Evaluation of silicon tuning-fork resonators under space-relevant radiation conditions

Abstract: This work reports on irradiations made on silicon bulk-acoustic wave resonators. The resonators were based on a tuning fork geometry and actuated by a piezoelectric aluminum nitride layer. They had a resonance frequency of 150 kHz and a quality factor of about 20000 under vacuum. The susceptibility of the devices to radiation induced degradation was investigated using 60 Co γ-rays and 50 MeV protons with space-relevant doses of up to 170 krad. The performance of the devices after irradiation indicated a high t… Show more

“…The results were attributed to a combination of displacement damage, injection annealing and thermal spike effects. The radiation tolerance of silicon tuning fork resonators activated by a thin film of AlN (the same devices on which the residual stresses were measured by HRXRD, as discussed above) was investigated in [67]. A very good immunity to irradiation both for ionizing radiation and displacement damage effects was observed and no significant variation of the resonance frequency was found within the experimental uncertainty of ±10 ppm Figure 3.…”

“…(◊ Directly after the irradiation and □ after 4 weeks annealing at room temperature). The figure was adapted from[67]. (b) Encapsulated MEMS tuning fork resonator and (c) X-ray tomography showing the sealing rings and the electrodes.…”

Mechanical properties of MEMS materials: reliability investigations by mechanical- and HRXRD-characterization related to environmental testing

“…The results were attributed to a combination of displacement damage, injection annealing and thermal spike effects. The radiation tolerance of silicon tuning fork resonators activated by a thin film of AlN (the same devices on which the residual stresses were measured by HRXRD, as discussed above) was investigated in [67]. A very good immunity to irradiation both for ionizing radiation and displacement damage effects was observed and no significant variation of the resonance frequency was found within the experimental uncertainty of ±10 ppm Figure 3.…”

“…(◊ Directly after the irradiation and □ after 4 weeks annealing at room temperature). The figure was adapted from[67]. (b) Encapsulated MEMS tuning fork resonator and (c) X-ray tomography showing the sealing rings and the electrodes.…”

Mechanical properties of MEMS materials: reliability investigations by mechanical- and HRXRD-characterization related to environmental testing