TY  - JOUR
AU  - Ujić, Predrag
AU  - Cam, J.C.
AU  - Retailleau, B. M.
AU  - Traykov, E.
AU  - Standylo, L.
AU  - Choinski, Jaroslaw
AU  - Delahaye, Pierre
PY  - 2019
UR  - https://vinar.vin.bg.ac.rs/handle/123456789/8007
AB  - The recent test of a prototype of beam debuncher device for Electron Beam Ion Source (EBIS), designed within the EMILIE (Enhanced Multi-Ionization of short-Lived Ions for EURISOL) project, is presented in this paper. For a singly ionized Li+1 ion, high efficiency trapping times up to 1 s were established and a uniform ion extraction with intensity variation of less than 30% was achieved. The test gives promising results regarding the future introduction of debuncher devices to EBIS facilities. © 2018 The Authors
T2  - Nuclear Instruments and Methods in Physics Research. Section A: Accelerators, Spectrometers, Detectors and Associated Equipment
T1  - EBIS debuncher experimental performance
VL  - 918
SP  - 30
EP  - 36
DO  - 10.1016/j.nima.2018.11.043
ER  - 

@article{
author = "Ujić, Predrag and Cam, J.C. and Retailleau, B. M. and Traykov, E. and Standylo, L. and Choinski, Jaroslaw and Delahaye, Pierre",
year = "2019",
abstract = "The recent test of a prototype of beam debuncher device for Electron Beam Ion Source (EBIS), designed within the EMILIE (Enhanced Multi-Ionization of short-Lived Ions for EURISOL) project, is presented in this paper. For a singly ionized Li+1 ion, high efficiency trapping times up to 1 s were established and a uniform ion extraction with intensity variation of less than 30% was achieved. The test gives promising results regarding the future introduction of debuncher devices to EBIS facilities. © 2018 The Authors",
journal = "Nuclear Instruments and Methods in Physics Research. Section A: Accelerators, Spectrometers, Detectors and Associated Equipment",
title = "EBIS debuncher experimental performance",
volume = "918",
pages = "30-36",
doi = "10.1016/j.nima.2018.11.043"
}

Ujić, P., Cam, J.C., Retailleau, B. M., Traykov, E., Standylo, L., Choinski, J.,& Delahaye, P.. (2019). EBIS debuncher experimental performance. in Nuclear Instruments and Methods in Physics Research. Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 918, 30-36.
https://doi.org/10.1016/j.nima.2018.11.043

Ujić P, Cam J, Retailleau BM, Traykov E, Standylo L, Choinski J, Delahaye P. EBIS debuncher experimental performance. in Nuclear Instruments and Methods in Physics Research. Section A: Accelerators, Spectrometers, Detectors and Associated Equipment. 2019;918:30-36.
doi:10.1016/j.nima.2018.11.043 .

Ujić, Predrag, Cam, J.C., Retailleau, B. M., Traykov, E., Standylo, L., Choinski, Jaroslaw, Delahaye, Pierre, "EBIS debuncher experimental performance" in Nuclear Instruments and Methods in Physics Research. Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 918 (2019):30-36,
https://doi.org/10.1016/j.nima.2018.11.043 . .

TY  - JOUR
AU  - Fontbonne, C.
AU  - Ujić, Predrag
AU  - de Oliveira Santos, F.
AU  - Flechard, Xavier
AU  - Rotaru, Florin
AU  - Achouri, Lynda N.
AU  - Girard Alcindor, V.
AU  - Bastin, Beyhan
AU  - Boulay, Francois
AU  - Briand, J. B.
AU  - Sanchez-Benitez, Angel Miguel
AU  - Bouzomita, H.
AU  - Borcea, Catalin
AU  - Borcea, Ruxandra
AU  - Blank, Bertram B.
AU  - Carniol, Benjamin
AU  - Čeliković, Igor T.
AU  - Delahaye, Pierre
AU  - Delaunay, F.
AU  - Etasse, David
AU  - Fremont, Georges
AU  - de France, Gilles
AU  - Fontbonne, Jean Marc
AU  - Grinyer, G. F.
AU  - Harang, J.
AU  - Hommet, Jean
AU  - Jevremović, Aleksandar M.
AU  - Lewitowicz, Marek
AU  - Martel, Ismael
AU  - Mrazek, Jaromir
AU  - Parlog, Marian
AU  - Poincheval, J.
AU  - Ramos, Diego
AU  - Spitaels, C.
AU  - Stanoiu, Mihai
AU  - Thomas, Jean-Charles
AU  - Toprek, Dragan
PY  - 2017
UR  - https://vinar.vin.bg.ac.rs/handle/123456789/1864
AB  - The half-life of Ne-19 was measured using a real-time digital multiparametric acquisition system, providing an accurate time stamp and relevant information on the detector signals for each decay event. An exhaustive offline analysis of the data gave unique access to experimental effects potentially biasing the measurement. After establishing the influence factors impacting the measurement such as after-pulses, pile-up, gain, and baseline fluctuations, their effects were accurately estimated and the event selection optimized. The resulting half-life, 17.2569 +/- 0.0019((stat)) +/- 0.0009((syst)) s, is the most precise up to now for Ne-19. It is found to be in agreement with two recent precise measurements and not consistent with the most recent one [L.J. Broussard et al., Phys. Rev. Lett. 112, 212301 (2014)] by 3.0 standard deviations. The full potential of the technique for nuclei with half-lives of a few seconds is discussed.
T2  - Physical Review C
T1  - High precision measurement of the Ne-19 beta-decay half-life using real-time digital acquisition
VL  - 96
IS  - 6
DO  - 10.1103/PhysRevC.96.065501
ER  - 

@article{
author = "Fontbonne, C. and Ujić, Predrag and de Oliveira Santos, F. and Flechard, Xavier and Rotaru, Florin and Achouri, Lynda N. and Girard Alcindor, V. and Bastin, Beyhan and Boulay, Francois and Briand, J. B. and Sanchez-Benitez, Angel Miguel and Bouzomita, H. and Borcea, Catalin and Borcea, Ruxandra and Blank, Bertram B. and Carniol, Benjamin and Čeliković, Igor T. and Delahaye, Pierre and Delaunay, F. and Etasse, David and Fremont, Georges and de France, Gilles and Fontbonne, Jean Marc and Grinyer, G. F. and Harang, J. and Hommet, Jean and Jevremović, Aleksandar M. and Lewitowicz, Marek and Martel, Ismael and Mrazek, Jaromir and Parlog, Marian and Poincheval, J. and Ramos, Diego and Spitaels, C. and Stanoiu, Mihai and Thomas, Jean-Charles and Toprek, Dragan",
year = "2017",
abstract = "The half-life of Ne-19 was measured using a real-time digital multiparametric acquisition system, providing an accurate time stamp and relevant information on the detector signals for each decay event. An exhaustive offline analysis of the data gave unique access to experimental effects potentially biasing the measurement. After establishing the influence factors impacting the measurement such as after-pulses, pile-up, gain, and baseline fluctuations, their effects were accurately estimated and the event selection optimized. The resulting half-life, 17.2569 +/- 0.0019((stat)) +/- 0.0009((syst)) s, is the most precise up to now for Ne-19. It is found to be in agreement with two recent precise measurements and not consistent with the most recent one [L.J. Broussard et al., Phys. Rev. Lett. 112, 212301 (2014)] by 3.0 standard deviations. The full potential of the technique for nuclei with half-lives of a few seconds is discussed.",
journal = "Physical Review C",
title = "High precision measurement of the Ne-19 beta-decay half-life using real-time digital acquisition",
volume = "96",
number = "6",
doi = "10.1103/PhysRevC.96.065501"
}

Fontbonne, C., Ujić, P., de Oliveira Santos, F., Flechard, X., Rotaru, F., Achouri, L. N., Girard Alcindor, V., Bastin, B., Boulay, F., Briand, J. B., Sanchez-Benitez, A. M., Bouzomita, H., Borcea, C., Borcea, R., Blank, B. B., Carniol, B., Čeliković, I. T., Delahaye, P., Delaunay, F., Etasse, D., Fremont, G., de France, G., Fontbonne, J. M., Grinyer, G. F., Harang, J., Hommet, J., Jevremović, A. M., Lewitowicz, M., Martel, I., Mrazek, J., Parlog, M., Poincheval, J., Ramos, D., Spitaels, C., Stanoiu, M., Thomas, J.,& Toprek, D.. (2017). High precision measurement of the Ne-19 beta-decay half-life using real-time digital acquisition. in Physical Review C, 96(6).
https://doi.org/10.1103/PhysRevC.96.065501

Fontbonne C, Ujić P, de Oliveira Santos F, Flechard X, Rotaru F, Achouri LN, Girard Alcindor V, Bastin B, Boulay F, Briand JB, Sanchez-Benitez AM, Bouzomita H, Borcea C, Borcea R, Blank BB, Carniol B, Čeliković IT, Delahaye P, Delaunay F, Etasse D, Fremont G, de France G, Fontbonne JM, Grinyer GF, Harang J, Hommet J, Jevremović AM, Lewitowicz M, Martel I, Mrazek J, Parlog M, Poincheval J, Ramos D, Spitaels C, Stanoiu M, Thomas J, Toprek D. High precision measurement of the Ne-19 beta-decay half-life using real-time digital acquisition. in Physical Review C. 2017;96(6).
doi:10.1103/PhysRevC.96.065501 .

Fontbonne, C., Ujić, Predrag, de Oliveira Santos, F., Flechard, Xavier, Rotaru, Florin, Achouri, Lynda N., Girard Alcindor, V., Bastin, Beyhan, Boulay, Francois, Briand, J. B., Sanchez-Benitez, Angel Miguel, Bouzomita, H., Borcea, Catalin, Borcea, Ruxandra, Blank, Bertram B., Carniol, Benjamin, Čeliković, Igor T., Delahaye, Pierre, Delaunay, F., Etasse, David, Fremont, Georges, de France, Gilles, Fontbonne, Jean Marc, Grinyer, G. F., Harang, J., Hommet, Jean, Jevremović, Aleksandar M., Lewitowicz, Marek, Martel, Ismael, Mrazek, Jaromir, Parlog, Marian, Poincheval, J., Ramos, Diego, Spitaels, C., Stanoiu, Mihai, Thomas, Jean-Charles, Toprek, Dragan, "High precision measurement of the Ne-19 beta-decay half-life using real-time digital acquisition" in Physical Review C, 96, no. 6 (2017),
https://doi.org/10.1103/PhysRevC.96.065501 . .