Electrical Conduction and Crystallization Phenomena in Thin Lead Films at Temperatures Between 14°K and 500°K

Author: Armi, Edgar Leo

Year: 1941

Degree: Dissertation (Ph.D.)

Advisor: Goetz, Alexander

Committee Member: Unknown, Unknown

Option: Physics

DOI: 10.7907/xkys-vw62

Abstract

This thesis presents a description of the design of and the results obtained with an apparatus constructed for producing thin metal films, by the method of evaporation in high vacuum, and to study the electrical behavior of such films at various temperatures.

Experimental investigations were carried out in a temperature range from 14°K to 500°K. Electric resistances were measured with adequate accuracy between 102 and 1015 ohms. Evaporation rates against furnace temperatures were determined by weighing of deposits and were found to be in good agreement with specific predictions of Kinetic Theory.

Formation and destruction of electric conductivity were analyzed in their dependence upon temperature, time and vacuum conditions. Part of the experiments were carried out at temperatures low enough to prevent crystallization, thus permitting to study the undisturbed process of the building up of metallic conduction. Formulas are suggested to describe the behavior of the films investigated.

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