water. Results show that the films degrade faster at room temperature than at 0 degrees C. The room temperature resistance increases with time. The thickness of the MgB2 films decreases rapidly initially, but then saturates. The resultant material is amorphous and insulating. Both T-c(onset) and T-c(0) of the MgB2 films decrease with time in water, while the superconducting transition become broader. The effects of the exposure to other solvents and photoresist were also studied, and it was found that isopropanol does not cause MgB2 films to degrade.
Degradation of MgB2 thin films in water
POrgiani;
2005
Abstract
We have studied the degradation of MgB2 thin films, grown by hybrid physical-chemical vapor deposition (HPCVD), by submerging MgB2 films into de-ionized water at different temperatures. The thickness, room temperature resistance, and superconducting transition were measured as a function of time in water and the temperature of the water. Results show that the films degrade faster at room temperature than at 0 degrees C. The room temperature resistance increases with time. The thickness of the MgB2 films decreases rapidly initially, but then saturates. The resultant material is amorphous and insulating. Both T-c(onset) and T-c(0) of the MgB2 films decrease with time in water, while the superconducting transition become broader. The effects of the exposure to other solvents and photoresist were also studied, and it was found that isopropanol does not cause MgB2 films to degrade.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
