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@inproceedings{gassot:ipac2021-mopab379,
author = {H. Gassot},
title = {{Topological Optimization on SRF Cavities for Nuclear and High Energy Physics}},
booktitle = {Proc. IPAC'21},
pages = {1162--1164},
eid = {MOPAB379},
language = {english},
keywords = {cavity, niobium, superconducting-cavity, radiation, simulation},
venue = {Campinas, SP, Brazil},
series = {International Particle Accelerator Conference},
number = {12},
publisher = {JACoW Publishing, Geneva, Switzerland},
month = {08},
year = {2021},
issn = {2673-5490},
isbn = {978-3-95450-214-1},
doi = {10.18429/JACoW-IPAC2021-MOPAB379},
url = {https://jacow.org/ipac2021/papers/mopab379.pdf},
note = {https://doi.org/10.18429/JACoW-IPAC2021-MOPAB379},
abstract = {{Topology optimization has been developed for more than twenty years. The progress of additive manufacturing boosts the development in topological optimization since the design can be completely innovated and realized by 3D printing. The potential for cost reductions thanks to weight minimization give an interesting perspective for the small production of niobium superconducting radio-frequency cavities, commonly used in accelerators. The traditional manufacturing technologies of cavities are based on multi-stage processes while additive manufacturing technologies can built fully functional parts in a single operation. For modern accelerators that use superconducting linac, including energy recovery linacs (ERLs), it is particularly important to know the perspectives of additive manufacturing for SRF cavities. In this paper, we try to build a preliminary perception of topological optimization in superconducting cavities manufacturing innovation.}},
}