@inproceedings{HerdlBachmannWohlfartsstaetteretal., author = {Herdl, Florian and Bachmann, Michael and Wohlfartsst{\"a}tter, Dominik and D{\"u}sberg, Felix and Dudeck, Markus and Eder, Magdalena and Meyer, Manuel and Pahlke, Andreas and Edler, Simon and Schels, Andreas and Hansch, Walter and Schreiner, Rupert and Wohlfartsstatter, Dominik and Dusberg, Felix}, title = {A novel current dependent field emission performance test}, series = {2021 34th International Vacuum Nanoelectronics Conference (IVNC): 5-9 July 2021, Lyon, France}, booktitle = {2021 34th International Vacuum Nanoelectronics Conference (IVNC): 5-9 July 2021, Lyon, France}, doi = {10.1109/IVNC52431.2021.9600695}, pages = {1 -- 2}, abstract = {A current dependent performance test for comparison of different field emitter arrays is introduced. Statistical analysis is enabled due to a short measurement time and as a main feature the electric field shift, comparable to the degradation of the emitter is examined. Significance of the test method is shown by a comparison of field emitter arrays with different doping levels.}, language = {en} } @inproceedings{SchelsEdlerHanschetal., author = {Schels, Andreas and Edler, Simon and Hansch, Walter and Bachmann, Michael and Herdl, Florian and Dusberg, F. and Eder, Magdalena and Meyer, Manuel and Dudek, M. and Pahlke, Andreas and Schreiner, Rupert}, title = {Current dependent performance test used on different types of silicon field emitter arrays}, series = {2021 34th International Vacuum Nanoelectronics Conference (IVNC): 5-9 July 2021, Lyon, France}, booktitle = {2021 34th International Vacuum Nanoelectronics Conference (IVNC): 5-9 July 2021, Lyon, France}, editor = {Purcell, Stephen and Mazellier, Jean-Paul}, publisher = {IEEE}, address = {Piscataway, NJ}, isbn = {978-1-6654-2589-6}, doi = {10.1109/IVNC52431.2021.9600787}, pages = {1 -- 2}, abstract = {A current dependent performance test is used to investigate the influence of doping and emitter geometry on the lifetime of silicon field emitter arrays. The measurements reveal an improved performance for lower n-type dopant concentrations. Furthermore, two new types of field emitters are introduced by slightly varying the original fabrication process [1]. The comparison shows superiority of tip like emitters over blade like structures.}, language = {en} } @inproceedings{SchelsHerdlHausladenetal., author = {Schels, Andreas and Herdl, Florian and Hausladen, Matthias and Wohlfartsst{\"a}tter, Dominik and Bachmann, Michael and Edler, Simon and D{\"u}sberg, Felix and Pahlke, Andreas and Buchner, Philipp and Schreiner, Rupert and Hansch, Walter}, title = {Beta Factor Mapping of Individual Emitting Tips During Integral Operation of Field Emission Arrays}, series = {2023 IEEE 36th International Vacuum Nanoelectronics Conference (IVNC), 10-13 July 2023, Cambridge, MA, USA}, booktitle = {2023 IEEE 36th International Vacuum Nanoelectronics Conference (IVNC), 10-13 July 2023, Cambridge, MA, USA}, publisher = {IEEE}, isbn = {979-8-3503-0143-4}, doi = {10.1109/IVNC57695.2023.10188957}, pages = {224 -- 226}, abstract = {Emission uniformity mappings of field emitter arrays provide important insight into degradation mechanisms, but are often laborious, non-integral, costly, or not quantifiable. Here, a low-cost Raspberry Pi HQ camera is used as an extraction anode to quantify the emission distribution in field emitter arrays. A verification measurement using controlled SEM electron beams proves, that current-voltage characteristics of individual emission sites can be determined by combining the integral electrical data with the image data. The characteristics are used to quantify the field enhancement factors of an 30x30 silicon field emitter array during integral operation. Comparison of the field enhancement factor distributions before and after a one-hour constant current operation at 1 µA shows an increase from 50 actively emitting tips before to 156 after the measurement. It is shown, that the distribution of field enhancement factors shifts towards lower values, due to the increasing degradation for high field enhancement tips, especially above 1500.}, language = {en} }