Normalized proportional synchronous bandwidth allocation in a token ring network by setting a maximum message transmission time
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A substantially single phase, single crystalline, highly epitaxial film of Bi2 CaSr2 Cu2 O8 superconductor which has a Tc (zero resistance) of 83K is provided on a lattice-matched substrate with no intergrowth. This film is produced by a Liquid Phase Epitaxy method which includes the steps of forming a dilute supercooled molten solution of a single phase superconducting mixture of oxides of Bi, Ca, Sr, and Cu having an atomic ratio of about 2:1:2:2 in a nonreactive flux such as KCl, introducing the substrate, e.g., NdGaO3, into the molten solution at 850° C., cooling the solution from 850° C. to 830° C. to grow the film and rapidly cooling the substrate to room temperature to maintain the desired single phase, single crystalline film structure.
Zhao, Wei; Agrawal, Gopal; Chen, Biao; Davari, Sadegh (1995). Normalized proportional synchronous bandwidth allocation in a token ring network by setting a maximum message transmission time. United States. Patent and Trademark Office; Texas A&M University. Libraries. Available electronically from