Radiation effects on SDRAMs and optical fiber-based dosimetry of high-energy electrons
This thesis work contains studies in two separate fields, unified under the topic
of electron radiation. The radiation effects of electrons on electronics is a field of
study that is gaining traction due to the ever smaller technology nodes found in
modern electronics risk getting upset by lighter particles and through different
mechanisms than historically has been observed. In this work, the response of
synchronous dynamic random access memories (SDRAM) was investigated under
electron irradiation with much focus on stuck bits and the evolution of data
retention times of the memory bits under and after irradiation. High-energy electrons
were found to be capable of inducing stuck bits as single event effects in a
device under test, and large losses of retention time capability were found both in
stuck bits and in bits that had bit-flips during irradiation. These radiation effects
were also studied under proton irradiation as well as photon irradiation, where
a large retention-time degradation was observed in both cases, which was ascribed
to the effects of total ionizing dose on the device. Characterizations of optical
fiber-based dosimetry systems utilizing the radiation-induced luminescence
(RIL) of doped silica glasses for online dose monitoring were performed under
pulsed electron beams. The RIL intensity of the fiber-based dosimeters during
the delivered electron bunches was found to be linearly proportional to the dose
of the electron bunches when varying the dose per electron bunch. The luminescence
properties of a silica glass rod doped with Gd3+-ions were investigated
under electron irradiation at varying depths in an acrylic phantom. The RIL proportional
to the deposited dose rate was separated from the induced Cherenkov
radiation through two separate acquisition systems, one based on a monochromator
and one based on a spectrometer. The decay time of the Gd3+-ion luminescence
was also studied through the monochromator. The presented results
show that these types of optical-fiber based dosimeters can be used to efficiently
monitor the dose of such a Clinac.
Keywords: dosimetry, electrons, optical fibers, photons, protons, radiation effects,
radiation-induced luminescence, SDRAM, single event effects,
stuck bits, total ionizing dose effects
Publisher
Jyväskylän yliopistoISBN
978-951-39-9557-7ISSN Search the Publication Forum
2489-9003Contains publications
- Artikkeli I: Söderström, D., Matana Luza, L., Kettunen, H., Javanainen, A., Farabolini, W., Gilardi, A., Coronetti, A., Poivey, C., & Dilillo, L. (2021). Electron-Induced Upsets and Stuck Bits in SDRAMs in the Jovian Environment. IEEE Transactions on Nuclear Science, 68(5), 716-723. DOI: 10.1109/tns.2021.3068186
- Artikkeli II: Söderström, D., Matana Luza, L., Pio de Mattos, A. M., Gil, T., Kettunen, H., Niskanen, K., Javanainen, A. and Dilillo, L. Technology Dependence of Stuck Bits and Single Event Upsets in 110, 72, and 63-nm SDRAMs. Submitted.
- Artikkeli III: Söderström, D., Kettunen, H., Morana, A., Javanainen, A., Ouerdane, Y., El Hamzaoui, H., Capoen, B., Bouwmans, G., Bouazaoui, M., & Girard, S. (2021). Radioluminescence Response of Ce-, Cu-, and Gd-Doped Silica Glasses for Dosimetry of Pulsed Electron Beams. Sensors, 21(22), Article 7523. DOI: 10.3390/s21227523
- Artikkeli IV: Söderström, D., Timonen, O., Kettunen, H., Kronholm, R., El Hamzaoui, H., Capoen, B., Ouerdane, Y., Morana, A., Javanainen, A., Bouwmans, G., Bouazaoui, M., & Girard, S. (2022). Properties of Gd-Doped Sol-Gel Silica Glass Radioluminescence under Electron Beams. Sensors, 22(23), Article 9248. DOI: 10.3390/s22239248
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