Contactless Conductivity Measurement: Difference between revisions
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Graph and Report | Graph and Report | ||
==Sample Preparation== | |||
==Experiment Set up | |||
==Data Analysis== | |||
==Conclusion== | |||
==Team Members== | ==Team Members== | ||
Revision as of 10:59, 28 April 2022
Introduction
Although it is convenient to measure conductivity using Conductivity Meter, surface preparation and contamination have great effects on the electrical properties of the samples. Thus, a contactless technic would be a better way to carry out the conductivity measurement.
Theory
Equations
To do list
Prepare the samples
Prepare the coils
Build the experimental set up
Measure
Graph and Report
Sample Preparation
==Experiment Set up
Data Analysis
Conclusion
Team Members
Chen Guohao, Jiang Luwen
Lab Location
Spintronics and Magnetic Materials Lab
Sources
Bean, C. P., DeBlois, R. W., & Nesbitt, L. B. (1959). Eddy‐Current method for measuring the resistivity of metals. Journal of Applied Physics, 30(12), 1976-1980. https://doi.org/10.1063/1.1735100
Crowley, J. D., & Rabson, T. A. (1976). Contactless method of measuring resistivity. Review of Scientific Instruments, 47(6), 712-715. https://doi.org/10.1063/1.1134714
Oike, H., Miyagawa, K., Kanoda, K., Taniguchi, H., & Murata, K. (2009). Contactless conductivity measurements on the organic conductor, κ-(ET)4Hg2.89Br8, under pressure. Physica. B, Condensed Matter, 404(3-4), 376-378. https://doi.org/10.1016/j.physb.2008.11.023
Ishida, T., Monden, K., & Nakada, I. (1986). Electrodeless method for the measurement of ionic conductivity of RbAg4I5. Review of Scientific Instruments, 57(12), 3081-3084. https://doi.org/10.1063/1.1138995