Using negative electron affinity diamond emitters to mitigate space charge in vacuum thermionic energy conversion devices |
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Authors: | JR Smith GL Bilbro RJ Nemanich |
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Affiliation: | aDepartment of Physics, North Carolina State University, Raleigh, NC 27695-8202, USA;bDepartment of Electrical and Computer Engineering, North Carolina State University, Raleigh, NC 27695, USA |
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Abstract: | A negative electron affinity (NEA) diamond surface is employed as an emitter electrode in a vacuum thermionic energy conversion device in order to mitigate the negative space charge effect. The motive diagram of an NEA device operating at the virtual saturation point is compared to a similar device with a conventional emitter material operating in the space charge limited regime in order to understand how NEA mitigates space charge. Output current characteristics are calculated for various NEA values, and the results are compared to an ideal (no space charge) model. Increasing the value of the NEA causes the output current characteristic to approach that of the ideal model. Motive diagrams for various values of NEA are calculated and used to explain this phenomenon. It is shown that an NEA device can achieve a maximum output power density equal to the maximum output power density of a similar ideal device. |
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Keywords: | Diamond crystal Negative electron affinity Device modeling Thermionic energy conversion |
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