A method of depositing nanoparticles for flux pinning into a superconducting material is described. According to the method of the present invention, a target made of superconducting material and a substrate are placed in the deposition chamber of a pulsed laser deposition apparatus. A first, moderate vacuum level is established in the chamber and the target is irradiated with light from a pulsed, high energy laser. By virtue of the moderate vacuum level, the material ejected from the target is slowed sufficiently to agglomerate into nanoparticles having the same composition as the target material. These nanoparticles are deposited upon the substrate. A uniform layer of superconducting material is deposited on the substrate by evacuating the deposition chamber to a second, high vacuum level and performing the pulsed laser deposition process again. The nanoparticles thus deposited within the superconducting material act as a flux pinning mechanism.
The present application is related to and claims priority on prior copending U.S. Provisional Application No. 60/311,968, filed Aug. 13, 2001, entitled "Method Of Depositing Nanoparticles For Flux Pinning Into A Superconducting Material".
