Field emitter electrostatics: a review with special emphasis on modern high-precision finite-element modelling
Autor: | de Assis, Thiago A., Dall'Agnol, Fernando F., Forbes, Richard G. |
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Rok vydání: | 2022 |
Předmět: | |
Zdroj: | J. Phys.: Condens. Matter 34, 493001 (2022). (Open Access) |
Druh dokumentu: | Working Paper |
DOI: | 10.1088/1361-648X/ac920a |
Popis: | This review of quantitative field emitter electrostatics, covering analytical, numerical and fitted-formula approaches, is thought the first of its kind. The review relates chiefly to situations where emitters operate in an electronically ideal manner, and zero-current electrostatics is applicable. Terminology is carefully described and is polarity independent; thus the review applies to both field electron and field ion emitters. It also applies more generally to charged, pointed electron-conductors that exhibit the "electrostatic lightning-rod effect", but are poorly discussed in general electricity and magnetism literature. Modern electron-conductor electrostatics is an application of the chemical thermodynamics and statistical mechanics of electrons. The review focuses chiefly on the electrostatics of two common basic emitter forms: the needle-shaped emitters used in traditional projection technologies; and the post-shaped emitters often used in modelling large-area multi-emitter electron sources. In the post-on-plane context, we consider in detail both the electrostatics of the single post and the interaction between two identical posts that occurs as a result of electrostatic depolarization (often called "screening" or "shielding"). Core to the review are discussions of the "minimum domain dimensions" method for implementing effective finite-element-method electrostatic simulations, and of the variant that leads to very precise estimates of dimensionless field enhancement factors (error typically less than 0.001 % in situations where analytical comparisons exist). Brief outline discussions, and core references, are given for each of many "related considerations" that are relevant to the electrostatic situations, methods and results described. Many areas of field emitter electrostatics are suggested where further research and/or separate mini-reviews would probably be useful. Comment: 39 pages, 24 figures. Invited Review, submitted for refereeing |
Databáze: | arXiv |
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