150 results on '"Iguaz, F.J."'
Search Results
2. Spatial resolution studies using point spread function extraction in optically read out Micromegas and GEM detectors
- Author
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Cools, A., Ferrer-Ribas, E., Papaevangelou, T., Pollacco, E.C., Lisowska, M., Brunbauer, F.M., Oliveri, E., and Iguaz, F.J.
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- 2024
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3. Development of multi-element monolithic germanium detectors for X-ray detection at synchrotron facilities
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Manzanillas, L., Aplin, S., Balerna, A., Bell, P., Casas, J., Cascella, M., Chatterji, S., Cohen, C., Dennis, G., Fajardo, P., Graafsma, H., Hirsemann, H., Iguaz, F.J., Klementiev, K., Kołodziej, T., Martin, T., Menk, R., Orsini, F., Porro, M., Quispe, M., Schmitt, B., Tartoni, N., Turcato, M., Ward, C., and Welter, E.
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- 2023
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4. Sub-25 ps timing measurements with 10 × 10 cm[formula omitted] PICOSEC Micromegas detectors
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Lisowska, M., Bortfeldt, J., Brunbauer, F., Fanourakis, G., Floethner, K.J., Gallinaro, M., Garcia, F., Giomataris, I., Gustavsson, T., Iguaz, F.J., Janssens, D., Kallitsopoulou, A., Kovacic, M., Legou, P., Liu, J., Lupberger, M., Maniatis, I., Meng, Y., Muller, H., Oliveri, E., Orlandini, G., Papaevangelou, T., Pomorski, M., Ropelewski, L., Sampsonidis, D., Scharenberg, L., Schneider, T., Sohl, L., van Stenis, M., Tsipolitis, Y., Tzamarias, S.E., Utrobicic, A., Veenhof, R., Wang, X., White, S., Zhang, Z., and Zhou, Y.
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- 2023
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5. XAFS-DET: A new high throughout X-ray spectroscopy detector system developed for synchrotron applications
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Orsini, F., Aplin, S., Balerna, A., Bell, P., Casas, J., Cascella, M., Chatterji, S., Cohen, C., Dennis, G., Fajardo, P., Graafsma, H., Hirsemann, H., Iguaz, F.J., Klementiev, K., Kołodziej, T., Manzanillas, L., Martin, T., Menk, R., Porro, M., Quispe, M., Schmitt, B., Tartoni, N., Turcato, M., Ward, C., and Welter, E.
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- 2023
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6. Timing performance of a multi-pad PICOSEC-Micromegas detector prototype
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Aune, S., Bortfeldt, J., Brunbauer, F., David, C., Desforge, D., Fanourakis, G., Gallinaro, M., García, F., Giomataris, I., Gustavsson, T., Iguaz, F.J., Kebbiri, M., Kordas, K., Lampoudis, C., Legou, P., Lisowska, M., Liu, J., Lupberger, M., Maillard, O., Maniatis, I., Manthos, I., Müller, H., Oliveri, E., Papaevangelou, T., Paraschou, K., Pomorski, M., Qi, B., Resnati, F., Ropelewski, L., Sampsonidis, D., Scharenberg, L., Schneider, T., Sohl, L., van Stenis, M., Tsiamis, A., Tsipolitis, Y., Tzamarias, S.E., Utrobicic, A., Veenhof, R., Wang, X., White, S., Zhang, Z., and Zhou, Y.
- Published
- 2021
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7. Modeling the timing characteristics of the PICOSEC Micromegas detector
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Bortfeldt, J., Brunbauer, F., David, C., Desforge, D., Fanourakis, G., Gallinaro, M., García, F., Giomataris, I., Gustavsson, T., Iguaz, F.J., Kebbiri, M., Kordas, K., Lampoudis, C., Legou, P., Lisowska, M., Liu, J., Lupberger, M., Maillard, O., Manthos, I., Müller, H., Niaouris, V., Oliveri, E., Papaevangelou, T., Paraschou, K., Pomorski, M., Qi, B., Resnati, F., Ropelewski, L., Sampsonidis, D., Scharenberg, L., Schneider, T., Sohl, L., van Stenis, M., Tsipolitis, Y., Tzamarias, S.E., Utrobicic, A., Veenhof, R., Wang, X., White, S., Zhang, Z., and Zhou, Y.
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- 2021
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8. Timing performance of a Micro-Channel-Plate Photomultiplier Tube
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Bortfeldt, J., Brunbauer, F., David, C., Desforge, D., Fanourakis, G., Gallinaro, M., García, F., Giomataris, I., Gustavsson, T., Guyot, C., Iguaz, F.J., Kebbiri, M., Kordas, K., Legou, P., Liu, J., Lupberger, M., Manthos, I., Müller, H., Niaouris, V., Oliveri, E., Papaevangelou, T., Paraschou, K., Pomorski, M., Resnati, F., Ropelewski, L., Sampsonidis, D., Schneider, T., Schwemling, P., Scorsone, E., Sohl, L., van Stenis, M., Thuiner, P., Tsipolitis, Y., Tzamarias, S.E., Veenhof, R., Wang, X., White, S., Zhang, Z., and Zhou, Y.
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- 2020
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9. Progress on the PICOSEC-Micromegas Detector Development: Towards a precise timing, radiation hard, large-scale particle detector with segmented readout
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Kordas, K., Bortfeldt, J., Brunbauer, F., David, C., Desforge, D., Fanourakis, G., Franchi, J., Gallinaro, M., García, F., Giomataris, I., González-Díaz, D., Gustavsson, T., Guyot, C., Iguaz, F.J., Kebbiri, M., Legou, P., Liu, J., Lupberger, M., Maillard, O., Maniatis, I., Manthos, I., Müller, H., Niaouris, V., Oliveri, E., Papaevangelou, T., Paraschou, K., Pomorski, M., Qi, B., Resnati, F., Ropelewski, L., Sampsonidis, D., Schneider, T., Schwemling, P., Sohl, L., van Stenis, M., Thuiner, P., Tsipolitis, Y., Tzamarias, S.E., Veenhof, R., Wang, X., White, S., Zhang, Z., and Zhou, Y.
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- 2020
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10. Radiation imaging with glass Micromegas
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Brunbauer, F.M., Desforge, D., Ferrer-Ribas, E., Iguaz, F.J., Mehl, B., De Oliveira, R., Oliveri, E., Papaevangelou, T., Pizzirusso, O., Pollacco, E.C., Resnati, F., Ropelewski, L., Segui, L., and van Stenis, M.
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- 2020
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11. Neutron imaging with Micromegas detectors with optical readout
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Cools A., Aune S., Brunbauer F.M., Benoit T., Corsi A., Ferrer-Ribas E., Iguaz F.J., Mazoin C., Oliveri E., Papaevangelou T., Pollacco E.C., Potignon M., Ropelewski L., and Sari A.
- Subjects
Physics ,QC1-999 - Abstract
Optical readout of Micromegas gaseous detectors has been achieved by implementing a Micromegas detector on a glass substrate with a glass anode and a CMOS camera. Efficient X-ray radio-graphy has been demonstrated due to the integrated imaging approach inherent to optical readout. High granularity values have been reached for low-energy X-rays from radioactive sources and X-ray generators taking advantage of image sensors with several megapixel resolution. Detector characterization under X-ray radiography opens the way to different applications from beta imaging to neutron radiography. Here we will focus on one application: neutron imaging for non-destructive examination of highly gamma-ray emitting objects. This article reports the characterization of the detectors when exposed to a low activity neutron source. The response of the detector to thermal neutrons has been studied with different field configurations and gap thicknesses.
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- 2023
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12. First results on the search for chameleons with the KWISP detector at CAST
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Arguedas Cuendis, S., Baier, J., Barth, K., Baum, S., Bayirli, A., Belov, A., Bräuninger, H., Cantatore, G., Carmona, J.M., Castel, J.F., Cetin, S.A., Dafni, T., Davenport, M., Dermenev, A., Desch, K., Döbrich, B., Fischer, H., Funk, W., García, J.A., Gardikiotis, A., Garza, J.G., Gninenko, S., Hasinoff, M.D., Hoffmann, D.H.H., Iguaz, F.J., Irastorza, I.G., Jakovčić, K., Kaminski, J., Karuza, M., Krieger, C., Lakić, B., Laurent, J.M., Luzón, G., Maroudas, M., Miceli, L., Neff, S., Ortega, I., Ozbey, A., Pivovaroff, M.J., Rosu, M., Ruz, J., Chóliz, E. Ruiz, Schmidt, S., Schumann, M., Semertzidis, Y.K., Solanki, S.K., Stewart, L., Tsagris, I., Vafeiadis, T., Vogel, J.K., Vretenar, M., Yildiz, S.C., and Zioutas, K.
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- 2019
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13. Performance studies of pixelated HPGe detectors for synchrotron applications
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Velez, L. Manzanillas, primary, Bell, P., additional, Cascella, M., additional, Ward, C., additional, Klementiev, K., additional, Schmitt, B., additional, Kołodziej, T., additional, Orsini, F., additional, Iguaz, F.J., additional, Gimenez-Navarro, E., additional, Chatterji, S., additional, Dennis, G., additional, Graafsma, H., additional, Welter, E., additional, Hirsemann, H., additional, Quispe, M., additional, Fajardo, P., additional, Cohen, C., additional, Martin, T., additional, Porro, M., additional, Turcato, M., additional, Balerna, A., additional, and Menk, R., additional
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- 2023
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14. Development of a novel segmented mesh MicroMegas detector for neutron beam profiling
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Diakaki, M., Berthoumieux, E., Papaevangelou, T., Gunsing, F., Tsiledakis, G., Dupont, E., Anvar, S., Audouin, L., Aznar, F., Belloni, F., Ferrer-Ribas, E., Dafni, T., Desforge, D., Geralis, T., Giomataris, Y., Heyse, J., Iguaz, F.J., Jourde, D., Kebbiri, M., Paradela, C., Sizun, P., Schillebeeckx, P., Tassan-Got, L., and Virique, E.
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- 2018
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15. PICOSEC: Charged particle timing at sub-25 picosecond precision with a Micromegas based detector
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Bortfeldt, J., Brunbauer, F., David, C., Desforge, D., Fanourakis, G., Franchi, J., Gallinaro, M., Giomataris, I., González-Díaz, D., Gustavsson, T., Guyot, C., Iguaz, F.J., Kebbiri, M., Legou, P., Liu, J., Lupberger, M., Maillard, O., Manthos, I., Müller, H., Niaouris, V., Oliveri, E., Papaevangelou, T., Paraschou, K., Pomorski, M., Qi, B., Resnati, F., Ropelewski, L., Sampsonidis, D., Schneider, T., Schwemling, P., Sohl, L., Stenis, M. van, Thuiner, P., Tsipolitis, Y., Tzamarias, S.E., Veenhof, R., Wang, X., White, S., Zhang, Z., and Zhou, Y.
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- 2018
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16. Cosmogenic production of tritium in dark matter detectors
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Amaré, J., Castel, J., Cebrián, S., Coarasa, I., Cuesta, C., Dafni, T., Galán, J., García, E., Garza, J.G., Iguaz, F.J., Irastorza, I.G., Luzón, G., Martínez, M., Mirallas, H., Oliván, M.A., Ortigoza, Y., Ortiz de Solórzano, A., Puimedón, J., Ruiz-Chóliz, E., Sarsa, M.L., Villar, J.A., and Villar, P.
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- 2018
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17. Towards robust PICOSEC Micromegas precise timing detectors
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Lisowska, M., primary, Angelis, Y., additional, Aune, S., additional, Bortfeldt, J., additional, Brunbauer, F., additional, Chatzianagnostou, E., additional, Dehmelt, K., additional, Desforge, D., additional, Fanourakis, G., additional, Floethner, K.J., additional, Gallinaro, M., additional, Garcia, F., additional, Garg, P., additional, Giomataris, I., additional, Gnanvo, K., additional, Gustavsson, T., additional, Iguaz, F.J., additional, Janssens, D., additional, Kallitsopoulou, A., additional, Kovacic, M., additional, Legou, P., additional, Liu, J., additional, Lupberger, M., additional, Malace, S., additional, Maniatis, I., additional, Meng, Y., additional, Muller, H., additional, Oliveri, E., additional, Orlandini, G., additional, Papaevangelou, T., additional, Pomorski, M., additional, Ropelewski, L., additional, Sampsonidis, D., additional, Scharenberg, L., additional, Schneider, T., additional, Scorsone, E., additional, Sohl, L., additional, van Stenis, M., additional, Tsipolitis, Y., additional, Tzamarias, S.E., additional, Utrobicic, A., additional, Veenhof, R., additional, Wang, X., additional, White, S., additional, Zhang, Z., additional, and Zhou, Y., additional
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- 2023
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18. A large area 100-channel PICOSEC Micromegas detector with time resolution at the 20 ps level
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Utrobicic, A., primary, Angelis, Y., additional, Bortfeldt, J., additional, Brunbauer, F., additional, Chatzianagnostou, E., additional, Dehmelt, K., additional, Fanourakis, G., additional, Floethner, K.J., additional, Gallinaro, M., additional, Garcia, F., additional, Garg, P., additional, Giomataris, I., additional, Gnanvo, K., additional, Gustavsson, T., additional, Iguaz, F.J., additional, Janssens, D., additional, Kallitsopoulou, A., additional, Kovacic, M., additional, Legou, P., additional, Lisowska, M., additional, Liu, J., additional, Lupberger, M., additional, Maniatis, I., additional, Meng, Y., additional, Muller, H., additional, Oliveri, E., additional, Orlandini, G., additional, Papaevangelou, T., additional, Pomorski, M., additional, Ropelewski, L., additional, Sampsonidis, D., additional, Scharenberg, L., additional, Schneider, T., additional, Sohl, L., additional, van Stenis, M., additional, Tsipolitis, Y., additional, Tzamarias, S.E., additional, Veenhof, R., additional, Wang, X., additional, White, S., additional, Zhang, Z., additional, and Zhou, Y., additional
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- 2023
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19. DANTE Digital Pulse Processor for XRF and XAS experiments
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Iguaz, F.J., primary, Bombelli, L., additional, Meo, S., additional, Orsini, F., additional, Schöder, S., additional, Tocchio, A., additional, Trcera, N., additional, and Vantelon, D., additional
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- 2023
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20. X-ray imaging with Micromegas detectors with optical readout
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Cools, A., primary, Aune, S., additional, Beau, F., additional, Brunbauer, F.M., additional, Benoit, T., additional, Desforge, D., additional, Ferrer-Ribas, E., additional, Kallitsopoulou, A., additional, Malgorn, C., additional, Oliveri, E., additional, Papaevangelou, T., additional, Pollacco, E.C., additional, Ropelewski, L., additional, Sari, A., additional, and Iguaz, F.J., additional
- Published
- 2023
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21. Readout technologies for directional WIMP Dark Matter detection
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Battat, J.B.R., Irastorza, I.G., Aleksandrov, A., Asada, T., Baracchini, E., Billard, J., Bosson, G., Bourrion, O., Bouvier, J., Buonaura, A., Burdge, K., Cebrián, S., Colas, P., Consiglio, L., Dafni, T., D’Ambrosio, N., Deaconu, C., De Lellis, G., Descombes, T., Di Crescenzo, A., Di Marco, N., Druitt, G., Eggleston, R., Ferrer-Ribas, E., Fusayasu, T., Galán, J., Galati, G., García, J.A., Garza, J.G., Gentile, V., Garcia-Sciveres, M., Giomataris, Y., Guerrero, N., Guillaudin, O., Guler, A.M., Harton, J., Hashimoto, T., Hedges, M.T., Iguaz, F.J., Ikeda, T., Jaegle, I., Kadyk, J.A., Katsuragawa, T., Komura, S., Kubo, H., Kuge, K., Lamblin, J., Lauria, A., Lee, E.R., Lewis, P., Leyton, M., Loomba, D., Lopez, J.P., Luzón, G., Mayet, F., Mirallas, H., Miuchi, K., Mizumoto, T., Mizumura, Y., Monacelli, P., Monroe, J., Montesi, M.C., Naka, T., Nakamura, K., Nishimura, H., Ochi, A., Papevangelou, T., Parker, J.D., Phan, N.S., Pupilli, F., Richer, J.P., Riffard, Q., Rosa, G., Santos, D., Sawano, T., Sekiya, H., Seong, I.S., Snowden-Ifft, D.P., Spooner, N.J.C., Sugiyama, A., Taishaku, R., Takada, A., Takeda, A., Tanaka, M., Tanimori, T., Thorpe, T.N., Tioukov, V., Tomita, H., Umemoto, A., Vahsen, S.E., Yamaguchi, Y., Yoshimoto, M., and Zayas, E.
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- 2016
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22. Results of the material screening program of the NEXT experiment
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Dafni, T., Álvarez, V., Bandac, I., Bettini, A., Borges, F.I.G.M., Camargo, M., Cárcel, S., Cebrián, S., Cervera, A., Conde, C.A.N., Díaz, J., Esteve, R., Fernandes, L.M.P., Fernández, M., Ferrario, P., Ferreira, A.L., Freitas, E.D.C., Gehman, V.M., Goldschmidt, A., Gómez, H., Gómez-Cadenas, J.J., González-Díaz, D., Gutiérrez, R.M., Hauptman, J., Hernando Morata, J.A., Herrera, D.C., Iguaz, F.J., Irastorza, I.G., Labarga, L., Laing, A., Liubarsky, I., Lorca, D., Losada, M., Luzón, G., Marí, A., Martín-Albo, J., Martínez, A., Martínez-Lema, G., Miller, T., Monrabal, F., Monserrate, M., Monteiro, C.M.B., Mora, F.J., Moutinho, L.M., Muñoz Vidal, J., Nebot-Guinot, M., Nygren, D., Oliveira, C.A.B., Pérez, J., Pérez Aparicio, J.L., Renner, J., Ripoll, L., Rodríguez, A., Rodríguez, J., Santos, F.P., dos Santos, J.M.F., Segui, L., Serra, L., Shuman, D., Simón, A., Sofka, C., Sorel, M., Toledo, J.F., Torrent, J., Tsamalaidze, Z., Veloso, J.F.C.A., Villar, J.A., Webb, R.C., White, J.T., and Yahlali, N.
- Published
- 2016
- Full Text
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23. An update on the Axion Helioscopes front: current activities at CAST and the IAXO project
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Dafni, T., Arik, M., Armengaud, E., Aune, S., Avignone, F.T., Barth, K., Belov, A., Betz, M., Bräuninger, H., Brax, P., Breijnholt, N., Brun, P., Cantatore, G., Carmona, J.M., Carosi, G.P., Caspers, F., Caspi, S., Cetin, S.A., Chelouche, D., Christensen, F.E., Collar, J.I., Dael, A., Davenport, M., Derbin, A.V., Desch, K., Diago, A., Döbrich, B., Dratchnev, I., Dudarev, A., Eleftheriadis, C., Fanourakis, G., Ferrer-Ribas, E., Friedrich, P., Galán, J., García, J.A., Gardikiotis, A., Garza, J.G., Gazis, E.N., Georgiopoulou, E., Geralis, T., Gimeno, B., Giomataris, I., Gninenko, S., Gómez, H., González-Díaz, D., Gruber, E., Guendelman, E., Guthörl, T., Hailey, C.J., Hartmann, R., Hauf, S., Haug, F., Hasinoff, M.D., Hiramatsu, T., Hoffmann, D.H.H., Horns, D., Iguaz, F.J., Irastorza, I.G., Isern, J., Imai, K., Jacoby, J., Jaeckel, J., Jakobsen, A.C., Jakovčić, K., Kaminski, J., Kawasaki, M., Karuza, M., Königsmann, K., Kotthaus, R., Krčmar, M., Kousouris, K., Krieger, C., Kuster, M., Lakić, B., Laurent, J.M., Limousin, O., Lindner, A., Liolios, A., Ljubičić, A., Luzón, G., Matsuki, S., Muratova, V.N., Neff, S., Niinikoski, T., Nones, C., Ortega, I., Papaevangelou, T., Pivovaroff, M.J., Raffelt, G., Redondo, J., Riege, H., Ringwald, A., Rodríguez, A., Rosu, M., Russenschuck, S., Ruz, J., Saikawa, K., Savvidis, I., Sekiguchi, T., Semertzidis, Y.K., Shilon, I., Sikivie, P., Silva, H., Solanki, S.K., Stewart, L., ten Kate, H.H.J., Tomas, A., Troitsky, S., Vafeiadis, T., van Bibber, K., Vedrine, P., Villar, J.A., Vogel, J.K., Walckiers, L., Weltman, A., Wester, W., Yildiz, S.C., and Zioutas, K.
- Published
- 2016
- Full Text
- View/download PDF
24. Towards robust PICOSEC Micromegas precise timing detectors
- Author
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Lisowska, M, Angelis, Y, Aune, S, Bortfeldt, J, Brunbauer, F, Chatzianagnostou, E, Dehmelt, K, Desforge, D, Fanourakis, G, Floethner, K.J, Gallinaro, M, Garcia, F, Garg, P, Giomataris, I, Gnanvo, K, Gustavsson, T, Iguaz, F.J, Janssens, D, Kallitsopoulou, A, Kovacic, M, Legou, P, Liu, J, Lupberger, M, Malace, S, Maniatis, I, Meng, Y, Muller, H, Oliveri, E, Orlandini, G, Papaevangelou, T, Pomorski, M, Ropelewski, L, Sampsonidis, D, Scharenberg, L, Schneider, T, Scorsone, E, Sohl, L, van Stenis, M, Tsipolitis, Y, Tzamarias, S.E, Utrobicic, A, Veenhof, R, Wang, X, White, S, Zhang, Z, Zhou, Y, Institut de Recherches sur les lois Fondamentales de l'Univers (IRFU), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay, Aristotle University of Thessaloniki, Ludwig-Maximilian University of Munich, CERN [Genève], Stony Brook University [SUNY] (SBU), State University of New York (SUNY), Institute of Nuclear and Particle Physics (INPAC), Shanghai Jiao Tong University [Shanghai], Laboratório de Instrumentačão e Física Experimental de Partículas (LIP), Helsinki Institute of Physics (HIP), Helsingin yliopisto = Helsingfors universitet = University of Helsinki, Thomas Jefferson National Accelerator Facility (Jefferson Lab), Laboratoire Interactions, Dynamiques et Lasers (ex SPAM) (LIDyl), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS), University of Zagreb, University of Science and Technology of China [Hefei] (USTC), Universität Bonn = University of Bonn, Laboratoire d'Intégration des Systèmes et des Technologies (LIST (CEA)), Direction de Recherche Technologique (CEA) (DRT (CEA)), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA), Laboratoire Capteurs Diamant (LCD-LIST), Département Métrologie Instrumentation & Information (DM2I), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Direction de Recherche Technologique (CEA) (DRT (CEA)), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-Laboratoire d'Intégration des Systèmes et des Technologies (LIST (CEA)), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay, National Technical University of Athens [Athens] (NTUA), Ruđer Bošković Institute, the Fundação para a Ciência e a Tecnologia (FCT), Portugal (CERN/FIS-PAR/0005/2021), the US CMS program under DOE contract No. DEAC02-07CH11359, Weizmann Institute of Science, European Project: 665779,H2020,H2020-MSCA-COFUND-2014,COFUND-FP-CERN-2014(2015), and European Project: 600382,EC:FP7:PEOPLE,FP7-PEOPLE-2012-COFUND,ENHANCED EUROTALENTS(2014)
- Subjects
instrumentation ,Physics - Instrumentation and Detectors ,detector ,carbon ,FOS: Physical sciences ,Instrumentation and Detectors (physics.ins-det) ,cesium iodine ,electrode ,[PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex] ,Cherenkov radiator ,muon ,radioactivity ,[PHYS.PHYS.PHYS-INS-DET]Physics [physics]/Physics [physics]/Instrumentation and Detectors [physics.ins-det] ,Detectors and Experimental Techniques ,boron ,ionizing radiation ,time resolution ,physics.ins-det ,Micromegas ,performance ,nuclear instrumentation - Abstract
International audience; The PICOSEC Micromegas (MM) detector is a precise timing gaseous detector consisting of a Cherenkov radiator combined with a photocathode and a MM amplifying structure. A 100-channel non-resistive PICOSEC MM prototype with 10x10 cm$^2$ active area equipped with a Cesium Iodide (CsI) photocathode demonstrated a time resolution below $\sigma$ =18 ps. The objective of this work is to improve the PICOSEC MM detector robustness aspects; i.e. integration of resistive MM and carbon-based photocathodes; while maintaining good time resolution. The PICOSEC MM prototypes have been tested in laboratory conditions and successfully characterised with 150 GeV/c muon beams at the CERN SPS H4 beam line. The excellent timing performance below $\sigma$ = 20 ps for an individual pad obtained with the 10x10 cm$^2$ area resistive PICOSEC MM of 20 M$\Omega$/sq showed no significant time resolution degradation as a result of adding a resistive layer. A single-pad prototype equipped with a 12 nm thick Boron Carbide (B$_4$C) photocathode presented a time resolution below $\sigma$ = 35 ps; opening up new possibilities for detectors with robust photocathodes. The results made the concept more suitable for the experiments in need of robust detectors with good time resolution.
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- 2023
25. Accurate γ and MeV-electron track reconstruction with an ultra-low diffusion Xenon/TMA TPC at 10 atm
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González-Díaz, Diego, Álvarez, V., Borges, F.I.G., Camargo, M., Cárcel, S., Cebrián, S., Cervera, A., Conde, C.A.N., Dafni, T., Díaz, J., Esteve, R., Fernandes, L.M.P., Ferrario, P., Ferreira, A.L., Freitas, E.D.C., Gehman, V.M., Goldschmidt, A., Gómez-Cadenas, J.J., Gutiérrez, R.M., Hauptman, J., Hernando Morata, J.A., Herrera, D.C., Irastorza, I.G., Labarga, L., Laing, A., Liubarsky, I., Lopez-March, N., Lorca, D., Losada, M., Luzón, G., Marí, A., Martín-Albo, J., Martínez-Lema, G., Martínez, A., Miller, T., Monrabal, F., Monserrate, M., Monteiro, C.M.B., Mora, F.J., Moutinho, L.M., Muñoz Vidal, J., Nebot-Guinot, M., Nygren, D., Oliveira, C.A.B., Pérez, J., Pérez Aparicio, J.L., Querol, M., Renner, J., Ripoll, L., Rodríguez, J., Santos, F.P., dos Santos, J.M.F., Serra, L., Shuman, D., Simón, A., Sofka, C., Sorel, M., Toledo, J.F., Torrent, J., Tsamalaidze, Z., Veloso, J.F.C.A., Villar, J.A., Webb, R., White, J.T., Yahlali, N., Azevedo, C., Aznar, F., Calvet, D., Castel, J., Ferrer-Ribas, E., García, J.A., Giomataris, I., Gómez, H., Iguaz, F.J., Lagraba, A., Le Coguie, A., Mols, J.P., Şahin, Ö., Rodríguez, A., Ruiz-Choliz, E., Segui, L., Tomás, A., and Veenhof, R.
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- 2015
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26. Sub-25 ps timing measurements with 10 × 10 cm2 PICOSEC Micromegas detectors
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Lisowska, M., primary, Bortfeldt, J., additional, Brunbauer, F., additional, Fanourakis, G., additional, Floethner, K.J., additional, Gallinaro, M., additional, Garcia, F., additional, Giomataris, I., additional, Gustavsson, T., additional, Iguaz, F.J., additional, Janssens, D., additional, Kallitsopoulou, A., additional, Kovacic, M., additional, Legou, P., additional, Liu, J., additional, Lupberger, M., additional, Maniatis, I., additional, Meng, Y., additional, Muller, H., additional, Oliveri, E., additional, Orlandini, G., additional, Papaevangelou, T., additional, Pomorski, M., additional, Ropelewski, L., additional, Sampsonidis, D., additional, Scharenberg, L., additional, Schneider, T., additional, Sohl, L., additional, van Stenis, M., additional, Tsipolitis, Y., additional, Tzamarias, S.E., additional, Utrobicic, A., additional, Veenhof, R., additional, Wang, X., additional, White, S., additional, Zhang, Z., additional, and Zhou, Y., additional
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- 2023
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27. Modelling the behaviour of microbulk Micromegas in xenon/trimethylamine gas
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Ruiz-Choliz, E., González-Díaz, D., Diago, A., Castel, J., Dafni, T., Herrera, D.C., Iguaz, F.J., Irastorza, I.G., Luzón, G., Mirallas, H., Şahin, Ö., and Veenhof, R.
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- 2015
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28. Ionization and scintillation of nuclear recoils in gaseous xenon
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Renner, J., Gehman, V.M., Goldschmidt, A., Matis, H.S., Miller, T., Nakajima, Y., Nygren, D., Oliveira, C.A.B., Shuman, D., Álvarez, V., Borges, F.I.G., Cárcel, S., Castel, J., Cebrián, S., Cervera, A., Conde, C.A.N., Dafni, T., Dias, T.H.V.T., Díaz, J., Esteve, R., Evtoukhovitch, P., Fernandes, L.M.P., Ferrario, P., Ferreira, A.L., Freitas, E.D.C., Gil, A., Gómez, H., Gómez-Cadenas, J.J., González-Díaz, D., Gutiérrez, R.M., Hauptman, J., Hernando Morata, J.A., Herrera, D.C., Iguaz, F.J., Irastorza, I.G., Jinete, M.A., Labarga, L., Laing, A., Liubarsky, I., Lopes, J.A.M., Lorca, D., Losada, M., Luzón, G., Marí, A., Martín-Albo, J., Martínez, A., Moiseenko, A., Monrabal, F., Monserrate, M., Monteiro, C.M.B., Mora, F.J., Moutinho, L.M., Muñoz Vidal, J., Natal da Luz, H., Navarro, G., Nebot-Guinot, M., Palma, R., Pérez, J., Pérez Aparicio, J.L., Ripoll, L., Rodríguez, A., Rodríguez, J., Santos, F.P., dos Santos, J.M.F., Seguí, L., Serra, L., Simón, A., Sofka, C., Sorel, M., Toledo, J.F., Tomás, A., Torrent, J., Tsamalaidze, Z., Veloso, J.F.C.A., Villar, J.A., Webb, R.C., White, J., and Yahlali, N.
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- 2015
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29. The Next Generation of Axion Helioscopes: The International Axion Observatory (IAXO)
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Vogel, J.K., Armengaud, E., Avignone, F.T., Betz, M., Brax, P., Brun, P., Cantatore, G., Carmona, J.M., Carosi, G.P., Caspers, F., Caspi, S., Cetin, S.A., Chelouche, D., Christensen, F.E., Dael, A., Dafni, T., Davenport, M., Derbin, A.V., Desch, K., Diago, A., Döbrich, B., Dratchnev, I., Dudarev, A., Eleftheriadis, C., Fanourakis, G., Ferrer-Ribas, E., Galán, J., García, J.A., Garza, J.G., Geralis, T., Gimeno, B., Giomataris, I., Gninenko, S., Gómez, H., González-Díaz, D., Guendelman, E., Hailey, C.J., Hiramatsu, T., Hoffmann, D.H.H., Horns, D., Iguaz, F.J., Irastorza, I.G., Isern, J., Imai, K., Jakobsen, A.C., Jaeckel, J., Jakovčić, K., Kaminski, J., Kawasaki, M., Karuza, M., Krčmar, M., Kousouris, K., Krieger, C., Lakić, B., Limousin, O., Lindner, A., Liolios, A., Luzón, G., Matsuki, S., Muratova, V.N., Nones, C., Ortega, I., Papaevangelou, T., Pivovaroff, M.J., Raffelt, G., Redondo, J., Ringwald, A., Russenschuck, S., Ruz, J., Saikawa, K., Savvidis, I., Sekiguchi, T., Semertzidis, Y.K., Shilon, I., Sikivie, P., Silva, H., ten Kate, H., Tomas, A., Troitsky, S., Vafeiadis, T., van Bibber, K., Vedrine, P., Villar, J.A., Walckiers, L., Weltman, A., Wester, W., Yildiz, S.C., and Zioutas, K.
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- 2015
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30. Detection limit of next-generation of multi-element germanium detectors in the context of Environmental science
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Iguaz, F.J., primary, Saleem, T., additional, Fonda, E., additional, Landrot, G., additional, Manzanillas, L., additional, and Orsini, F., additional
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- 2022
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31. X-ray imaging with Micromegas detectors with optical readout
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Cools, A., Aune, S., Beau, F., Brunbauer, F.M., Benoit, T., Desforge, D., Ferrer-Ribas, E., Kallitsopoulou, A., Malgorn, C., Oliveri, E., Papaevangelou, T., Pollacco, E.C., Ropelewski, L., Sari, A., Iguaz, F.J., Institut de Recherches sur les lois Fondamentales de l'Univers (IRFU), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay, Institut des Sciences du Vivant Frédéric JOLIOT (JOLIOT), Direction de Recherche Fondamentale (CEA) (DRF (CEA)), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA), CERN [Genève], Laboratoire Capteurs et Architectures Electroniques (LCAE), Département Métrologie Instrumentation & Information (DM2I), Laboratoire d'Intégration des Systèmes et des Technologies (LIST (CEA)), Direction de Recherche Technologique (CEA) (DRT (CEA)), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Direction de Recherche Technologique (CEA) (DRT (CEA)), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-Laboratoire d'Intégration des Systèmes et des Technologies (LIST (CEA)), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay, Synchrotron SOLEIL (SSOLEIL), Centre National de la Recherche Scientifique (CNRS), Cross-Disciplinary Program on Instrumentation and Detection (PTC-ID) of the French Alternative Energies and Atomic Energy Commission (CEA)., SOLEIL for provision of synchrotron radiation facilities (proposal number 99220033), RD51 at CERN, Weizmann Institute of Science, ANR-10-LABX-0038,P2IO,Physics of the 2 infinities and the origins(2010), and ANR-11-IDEX-0003,IPS,Idex Paris-Saclay(2011)
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Physics - Instrumentation and Detectors ,neutron imaging ,CMOS camera ,FOS: Physical sciences ,[PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex] ,X-rays ,synchrotron ,beta-rays ,cancer ,[PHYS.PHYS.PHYS-INS-DET]Physics [physics]/Physics [physics]/Instrumentation and Detectors [physics.ins-det] ,Detectors and Experimental Techniques ,physics.ins-det ,nuclear instrumentation ,instrumentation ,detector ,neutrons ,Instrumentation and Detectors (physics.ins-det) ,gamma-rays ,non-destructive examination ,beta imaging ,metrology ,radioactivity ,SOLEIL ,ionizing radiation ,radiography ,Micromegas - Abstract
In the last years, optical readout of Micromegas gaseous detectors has been achieved by implementing a Micromegas detector on a glass anode coupled to a CMOS camera. Effective X-ray radiography was demonstrated using integrated imaging approach. High granularity values have been reached for low-energy X-rays from radioactive sources and X-ray generators. Detector characterization with X-ray radiography has led to two applications: neutron imaging for non-destructive examination of highly gamma-ray emitting objects and beta imaging for the single cell activity tagging in the field of oncology drug studies. First measurements investigating the achievable spatial resolution of the glass Micromegas detector at the SOLEIL synchrotron facility with a high-intensity and flat irradiation field will be shown in this article., Comment: 6 pages, 4 figures, 7th International Conference on Micro Pattern Gaseous Detectors, 11-16 December 20223, Weizmann Institute of Science, Rehovot, Israel
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- 2022
32. Sub-25 ps timing measurements with 10 × 10 cm 2 PICOSEC Micromegas detectors
- Author
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Lisowska, M., Bortfeldt, J., Brunbauer, F., Fanourakis, G., Floethner, K.J., Gallinaro, M., Garcia, F., Giomataris, I., Gustavsson, T., Iguaz, F.J., Janssens, D., Kallitsopoulou, A., Kovacic, M., Legou, P., Liu, J., Lupberger, M., Maniatis, I., Meng, Y., Muller, H., Oliveri, E., Orlandini, G., Papaevangelou, T., Pomorski, Michal, Ropelewski, L., Sampsonidis, D., Scharenberg, L., Schneider, T., Sohl, L., van Stenis, M., Tsipolitis, Y., Tzamarias, S.E., Utrobicic, A., Veenhof, R., Wang, X., White, S., Zhang, Z., Zhou, Y., CERN [Genève], Université Paris-Saclay, Ludwig-Maximilians University [Munich] (LMU), National Center for Scientific Research 'Demokritos' (NCSR), Universität Bonn = University of Bonn, University of Lisboa, Helsinki Metropolia University of Applied Sciences, Institut de Recherches sur les lois Fondamentales de l'Univers (IRFU), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay, Laboratoire Interactions, Dynamiques et Lasers (ex SPAM) (LIDyl), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS), Dynamique et Interactions en phase Condensée (DICO), Institut Rayonnement Matière de Saclay (IRAMIS), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-Laboratoire Interactions, Dynamiques et Lasers (ex SPAM) (LIDyl), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)-Centre National de la Recherche Scientifique (CNRS), University of Zagreb, University of Science and Technology of China [Hefei] (USTC), Aristotle University of Thessaloniki, Friedrich-Alexander Universität Erlangen-Nürnberg (FAU), Laboratoire Capteurs Diamant (LCD-LIST), Département Métrologie Instrumentation & Information (DM2I), Laboratoire d'Intégration des Systèmes et des Technologies (LIST (CEA)), Direction de Recherche Technologique (CEA) (DRT (CEA)), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Direction de Recherche Technologique (CEA) (DRT (CEA)), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-Laboratoire d'Intégration des Systèmes et des Technologies (LIST (CEA)), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay, National Technical University of Athens [Athens] (NTUA), University of Virginia, We acknowledge the financial support of the EP R&D, CERN Strategic Programme on Technologies for Future Experiments, the RD51 collaboration, in the framework of RD51 common projects, the Cross-Disciplinary Program on Instrumentation and Detection of CEA, the French Alternative Energies and Atomic Energy Commission, the PHENIICS Doctoral School Program of Universit ́e Paris-Saclay, the Fundamental Research Funds for the Central266Universities of China, the Program of National Natural Science Foundation of China (grant number 11935014), the COFUND-FP-CERN-2014 program (grant number 665779), the Funda ̧c ̃ao para a Ciˆencia e a Tecnologia (FCT), Portugal (grants IF/00410/2012 and CERN/FIS-PAR/0006/2017), the Enhanced Eurotalents program (PCOFUND-GA-2013-600382), and the US CMS program under DOE contract No. DE-AC02-07CH11359.
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instrumentation ,detector ,Electronic architecture ,[PHYS.PHYS.PHYS-INS-DET]Physics [physics]/Physics [physics]/Instrumentation and Detectors [physics.ins-det] ,PICOSEC Micromegas detector - Abstract
International audience; The PICOSEC Micromegas detector is a precise timing gaseous detector based on a Cherenkov radiator coupled to a semi-transparent photocathode and a Micromegas amplifying structure. First single-pad prototypes demonstrated a time resolution below = 25 ps, however, to make the concept appropriate to physics applications, several developments are required. The objective of this work was to achieve an equivalent time resolution for a 10 × 10 cm area PICOSEC Micromegas detector. The prototype was designed, produced and tested in the laboratory and successfully operated with a 80 GeV/c muon beam. Preliminary results for this device equipped with a CsI photocathode demonstrated a time resolution below = 25 ps for all measured pads. The time resolution was reduced to be below = 18 ps by decreasing the drift gap to 180 m and using dedicated RF amplifier cards as new electronics. The excellent timing performance of the single-channel proof of concept was not only transferred to the 100-channel prototype, but even improved, making the PICOSEC Micromegas detector more suitable for large-area experiments in need of detectors with high time resolutions.
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- 2022
33. Precise timing and recent advancements with segmented anode PICOSEC Micromegas prototypes
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Manthos, I., additional, Aune, S., additional, Bortfeldt, J., additional, Brunbauer, F., additional, David, C., additional, Desforge, D., additional, Fanourakis, G., additional, Gallinaro, M., additional, García, F., additional, Giomataris, I., additional, Gustavsson, T., additional, Iguaz, F.J., additional, Kallitsopoulou, A., additional, Kebbiri, M., additional, Kordas, K., additional, Lampoudis, C., additional, Legou, P., additional, Lisowska, M., additional, Liu, J., additional, Lupberger, M., additional, Maillard, O., additional, Maniatis, I., additional, Müller, H., additional, Oliveri, E., additional, Papaevangelou, T., additional, Paraschou, K., additional, Pomorski, M., additional, Qi, B., additional, Resnati, F., additional, Ropelewski, L., additional, Sampsonidis, D., additional, Scharenberg, L., additional, Schneider, T., additional, Sohl, L., additional, van Stenis, M., additional, Tsiamis, A., additional, Tsipolitis, Y., additional, Tzamarias, S.E., additional, Utrobicic, A., additional, Veenhof, R., additional, Wang, X., additional, White, S., additional, Zhang, Z., additional, and Zhou, Y., additional
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- 2022
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34. Microbulk Micromegas in non-flammable mixtures of argon and neon at high pressure
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Iguaz, F.J., primary, Dafni, T., additional, Canellas, C., additional, Castel, J.F., additional, Cebrián, S., additional, Garza, J.G., additional, Irastorza, I.G., additional, Luzón, G., additional, Mirallas, H., additional, and Ruiz-Chóliz, E., additional
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- 2022
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35. Microbulk Micromegas in non-flammable mixtures of argon and neon at high pressure
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Iguaz, F.J., Dafni, T., Canellas, C., Castel, J.F., Cebrián, S., Garza, J.G., Irastorza, I.G., Luzón, G., Mirallas, H., and Ruiz-Chóliz, E.
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Physics - Instrumentation and Detectors ,FOS: Physical sciences ,Instrumentation and Detectors (physics.ins-det) ,Instrumentation ,Mathematical Physics - Abstract
We report on a systematic characterization of microbulk Micromegas readouts in high-pressure Ar+1%iC4H10 and Ne+2%iC4H10 mixtures. Experimental data on gain, electron transmission and energy resolution are presented for a wide range of drift and amplification voltages and pressures from 1 bar to 10 bar for argon and from 5 bar to 10 bar in neon, in steps of 1 bar. Maximum gains higher than 1.7e3 (1.7e4) in argon (neon) are measured for all pressures, remarkably without the significant decrease with pressure typically observed in other amplification structures. A competitive energy resolution at 22.1 keV, but with a slight degradation with pressure, is observed:from 10.8% at 1 bar to 15.6% FWHM at 10 bar in argon and from 8.3% at 5 bar to 15.0% FWHM at1 10 bar in neon. The experimental setup, procedure and the results will be presented and discussed in detail. The work is motivated by the TREX-DM experiment, that is operating in the Laboratorio Subterr\'aneo de Canfranc with the mentioned mixtures, although the results may be of interest for other applications of time projection chambers at high pressures., Comment: 11 pages, 8 figures, prepared for JINST, minor changes in th text, added a reference
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- 2022
36. The Discrimination Capabilities of Micromegas Detectors at Low Energy
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Iguaz, F.J., Dafni, T., Ferrer-Ribas, E., Galán, J., García, J.A., Gardikiotis, A., Giomataris, I., Irastorza, I.G., Mols, J.P., Papaevangelou, T., Rodríguez, A., Tomás, A., Vafeiadis, T., and Yildiz, C.
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- 2012
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37. CAST Microbulk Micromegas in the Canfranc Underground Laboratory
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Tomas, A., Aune, S., Dafni, T., Fanourakis, G., Ferrer-Ribas, E., Galán, J., García, J.A., Gardikiotis, A., Geralis, T., Giomataris, I., Gómez, H., Garza, J.G., Herrera, D.C., Iguaz, F.J., Irastorza, I.G., Luzón, G., Papaevangelou, T., Rodríguez, A., Ruz, J., Seguí, L., Vafeiadis, T., and Yildiz, S.C.
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- 2012
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38. New Developments in Micromegas Microbulk Detectors
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Iguaz, F.J., Andriamonje, S., Belloni, F., Berthoumieux, E., Calviani, M., Dafni, T., Oliveira, De, Ferrer-Ribas, E., Galáan, J., Garcáıa, J.A., Giomataris, I., Guerrero, C., Gunsing, Herrera, D.C., Irastorza, I.G., Papaevangelou, T., Rodráıguez, A., and Tomáas, A.
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- 2012
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39. Snowmass 2021 White Paper Instrumentation Frontier 05 - White Paper 1: MPGDs: Recent advances and current R&D
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Dehmelt, K., Della Pietra, M., Muller, H., Tzamarias, S.E., White, A., White, S., Zhang, Z., Alviggi, M., Angelis, I., Aune, S., Bortfeldt, J., Bregant, M., Brunbauer, F., Camerlingo, M.T., Canale, V., D'Amico, V., Desforge, D., Di Donato, C., Di Nardo, R., Fanourakis, G., Floethner, K.J., Gallinaro, M., Garcia, F., Giomataris, I., Gnanvo, K., Gustavsson, T., Hall-Wilton, R., Iengo, P., Iguaz, F.J., Iodice, M., Janssens, D., Kallitsopoulou, A., Kebbiri, M., Kordas, K., Lampoudis, C., Legou, P., Lisowska, M., Liu, J., Lupberger, M., Malace, S., Maniatis, I., Manthos, I., Meng, Y., Natal da Luz, H., Oliveri, E., Orlandini, G., Papaevangelou, T., Paraschou, K., Petrucci, F., Pfeiffer, D., Pomorski, M., Popescu, S., Resnati, F., Ropelewski, L., Rusu, A., Sampsonidis, D., Scharenberg, L., Schneider, T., Sekhniaidze, G., Sessa, M., Shao, M., Sohl, L., Toledo-Alarcon, J., Tsiamis, A., Tsipolitis, Y., Utrobicic, A., van Stenis, M., Veenhof, R., Wang, X., Zhou, Y., HEP, INSPIRE, Commissariat à l'énergie atomique et aux énergies alternatives (CEA), Synchrotron SOLEIL (SSOLEIL), and Centre National de la Recherche Scientifique (CNRS)
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detector: technology ,Physics - Instrumentation and Detectors ,[PHYS.HEXP] Physics [physics]/High Energy Physics - Experiment [hep-ex] ,hep-ex ,[PHYS.NEXP] Physics [physics]/Nuclear Experiment [nucl-ex] ,micro-pattern detector ,[PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex] ,nucl-ex ,High Energy Physics - Experiment ,[PHYS.PHYS.PHYS-INS-DET] Physics [physics]/Physics [physics]/Instrumentation and Detectors [physics.ins-det] ,[PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex] ,Nuclear Physics - Experiment ,[PHYS.PHYS.PHYS-INS-DET]Physics [physics]/Physics [physics]/Instrumentation and Detectors [physics.ins-det] ,Detectors and Experimental Techniques ,physics.ins-det ,Nuclear Experiment ,spatial resolution ,time resolution ,Particle Physics - Experiment ,activity report ,detector: design - Abstract
This paper will review the origins, development, and examples of new versions of Micro-Pattern Gas Detectors. The goal for MPGD development was the creation of detectors that could cost-effectively cover large areas while offering excellent position and timing resolution, and the ability to operate at high incident particle rates. The early MPGD developments culminated in the formation of the RD51 collaboration which has become the critical organization for the promotion of MPGDs and all aspects of their production, characterization, simulation, and uses in an expanding array of experimental configurations. For the Snowmass 2021 study, a number of Letters of Interest were received that illustrate ongoing developments and expansion of the use of MPGDs. In this paper, we highlight high precision timing, high rate application, trigger capability expansion of the SRS readout system, and a structure designed for low ion backflow., Comment: Contribution to Snowmass 2021
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- 2022
40. Detection limit of next-generation of multi-element germanium detectors in the context of Environmental science
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Iguaz, F.J., Saleem, T., Fonda, E., Landrot, G., Manzanillas, L., Orsini, F., and HEP, INSPIRE
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History ,Physics - Instrumentation and Detectors ,[PHYS.PHYS.PHYS-INS-DET] Physics [physics]/Physics [physics]/Instrumentation and Detectors [physics.ins-det] ,FOS: Physical sciences ,Instrumentation and Detectors (physics.ins-det) ,Computer Science Applications ,Education - Abstract
One of the main challenges in Environmental sciences is the identification and chemical evolution of polluting traces (e.g, cadmium or antimony) in soil, which requires long acquistion times for accurate measurements at synchrotron facilities. In this context, the potential of a new generation multi-element germanium detectors to identify traces at 0.1-1~ppm in a reasonable time has been studied using Allpix Squared framework. This code has been customized to include the three dimensional electric and weighting field maps generated by COMSOL Multiphysics software, and several features to model the sample environment at SOLEIL synchrotron and the signal response of a germanium detector equipped with a Digital Pulse Processor (DPP). The full simulation chain has been validated by experimental data from SAMBA beamline of SOLEIL synchrotron. This work presents a first estimation of the detection limit to cadmium traces in a soil sample for a future multi-element germanium detector, using this simulation chain., Comment: Proceedings of the "14th International Conference on Synchrotron Radiation Instrumentation" (SRI2021), 28 March - 1 April 2022, Hamburg, Germany
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- 2022
- Full Text
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41. Micromegas for dark matter searches: CAST/IAXO & TREX-DM experiments
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Garza J. G., Aune S., Aznar F., Castel J. F., Cebrián S., Dafni T., Ferrer-Ribas E., Galán J., García J. A., Giomataris I., Iguaz F.J., Irastorza I.G., Luzón G., Mirallas H., Papaevangelou T., Peiró A., Tomás A., and Vafeiadis T.
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Physics ,QC1-999 - Abstract
The most compelling candidates for Dark Matter to day are WIMPs and axions. The applicability of gasesous Time Projection Chambers (TPCs) with Micromesh Gas Structures (Micromegas) to the search of these particles is explored within this work. Both particles would produce an extremely low rate at very low energies in particle detectors. Micromegas detectors can provide both low background rates and low energy threshold, due to the high granularity, radiopurity and uniformity of the readout. Small (few cm wide) Micromegas detectors are used to image the axion-induced x-ray signal expected in the CERN Axion Solar Telescope (CAST) experiment. We show the background levels obtained in CAST and the prospects to further reduce them to the values required by the Internation Axion Observatory (IAXO). We also present TREX-DM, a scaled-up version of the Micromegas used in axion research, but this time dedicated to the low-mass WIMP detection. TREX-DM is a high-pressure Micromegas-based TPC designed to host a few hundreds of grams of light nuclei (argon or neon) with energy thresholds potentially at the level of 100 eV. The detector is described in detail, as well as the results of the commissioning and characterization phase on surface. Besides, the background model of TREX-DM is presented, along with the anticipated sensitivity of this search, which could go beyond current experimental limits.
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- 2018
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42. Radiopurity of micromegas readout planes
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Cebrián, S., Dafni, T., Ferrer-Ribas, E., Galán, J., Giomataris, I., Gómez, H., Iguaz, F.J., Irastorza, I.G., Luzón, G., de Oliveira, R., Rodríguez, A., Seguí, L., Tomás, A., and Villar, J.A.
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- 2011
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43. New micromegas for axion searches in CAST
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Dafni, T., Aune, S., Fanourakis, G., Ferrer-Ribas, E., Galán, J., Gardikiotis, A., Geralis, T., Giomataris, I., Gómez, H., Iguaz, F.J., Irastorza, I.G., Luzón, G., Morales, J., Papaevangelou, T., Rodríguez, A., Ruz, J., Tomás, A., Vafeiadis, T., and Yildiz, S.C.
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- 2011
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44. Spectral modeling of scintillator for the NEMO-3 and SuperNEMO detectors
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Argyriades, J., Arnold, R., Augier, C., Baker, J., Barabash, A.S., Bongrand, M., Broudin-Bay, G., Brudanin, V.B., Caffrey, A.J., Cebrián, S., Chapon, A., Chauveau, E., Dafni, Th., Daraktchieva, Z., Díaz, J., Durand, D., Egorov, V.G., Evans, J.J., Fatemi-Ghomi, N., Flack, R., Basharina-Freshville, A., Fushimi, K.-I., Garrido, X., Gómez, H., Guillon, B., Holin, A., Holý, K., Horkley, J.J., Hubert, Ph., Hugon, C., Iguaz, F.J., Irastorza, I.G., Ishihara, N., Jackson, C.M., Jullian, S., Kanamaru, S., Kauer, M., Kochetov, O.I., Konovalov, S.I., Kovalenko, V.E., Lalanne, D., Lang, K., Lemière, Y., Lutter, G., Luzón, G., Mamedov, F., Marquet, Ch., Martin-Albo, J., Mauger, F., Monrabal, F., Nachab, A., Nasteva, I., Nemchenok, I.B., Nguyen, C.H., Nova, F., Novella, P., Ohsumi, H., Pahlka, R.B., Perrot, F., Piquemal, F., Povinec, P.P., Richards, B., Ricol, J.S., Riddle, C.L., Rodriguez, A., Saakyan, R., Sarazin, X., Sedgbeer, J.K., Serra, L., Simard, L., Šimkovic, F., Shitov, Yu.A., Smolnikov, A.A., Söldner-Rembold, S., Štekl, I., Sugaya, Y., Sutton, C.S., Szklarz, G., Tamagawa, Y., Thomas, J., Thompson, R., Timkin, V.V., Tretyak, V.I., Tretyak, Vl.I., Umatov, V.I., Vála, L., Vanyushin, I.A., Vasiliev, R., Vorobel, V., Vylov, Ts., Waters, D., Yahlali, N., and Žukauskas, A.
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- 2011
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45. Allpix squared simulations of multi-element germanium detectors for synchrotron applications
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Saleem, T., primary, Iguaz, F.J., additional, and Orsini, F., additional
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- 2022
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46. Results of the BiPo-1 prototype for radiopurity measurements for the SuperNEMO double beta decay source foils
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Argyriades, J., Arnold, R., Augier, C., Baker, J., Barabash, A.S., Basharina-Freshville, A., Bongrand, M., Bourgeois, C., Breton, D., Brière, M., Broudin-Bay, G., Brudanin, V.B., Caffrey, A.J., Carcel, S., Cebrián, S., Chapon, A., Chauveau, E., Dafni, Th., Díaz, J., Durand, D., Egorov, V.G., Evans, J.J., Flack, R., Fushima, K.-I., Irastorza, I.G., Garrido, X., Gómez, H., Guillon, B., Holin, A., Hommet, J., Holy, K., Horkey, J.J., Hubert, P., Hugon, C., Iguaz, F.J., Ishihara, N., Jackson, C.M., Jenzer, S., Jullian, S., Kauer, M., Kochetov, O.I., Konovalov, S.I., Kovalenko, V., Lamhamdi, T., Lang, K., Lemière, Y., Lutter, G., Luzón, G., Mamedov, F., Marquet, Ch., Mauger, F., Monrabal, F., Nachab, A., Nasteva, I., Nemchenok, I.B., Nguyen, C.H., Nomachi, M., Nova, F., Ohsumi, H., Pahlka, R.B., Perrot, F., Piquemal, F., Povinec, P.P., Richards, B., Ricol, J.S., Riddle, C.L., Rodríguez, A., Saakyan, R., Sarazin, X., Sedgbeer, J.K., Serra, L., Shitov, Yu.A., Simard, L., Šimkovic, F., Söldner-Rembold, S., Štekl, I., Sutton, C.S., Tamagawa, Y., Szklarz, G., Thomas, J., Thompson, R., Timkin, V., Tretyak, V., Tretyak, Vl.I., Umatov, V.I., Vála, L., Vanyushin, I.A., Vasiliev, R., Vasiliev, V.A., Vorobel, V., Waters, D., Yahlali, N., and Žukauskas, A.
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- 2010
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47. Precise timing with the PICOSEC-Micromegas detector
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Sampsonidis, D., Bortfeldt, J., Brunbauer, Florian M., David, C., Desforge, D., Fanourakis, G., Franchi, J., Gallinaro, M., Garcia, F., Giomataris, I., Gustavsson, T., Guyot, C., Iguaz, F.J., Kebbiri, M., Kordas, K., Lampoudis, C., Legou, P., Liu, Jian, Lupberger, Michael, Maillard, O., Maniatis, V., Manthos, I., Muller, H., Oliveri, E., Papaevangelou, T., Paraschou, K., Pomorski, M., Resnati, F., Ropelewski, Leszek, Schneider, T., Schwemling, P., Scorsone, E., Sohl, L., van Stenis, M., Thuiner, Patrik, Tsipolitis, Y., Tzamarias, S.E., Veenhof, Rob, Wang, Xin, White, S., Zhang, Z., Zhou, Y., Institut de Recherches sur les lois Fondamentales de l'Univers (IRFU), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay, Laboratoire Interactions, Dynamiques et Lasers (ex SPAM) (LIDyl), Université Paris-Saclay-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Centre National de la Recherche Scientifique (CNRS), Laboratoire d'Intégration des Systèmes et des Technologies (LIST), Direction de Recherche Technologique (CEA) (DRT (CEA)), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS), Laboratoire d'Intégration des Systèmes et des Technologies (LIST (CEA)), and Helsinki Institute of Physics
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Physics::Instrumentation and Detectors ,High Energy Physics::Experiment ,[PHYS.PHYS.PHYS-INS-DET]Physics [physics]/Physics [physics]/Instrumentation and Detectors [physics.ins-det] ,Detectors and Experimental Techniques ,114 Physical sciences - Abstract
International audience; This work presents the concept of the PICOSEC-Micromegas detector to achieve a time resolution below 30 ps. PICOSEC consists of a two-stage Micromegas detector coupled to a Cherenkov radiator and equipped with a photocathode. The results from single-channel prototypes as well as the understanding of the detector in terms of detailed simulations and preliminary results from a multichannel prototype are presented.
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- 2020
48. A pulsed compact low-background X-ray generator
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Giomataris, I., primary, Belloni, F., additional, Iguaz, F.J., additional, Mols, J.P., additional, Papaevangelou, T., additional, and Segui, L., additional
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- 2020
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49. Single photoelectron time resolution studies of the PICOSEC-Micromegas detector
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Sohl, L., primary, Aune, S., additional, Bortfeldt, J., additional, Brunbauer, F., additional, David, C., additional, Desforge, D., additional, Fanourakis, G., additional, Gallinaro, M., additional, García, F., additional, Giomataris, I., additional, Gustavsson, T., additional, Guyot, C., additional, Iguaz, F.J., additional, Kebbiri, M., additional, Kordas, K., additional, Legou, P., additional, Liu, J., additional, Lupberger, M., additional, Manthos, I., additional, Müller, H., additional, Niaouris, V., additional, Oliveri, E., additional, Papaevangelou, T., additional, Paraschou, K., additional, Pomorski, M., additional, Resnati, F., additional, Ropelewski, L., additional, Sampsonidis, D., additional, Schneider, T., additional, Schwemling, P., additional, Scorsone, E., additional, Stenis, M. van, additional, Thuiner, P., additional, Tsipolitis, Y., additional, Tzamarias, S.E., additional, Veenhof, R., additional, Wang, X., additional, White, S., additional, Zhang, Z., additional, and Zhou, Y., additional
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- 2020
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50. Summary and Conclusions of the 'JRA Beam Telescope 2025'-Forum at the 6th Beam Telescopes and Test Beams Workshop
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Dreyling-Eschweiler , J., Jansen , H., Amjad , M.S., Arling , J.-H., Coates , T., Dätwyler , A., Dannheim , D., van Dijk , M.W., Eichhorn , T., Gerbershagen , A., Girard , O., Gkotse , B., Iguaz , F.J., Kroll , J., Ravotti , F., Rossi , E., Rummler , A., Salvatore , F., Spannagel , S., Weers , M., Weingarten , J., Institut de Recherches sur les lois Fondamentales de l'Univers ( IRFU ), and Commissariat à l'énergie atomique et aux énergies alternatives ( CEA ) -Université Paris-Saclay
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detector ,data acquisition ,[ PHYS.HEXP ] Physics [physics]/High Energy Physics - Experiment [hep-ex] ,hardware ,DESY Lab ,[ PHYS.PHYS.PHYS-INS-DET ] Physics [physics]/Physics [physics]/Instrumentation and Detectors [physics.ins-det] ,activity report ,performance - Abstract
On January 17th 2018, a forum on a possible Joint Research Activity on a future common Beam Telescope was held during the 6th Beam Telescopes and Test Beams Workshop (BTTB) in Zurich, Switzerland. The BTTB workshop aims at bringing together the community involved in beam tests. It therefore offers a suitable platform to induce community-wide discussions. The forum and its discussions were well received and the participants concluded that appropriate actions should be undertaken promptly. Specific hardware and software proposals were discussed, with an emphasis on improving current common EUDET-type telescopes based on Mimosa26 sensors towards higher trigger rate capabilities in convolution with considerably improved time resolution. EUDAQ as a common top level DAQ and its modular structure is ready for future hardware. EUTelescope fulfils many requirements of a common reconstruction framework, but has also various drawbacks. Thus, requirements for a new common reconstruction framework were collected. A new common beam telescope evolves with the sensor decision and the whole package including a reconstruction framework depends on that decision.
- Published
- 2018
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