@inproceedings{marozauRobustnessNanoelectromechanicalSwitches2025,
	address = {Bordeaux, France},
	title = {Robustness of nano-electromechanical switches against mechanical shock and vibration loads},
	url = {https://hal.science/hal-05323115},
	abstract = {Nano-electromechanical (NEM) switches offer significant potential for future computing and memory applications
due to their low power consumption and ability to operate in high-temperature and radiation-harsh environments.
However, there is a lack of studies on the robustness of NEM switches under mechanical loads. In this study, we
investigated the performance of 3- and 7-terminal NEM relays under mechanical shocks up to 5000 g and
vibrations up to 70 g. The results demonstrate that devices maintain mechanical functionality, with some variations
in the electrical characteristics. These findings underscore the potential of NEMS technology for reliable operation
in harsh environments, paving the way for their possible integration into next-generation electronic devices.},
	urldate = {2026-02-06},
	booktitle = {{ESREF} 2025 : 36th {European} {Symposium} on {Reliability} of {Electron} {Devices}, {Failure} {Physics} and {Analysis}, 2025},
	publisher = {Université de Bordeaux, ADERA},
	author = {Marozau, Ivan and Tang, Qi and Kulsreshath, Mukesh and Li, Yingying and Bleiker, Simon and Niklaus, Frank and Pamunuwa, Dinesh},
	month = oct,
	year = {2025},
	keywords = {publication},
}