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Mixed-field radiation monitoring and beam characterisation through silicon diode detectors
Bilko, K., Alia, R. G., Barbero, M. S., Girard, S., Aguiar, Y., Cecchetto, M., … Sebban, M. (2024). Mixed-field radiation monitoring and beam characterisation through silicon diode detectors. IEEE Transactions on Nuclear Science, 71(4), 777-784. https://doi.org/10.1109/TNS.2024.3350342
Neutron-gamma noise measurements in a zero-power reactor using organic scintillators
Darby, F. B., Pakari, O. V., Hua, M. Y., Lamirand, V., Clarke, S. D., Pautz, A., & Pozzi, S. A. (2024). Neutron-gamma noise measurements in a zero-power reactor using organic scintillators. IEEE Transactions on Nuclear Science, 71(5), 1033-1040. https://doi.org/10.1109/TNS.2023.3337657
Design of an open-loop pile-oscillation program in the CROCUS reactor
Ligonnet, T., Laureau, A., Simbsler, P., Pautz, A., & Lamirand, V. (2024). Design of an open-loop pile-oscillation program in the CROCUS reactor. IEEE Transactions on Nuclear Science, 71(5), 1001-1009. https://doi.org/10.1109/TNS.2024.3371183
Calibration of the deposited energy in CMOS imagers for particle detection on nanosatellites
Florczak, J., Neubert, T., Zimmermann, E., Rongen, H., Kaufmann, M., Rienacker, I., … Van Waasen, S. (2023). Calibration of the deposited energy in CMOS imagers for particle detection on nanosatellites. IEEE Transactions on Nuclear Science, 70(8), 1966-1972. https://doi.org/10.1109/TNS.2023.3274876
Proton direct ionization in sub-micron technologies: test methodologies and modelling
Lüdeke, S., Durán Cardenás, G., Hajdas, W., Jaatinen, J., Kettunen, H., Poivey, C., … Javanainen, A. (2023). Proton direct ionization in sub-micron technologies: test methodologies and modelling. IEEE Transactions on Nuclear Science, 70(4), 667-677. https://doi.org/10.1109/TNS.2023.3255008
High-power test of two prototype <em>X</em>-band accelerating structures based on SwissFEL fabrication technology
Millar, W. L., Grudiev, A., Wuensch, W., Lasheras, N. C., McMonagle, G., Zennaro, R., … Burt, G. (2023). High-power test of two prototype X-band accelerating structures based on SwissFEL fabrication technology. IEEE Transactions on Nuclear Science, 70(1) (19 pp.). https://doi.org/10.1109/TNS.2022.3230567
First results and analysis from ESA next generation radiation monitor unit onboard EDRS-C
Sandberg, I., Aminalragia-Giamini, S., Papadimitriou, C., Van Gijlswijk, R., Heynderickx, D., Marcinkowski, R., … Evans, H. (2022). First results and analysis from ESA next generation radiation monitor unit onboard EDRS-C. IEEE Transactions on Nuclear Science, 69(7), 1549-1556. https://doi.org/10.1109/TNS.2022.3160108
The Mu3e data acquisition
Augustin, H., Berger, N., Bravar, A., Briggl, K., Chen, H., Corrodi, S., … Zhong, T. (2021). The Mu3e data acquisition. IEEE Transactions on Nuclear Science, 68(8), 1833-1840. https://doi.org/10.1109/TNS.2021.3084060
The pion single-event latch-up cross-section enhancement: mechanisms and consequences for accelerator hardness assurance
Coronetti, A., García Alía, R., Cerutti, F., Hajdas, W., Soderstrom, D., Javanainen, A., & Saigné, F. (2021). The pion single-event latch-up cross-section enhancement: mechanisms and consequences for accelerator hardness assurance. IEEE Transactions on Nuclear Science, 68(8), 1613-1622. https://doi.org/10.1109/TNS.2021.3070216
Editorial
Ritt, S. (2021). Editorial. IEEE Transactions on Nuclear Science, 68(8), 1793. https://doi.org/10.1109/TNS.2021.3097166
Time resolution of BC422 plastic scintillator read out by a SiPM
Stoykov, A., & Rostomyan, T. (2021). Time resolution of BC422 plastic scintillator read out by a SiPM. IEEE Transactions on Nuclear Science, 68(7), 1487-1494. https://doi.org/10.1109/TNS.2021.3089616
Continuous wave operation of superconducting accelerating cavities with high loaded quality factor
Cichalewski, W., Sekutowicz, J., Napieralski, A., Rybaniec, R., Branlard, J., & Ayvazyan, V. (2020). Continuous wave operation of superconducting accelerating cavities with high loaded quality factor. IEEE Transactions on Nuclear Science, 67(9), 2119-2127. https://doi.org/10.1109/TNS.2020.2993539
The pion single-event effect resonance and its impact in an accelerator environment
Coronetti, A., Alía, R. G., Cecchetto, M., Hajdas, W., Söderstroöm, D., Javanainen, A., & Saigné, F. (2020). The pion single-event effect resonance and its impact in an accelerator environment. IEEE Transactions on Nuclear Science, 67(7), 1606-1613. https://doi.org/10.1109/TNS.2020.2978228
High resolution thermal neutron imaging with &lt;sup&gt;10&lt;/sup&gt;Boron/CsI:Tl scintillator screen
Miller, S. R., Marshall, M. S. J., Wart, M., Crha, J., Trtik, P., & Nagarkar, V. V. (2020). High resolution thermal neutron imaging with 10Boron/CsI:Tl scintillator screen. IEEE Transactions on Nuclear Science, 67(8), 1929-1933. https://doi.org/10.1109/TNS.2020.3006741
A mm<sup>3</sup> fiber-coupled scintillator for in-core thermal neutron detection in CROCUS
Vitullo, F., Lamirand, V., Mosset, J. B., Frajtag, P., Pakari, O., Perret, G., & Pautz, A. (2020). A mm3 fiber-coupled scintillator for in-core thermal neutron detection in CROCUS. IEEE Transactions on Nuclear Science, 67(4), 625-635. https://doi.org/10.1109/TNS.2020.2977530
Development and evaluation of a pixel detector system for pencil beam scanning proton therapy
Eichin, M., Actis, O., Grossmann, M., König, S., Mayor, A., & Meer, D. (2019). Development and evaluation of a pixel detector system for pencil beam scanning proton therapy. IEEE Transactions on Nuclear Science, 66(7), 1273-1279. https://doi.org/10.1109/TNS.2019.2918635
Automating quality assurance of a medical particle accelerator safety system using a formal language driven test stand
Fernandez Carmona, P., Eichin, M., Mayor, A., Regele, H., Grossmann, M., & Weber, D. C. (2019). Automating quality assurance of a medical particle accelerator safety system using a formal language driven test stand. IEEE Transactions on Nuclear Science, 66(7), 1280-1286. https://doi.org/10.1109/TNS.2019.2922025
Impact of nuclear data uncertainty in the modeling of neutron-induced recoil atom energy distributions in silicon
Griffin, P. J., Koning, A. J., & Rochman, D. (2019). Impact of nuclear data uncertainty in the modeling of neutron-induced recoil atom energy distributions in silicon. IEEE Transactions on Nuclear Science, 66(7), 1719-1729. https://doi.org/10.1109/TNS.2019.2894730
Development of a directionality detector for RADEM, the radiation hard electron monitor aboard the JUICE mission
Pinto, M., Gonçalves, P., Marques, A., Pinto, J. C., & Hajdas, W. (2019). Development of a directionality detector for RADEM, the radiation hard electron monitor aboard the JUICE mission. IEEE Transactions on Nuclear Science, 66(7), 1770-1777. https://doi.org/10.1109/TNS.2019.2900398
Signal and noise performance of a 110 nm CMOS technology for photon science applications
Traversi, G., Dinapoli, R., Manghisoni, M., Mozzanica, A., & Riceputi, E. (2019). Signal and noise performance of a 110 nm CMOS technology for photon science applications. IEEE Transactions on Nuclear Science, 66(4), 752-759. https://doi.org/10.1109/TNS.2019.2903982
 

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