Your search keyword '"Clozza A"' showing total 991 results

1. Kaonic atoms with SIDDHARTA-2 at the DAΦNE collider

Author

Sirghi F., Abbene L., Bazzi M., Bosnar D., Bragadireanu M., Buttacavoli A., Cargnelli M., Carminati M., Clozza A., Deda G., Del Grande R., Dulski K., De Paolis L., Fabbietti L., Fiorini C., Friščić I., Guaraldo C., Iliescu M., Iwasaki M., Khreptak A., Manti S., Marton J., Miliucci M., Moskal P., Napolitano F., Sgaramella F., Niedźwiecki S., Ohnishi H., Piscicchia K., Sada Y., Scordo A., Silarski M., Sirghi D., Skurzok M., Spallone A., Toho K., Tüchler M., Yoshida C., Zmeska J., and Curceanu C.

Subjects

Physics, QC1-999

Abstract

The most important information still missing in the field of the low-energy antikaon-nucleon inter actions studies is the experimental determination of the hadronic energy shift and width of kaonic deuterium. This measurement will be performed by the SIDDHARTA-2 experiment, installed at the DAΦNE collider and presently in data taking campaign. The precise measurement of the shift and width of the 1s level with respect to the purely electromagnetic calculated values, generated by the presence of the strong interaction, through the measurement of the X-ray transitions to this level, in kaonic hydrogen, was performed by the SIDDHARTA collaboration, the kaonic deuterium is underway by SIDDHARTA-2. These measurement will allow the first precise experimental extraction of the isospin dependent antikaon-nucleon scattering lengths, funda mental quantities for understanding low-energy QCD in the strangeness sector. The experimental challenge of the kaonic deuterium measurement is the very small X-rays yield, the even larger width (compared to kaonic hy drogen), and the difficulty to perform X-rays spectroscopy with weak signals in the high radiation environment of DAΦNE. It was, therefore, crucial to develop a new apparatus involving large-area X-rays detector system, to optimize the signal and to control and by improve the signal-to-background ratio by gaining in solid angle, increasing the timing capability, and as well implementing additional charge particle tracking veto systems.

Published

2024

2. The measurement of the E2 nuclear resonance effects in kaonic atoms at DAΦNE: The KAMEO proposal

Author

De Paolis L., Abbene L., Bazzi M., Bettelli M., Borghi G., Bosnar D., Bragadireanu M., Buttacavoli A., Cargnelli M., Carminati M., Clozza A., Deda G., Del Grande R., Dulski K., Fiorini C., Friščić I., Guaraldo C., Iliescu M., Iwasaki M., Khreptak A., Manti S., Marton J., Miliucci M., Moskal P., Napolitano F., Niedzwiecki S., Obertova J., Ohnishi O., Piscicchia K., Principato F., Sada Y., Scordo A., Sgaramella F., Silarski M., Sirghi D.L., Sirghi F., Skurzok M., Wycech S., Spallone A., Toho K., Tüchler M., Yoshida C., Zappettini A., Zmeskal J., and Curceanu C.

Subjects

Physics, QC1-999

Abstract

KAMEO (Kaonic Atoms Measuring Nuclear Resonance Effects Ob-servables) is a proposal for an experiment aiming to perform the first consistent measurement of the E2 nuclear resonance effects in kaonic molybdenum A=94,96,98,100 isotopes. The E2 nuclear resonance mixes atomic states, due to the electrical quadrupole excitation of nuclear rotational states. It occurs in atoms having the energy of a nuclear excitation state closely matching an atomic de-excitation state energy, and affects the rates of X-ray atomic transitions matching the energy of the resonance. The measurement E2 nuclear resonance effect in KMO isotopes allows the study of the strong kaon-nucleus interaction in a rotational excited nuclear state. Moreover, the effect enables the K- to access an inner atomic level not easily reachable by the kaon normal cascade, due to the nuclear absorption. The KAMEO proposed apparatus consists of 4 enriched Mo A=94,96,98,100 isotope strips, exposed to the kaons produced by the DAφNE collider, for kaonic atoms formation, with a high-purity germanium detector, cooled with liquid nitrogen, used to measure the X-ray atomic transitions. The DAφNE collider is located at the National Laboratories of Frascati (LNF-INFN), in Italy. It is already suited for kaonic atoms measurement by the SIDDHARTA-2 collaboration.

Published

2024

3. Intermediate Mass Kaonic Atoms at DA$\Phi$NE

Author

Artibani, Francesco, Clozza, Francesco, Bazzi, Massimiliano, Capoccia, Cesidio, Clozza, Alberto, De Paolis, Luca, Dulski, Kamil, Guaraldo, Carlo, Iliescu, Mihai, Khreptak, Aleksander, Manti, Simone, Napolitano, Fabrizio, Doce, Oton Vazquez, Scordo, Alessandro, Sgaramella, Francesco, Sirghi, Florin, Spallone, Antonio, Cargnelli, Michael, Marton, Johann, Tuchler, Marlene, Zmeskal, Johannes, Bosnar, Damir, Friscic, Ivica, Bragadireanu, Mario, Borghi, Giacomo, Carminati, Marco, Deda, Griseld, Fiorini, Carlo, Del Grande, Raffaele, Iwasaki, Masahiko, Moskal, Pawel, Niedzwiecki, Szymon, Silarski, Michal, Skurzok, Magdalena, Ohnishi, Hiroaki, Toho, Kairo, Sirghi, Diana, Pischicchia, Kristian, and Curceanu, Catalina

Subjects

Nuclear Experiment

Abstract

The SIDDHARTA-2 collaboration aims to measure for the first time the shift and width induced on the $1s$ level of kaonic deuterium by the strong interaction. In the preliminary phase to the experiment, a test run using a Helium-4 target was performed to optimize the performance of the full experimental apparatus. This preliminary study highlighted the possibility to measure transition lines coming from intermediate mass kaonic atoms, such as kaonic carbon and kaonic aluminum. In order to measure transitions where strong interaction is manifesting at higher energies, out of the energy range of the SIDDHARTA-2 apparatus, the collaboration is testing a new detector system which exploits a novel compound semiconductor, the Cadmium Zinc Telluride. Tests are now running at DA$\Phi$NE to study the performance of this detector, exploring the possibility to build a dedicated setup., Comment: 10 pages, 3 figures, eQCD conference

Published

2024

4. First Linearity and Stability Characterization for CZT Detection System in a e$^+$e$^-$ Collider Environment

Author

Abbene, Leonardo, Artibani, Francesco, Bettelli, Manuele, Buttacavoli, Antonino, Principato, Fabio, Zappettini, Andrea, Bazzi, Massimiliano, Borghi, Giacomo, Bragadireanu, Mario, Cargnelli, Michael, Carminati, Marco, Clozza, Alberto, Clozza, Francesco, De Paolis, Luca, Del Grande, Raffaele, Dulski, Kamil, Fabbietti, Laura, Fiorini, Carlo, Guaraldo, Carlo, Iliescu, Mihail, Iwasaki, Masahiko, Khreptak, Aleksander, Manti, Simone, Marton, Johann, Moskal, Pawel, Napolitano, Fabrizio, Niedźwiecki, Szymon, Ohnishi, Hiroaki, Piscicchia, Kristian, Sada, Yuta, Sgaramella, Francesco, Sirghi, Diana Laura, Sirghi, Florin, Skurzok, Magdalena, Silarski, Michal, Spallone, Antonio, Toho, Kairo, Toscano, Lorenzo, Tüchler, Marlene, Doce, Oton Vasquez, Zmeskal, Johann, Curceanu, Catalina, and Scordo, Alessandro

Subjects

Physics - Instrumentation and Detectors

Abstract

The SIDDHARTA-2 collaboration built a new cadmium-zinc-telluride (CZT, CdZnTe)-based X-ray detection system, used for the first time in the DA$\Phi$NE electron-positron collider at INFN-LNF. The aim of this work is to show that these detectors present optimal long- and short-term linearity and stability to perform precise spectroscopic measurements in a collider environment. The spectra used as references for calibration are reported, and the results about the linearity and stability studies are presented. It is also discussed and showed what is the proper function to describe all the effects that alter the Gaussian shape in semiconductors, particularly evident in the CZT case. Good residuals and resolutions were obtained for all the calibrations. In a test run with the source and the collider beam on, it was demonstrated that the calibrations made with beam off are optimal also when the beam is on, and the actual systematics in a physics run were estimated. These promising results show the potentialities of this detector in the high rate environment of a particle collider, and pave the way for the use of CZT detectors in kaonic atoms researches and in accelerators, with applications for particle and nuclear physics., Comment: 15 pages, 9 figures, 3 tables

Published

2024

5. Charge identification of fragments with the emulsion spectrometer of the FOOT experiment

Author

Galati Giuliana, Alexandrov Andrey, Alpat Behcet, Ambrosi Giovanni, Argirò Stefano, Diaz Raul Arteche, Bartosik Nazar, Battistoni Giuseppe, Belcari Nicola, Bellinzona Elettra, Biondi Silvia, Bisogni Maria Giuseppina, Bruni Graziano, Carra Pietro, Cerello Piergiorgio, Ciarrocchi Esther, Clozza Alberto, Colombi Sofia, Guerra Alberto Del, De Simoni Micol, Di Crescenzo Antonia, Di Ruzza Benedetto, Donetti Marco, Dong Yunsheng, Durante Marco, Faccini Riccardo, Ferrero Veronica, Fiandrini Emanuele, Finck Christian, Fiorina Elisa, Fischetti Marta, Francesconi Marco, Franchini Matteo, Franciosini Gaia, Galli Luca, Gentile Valerio, Giraudo Giuseppe, Hetzel Ronja, Iarocci Enzo, Ionica Maria, Iuliano Antonio, Kanxheri Keida, Kraan Aafke Christine, Lante Valeria, La Tessa Chiara, Laurenza Martina, Lauria Adele, Torres Ernesto Lopez, Marafini Michela, Massimi Cristian, Mattei Ilaria, Mengarelli Alberto, Moggi Andrea, Montesi Maria Cristina, Morone Maria Cristina, Morrocchi Matteo, Muraro Silvia, Murtas Federica, Pastore Alessandra, Pastrone Nadia, Patera Vincenzo, Pennazio Francesco, Placidi Pisana, Pullia Marco, Raffaelli Fabrizio, Ramello Luciano, Ridolfi Riccardo, Rosso Valeria, Sanelli Claudio, Sarti Alessio, Sartorelli Gabriella, Sato Osamu, Savazzi Simone, Scavarda Lorenzo, Schiavi Angelo, Schuy Christoph, Scifoni Emanuele, Sciubba Adalberto, Sécher Alexandre, Selvi Marco, Servoli Leonello, Silvestre Gianluigi, Sitta Mario, Spighi Roberto, Spiriti Eleuterio, Sportelli Giancarlo, Stahl Achim, Tioukov Valeri, Tomassini Sandro, Tommasino Francesco, Toppi Marco, Traini Giacomo, Valle Serena Marta, Vanstalle Marie, Villa Mauro, Weber Ulrich, Zarrella Roberto, Zoccoli Antonio, and De Lellis Giovanni

Subjects

particle therapy, nuclear emulsion, fragmentation, Physics, QC1-999

Abstract

The FOOT (FragmentatiOn Of Target) experiment is an international project designed to carry out the fragmentation cross-sectional measurements relevant for charged particle therapy (CPT), a technique based on the use of charged particle beams for the treatment of deep-seated tumors. The FOOT detector consists of an electronic setup for the identification of Z≥3Z\ge 3 fragments and an emulsion spectrometer for Z≤3Z\le 3 fragments. The first data taking was performed in 2019 at the GSI facility (Darmstadt, Germany). In this study, the charge identification of fragments induced by exposing an emulsion detector, embedding a C2H4{{\rm{C}}}_{2}{{\rm{H}}}_{4} target, to an oxygen ion beam of 200 MeV/n is discussed. The charge identification is based on the controlled fading of nuclear emulsions in order to extend their dynamic range in the ionization response.

Published

2021

6. Search for Pauli Exclusion Principle Violations with Gator at LNGS

Author

Baudis, L., Biondi, R., Bismark, A., Clozza, A., Curceanu, C., Galloway, M., Napolitano, F., Piastra, F., Piscicchia, K., Porcelli, A., and García, D. Ramírez

Subjects

Nuclear Experiment, Quantum Physics

Abstract

The Pauli Exclusion Principle (PEP) appears from fundamental symmetries in quantum field theories, but its physical origin is still to be understood. High-precision experimental searches for small PEP violations permit testing key assumptions of the Standard Model with high sensitivity. We report on a dedicated measurement with Gator, a low-background, high-purity germanium detector operated at the Laboratori Nazionali del Gran Sasso, aimed at testing PEP-violating atomic transitions in lead. The experimental technique, relying on forming a new symmetry state by introducing electrons into the pre-existing electron system through a direct current, satisfies the conditions of the Messiah-Greenberg superselection rule. No PEP violation has been observed, and an upper limit on the PEP violation probability of $\beta^2/2 < 4.8 \cdot 10^{-29}$ (90% CL) is set. This improves the previous constraint from a comparable measurement by more than one order of magnitude.

Published

2024

7. Kaonic lead feasibility measurement at DA{\Phi}NE to solve the charged kaon mass discrepancy

Author

Bosnar, D., Abbene, L., Amsler, C., Artibani, F., Bazzi, M., Bragadireanu, M., Buttacavoli, A., Cargnelli, M., Carminati, M., Clozza, A., Clozza, F., Deda, G., De Paolis, L., Del Grande, R., Dulski, K., Fabbietti, L., Fiorini, C., Friščić, I., Guaraldo, C., Iliescu, M., Iwasaki, M., Khreptak, A., Makek, M., Manti, S., Marton, J., Moskal, P., Napolitano, F., Niedźwiecki, S., Ohnishi, H., Piscicchia, K., Scordo, A., Sgaramella, F., Sirghi, D., Sirghi, F., Skurzok, M., Silarski, M., Spallone, A., Toho, K., Tüchler, M., Doce, O. Vasquez, Zmeskal, J., and Curceanu, C.

Subjects

Physics - Instrumentation and Detectors, Nuclear Experiment

Abstract

An HPGe detector equipped with a transistor reset preamplifier and readout with a CAEN DT5781 fast pulse digitizer was employed in the measurement of X-rays from kaonic lead at the DA$\Phi$NE $e^+e^-$ collider at the Laboratori Nazionali di Frascati of INFN. A thin scintillator in front of a lead target was used to select kaons impinging on it and to form the trigger for the HPGe detector. We present the results of the kaonic lead feasibility measurement, where we show that the resolution of the HPGe detector in regular beam conditions remains the same as that without the beam and that a satisfactory background reduction can be achieved. This measurement serves as a test bed for future dedicated kaonic X-rays measurements for the more precise determination of the charged kaon mass., Comment: 14 pages, 7 figures

Published

2024

8. Investigating the E2 Nuclear Resonance Effects in Kaonic Atoms: The KAMEO Proposal

Author

De Paolis L., Bosnar D., Bragadireanu M., Cargnelli M., Carminati M., Clozza A., Deda G., Del Grande R., Dulski K., Fiorini C., Friščić I., Guaraldo C., Iliescu M., Iwasaki M., Khreptak A., Manti S., Marton J., Miliucci M., Moskal P., Napolitano F., Niedźwiecki S., Ohnishi O., Piscicchia K., Sada Y., Scordo A., Sgaramella F., Silarski M., Sirghi D.L., Sirghi F., Skurzok M., Wycech S., Spallone A., Toho K., Tüchler M., Yoshida C., Zmeskal J., and Curceanu C.

Subjects

Physics, QC1-999

Abstract

The E2 nuclear resonance effect in kaonic atoms occurs when the energy of atomic de-excitation closely matches the energy of nuclear excitation, leading to the attenuation of some X-ray lines in the resonant isotope target. This phenomenon provides crucial information on the strong interaction between kaons and nuclei. The only nuclear E2 resonance effect observed so far was in the K− −9842Mo isotope, measured by G. L. Goldfrey, G-K. Lum, and C. E. Wiegand at Lawrence Berkeley Laboratory in 1975. However, the 25 hours of data taking were not sufficient to yield conclusive results. In four kaonic Molybdenum isotopes (9442Mo, 9642Mo, 9842and Mo, and 10042Mo), the nuclear E2 resonance effect is expected to occur at the same transition with similar energy values. To investigate this, the KAMEO (Kaonic Atoms Measuring Nuclear Resonance Effects Observables) experiment plans to conduct research on kaonic Molybdenum isotopes at the DAΦNE e+e− collider during the SIDDHARTA-2 experiment. The experimental strategy involves exposing four solid strip targets, each enriched with one Molybdenum isotope, to negatively charged kaons and using a germanium detector to measure X-ray transitions. In addition, a non-resonant 9242Mo isotope solid strip target will be used as a reference for standard non-resonant transitions.

Published

2023

9. SIDDHARTA-2 veto system design and performance for kaonic atoms studies at DAΦNE

Author

Sgaramella F., Bazzi M., Bosnar D., Bragadireanu M., Cargnelli M., Carminati M., Clozza A., Deda G., Del Grande R., Dulski K., De Paolis L., Fabbietti L., Fiorini C., Friščić I., Guaraldo C., Iliescu M., Iwasaki M., Khreptak A., Manti S., Marton J., Miliucci M., Moskal P., Napolitano F., Niedźwiecki S., Ohnishi H., Piscicchia K., Sada Y., Scordo A., Silarski M., Sirghi D., Sirghi F., Skurzok M., Spallone A., Toho K., Tüchler M., Yoshida C., Zmeskal J., and Curceanu C.

Subjects

Physics, QC1-999

Abstract

Light kaonic atoms spectroscopy provides a unique approach to study the low-energy strong interaction in the strangeness sector. Precise measurements of X-ray emission from light kaonic atoms provide valuable information on kaon-nucleus interaction at threshold without the need for extrapolation as required in scattering experiments. The SIDDHARTA-2 experiment at the DAΦNE collider of INFN-LNF is now poised to perform the challenging measurements of the K−- d 2p → 1s transition to extract the isospin-dependent antikaonnucleon scattering lengths. To achieve this goal, the background reduction is a crucial factor. This paper provides an overview of the SIDDHARTA-2 Veto-1 system, which uses scintillators outside the vacuum chamber to detect charged particles produced by K− absorption by the nucleus. The arrival time of these particles is correlated with the position where the kaonic atom has been created inside the setup, allowing for the rejection of kaons stopped outside the target cell, which is a critical component for reducing the background and improve the accuracy of the measurement.

Published

2023

10. Studies of low-energy K−-nucleus/nuclei interactions with light nuclei by AMADEUS

Author

Skurzok Magdalena, Bazzi Massimiliano, Bragadireanu Mario, Bosnar Damir, Cargnelli Michael, Clozza Alberto, De Paolis Luca, Del Grande Raffaele, Fabbietti Laura, Guaraldo Carlo, Iliescu Mihai, Levi Sandri Paolo, Marton Johann, Miliucci Marco, Moskal Paweł, Piscicchia Kristian, Ramos Angels, Scordo Alessandro, Silarski Michał, Sirghi Diana Laura, Sirghi Florin, Spallone Antonio, Vazquez Doce Oton, Wycech Sławomir, Zmeskal Johann, and Curceanu Catalina

Subjects

Physics, QC1-999

Abstract

The AMADEUS Collaboration aims to provide unique experimental constraints to the antikaon-nucleon strong interaction in the regime of nonperturbative QCD. The K− nuclear captures, both at-rest and in-flight, are studied using the monochromatic low-momentum kaon beam (pK ∼ 120 MeV/c) produced at the DAΦNE collider, interacting with the KLOE detector materials. The studies are performed by reconstructing the hyperon-pion and hyperonnucleon final states. In this work a brief description of AMADEUS results for Λπ− and Λp final states is presented.

Published

2023

11. Ion charge separation with new generation of nuclear emulsion films

Author

Montesi M.C., Lauria A., Alexandrov A., Solestizi L. Alunni, Giovanni Ambrosi, Argirò S., Diaz R. Arteche, Bartosik N., Battistoni G., Belcari N., Bellinzona E., Bianucci S., Biondi S., Bisogni M.G., Bruni G., Camarlinghi N., Carra P., Cerello P., Ciarrocchi E., Clozza A., Colombi S., Guerra A. Del, Simoni M. De, Crescenzo A. Di, Donetti M., Dong Y., Durante M., Embriaco A., Emde M., Faccini R., Ferrero V., Ferroni F., Fiandrini E., Finck C., Fiorina E., Fischetti M., Francesconi M., Franchini M., Galati G., Galli L., Garbini M., Gentile V., Giraudo G., Hetzel R., Iarocci E., Ionica M., Kanxheri K., Kraan A. C., Lante V., Tessa C. La, Torres E. Lopez, Marafini M., Mattei I., Mengarelli A., Mirabelli R., Moggi A., Morone M.C., Morrocchi M., Muraro S., Narici L., Pastore A., Pastrone N., Patera V., Pennazio F., Placidi P., Pullia M., Raffaelli F., Ramello L., Ridolfi R., Rosso V., Rovituso M., Sanelli C., Sarti A., Sartorelli G., Sato O., Savazzi S., Scavarda L., Schiavi A., Schuy C., Scifoni E., Sciubba A., Sécher A., Selvi M., Servoli L., Silvestre G., Sitta M., Spighi R., Spiriti E., Sportelli G., Stahl A., Tioukov V., Tomassini S., Tommasino F., Traini G., Valle S.M., Vanstalle M., Villa M., Weber U., Zoccoli A., and Lellis G. De

Subjects

charge identification, nuclear emulsions, charged particles therapy, 29.40.rg, 42.62.be, Physics, QC1-999

Abstract

In hadron therapy, the accelerated ions, interacting with the body of the patient, cause the fragmentation of both projectile and target nuclei. The fragments interact with the human tissues depositing energy both in the entrance channel and in the volume surrounding the tumor. The knowledge of the fragments features is crucial to determine the energy amount deposited in the human body, and - hence - the damage to the organs and to the tissues around the tumor target.

Published

2019

12. Trigger rejection factor in the first kaonic helium run with the complete SIDDHARTA-2 setup

Author

De Paolis L., Bazzi M., Bosnar D., Bragadireanu M., Cargnelli M., Carminati M., Clozza A., Deda G., Del Grande R., Fabbietti L., Fiorini C., Friščić I., Guaraldo C., Iliescu M., Iwasaki M., Khreptak A., King P., Sandri P. Levi, Manti S., Marton J., Miliucci M., Moskal P., Napolitano F., Niedźwiecki S., Ohnishi H., Piscicchia K., Sada Y., Scordo A., Sgaramella F., Shi H., Silarski M., Sirghi D.L., Sirghi F., Skurzok M., Spallone A., Toho K., Tüchler M., Doce O. Vazquez, Yoshida C., Zmeskal J., and Curceanu C.

Subjects

Physics, QC1-999

Abstract

The SIDDHARTA-2 experiment aims to perform the first measurement of the kaonic deuterium 2p → 1s x-ray transition energy. Such measurement, together with the measurement of kaonic hydrogen 2p → 1s x-ray energy transition performed by the SIDDHARTA experiment in 2011, allows the determination of kaon proton and kaon neutron scattering lengths and represents a fundamental input for the low energies QCD in the strangeness sector theory. The SIDDHARTA-2 experiment is presently installed at the DAΦNE electronpositron collider at the National Laboratories of Frascati, in Italy. In May 2022, the kaonic 4He x-ray transitions measurement was performed by the complete SIDDHARTA-2 setup, by using a gaseous target. The result of this measurement is presented in this paper, with a specific focus on the background rejection performed by the kaon trigger system.

Published

2022

13. Comparison of 3ΛH/4ΛH production cross-section via (K−, π0) reaction at J-PARC

Author

Akaishi Takaya, Asano Hidemitsu, Chen Xurong, Clozza Alberto, Curceanu Catalina, Del Grande Raffaele, Guaraldo Carlo, Han Chengdong, Hashimoto Tadashi, Iliescu Mihai, Inoue Kentaro, Ishimoto Shigeru, Itahashi Kenta, Iwasaki Masahiko, Ma Yue, Murayama Rie, Miliucci Marco, Noumi Hiroyuki, Ohnishi Hiroyuki, Okada Shinji, Outa Haruhiko, Piscicchia Kristian, Sada Yuta, Sakaguchi Atsushi, Sakuma Fuminori, Sato Masaharu, Scordo Alessandro, Sirghi Diana, Sirghi Florin, Shirotori Kotaro, Suzuki Shoji, Tanida Kiyoshi, Toda Taiga, Tokuda Megumu, Tsuruta Masato, Yamaga Takumi, Yuan Xiaohua, Zhang Hongqiang, Zhang Pengming, and Zhang Yapeng

Subjects

Physics, QC1-999

Abstract

Recent heavy-ion collision experiments reported a surprisingly short lifetime for the hypertriton, which has been recognized as the hypertriton lifetime puzzle. Our J-PARC E73 experiment contributes to solve this puzzle with an independent experimental method by employing 3He(K−, π0) 3ΛH reaction. In this contribution, we will demonstrate our capability to provide 3ΛH binding energy information by deriving the production cross section ratio, σ3ΛH/σ4ΛH. The production cross section data for 3ΛH and 4ΛH are already available as the pilot run of E73 experiment and data analysis is in progress.

Published

2022

14. Summary of the K−pp bound-state observation in E15 and future prospects

Author

Sakuma Fuminori, Ajimura Shuhei, Akaishi Takaya, Asano Hidemitsu, Bazzi Massimiliano, Beer George, Bhang Hyoungchan, Bragadireanu Mario, Buehler Paul, Busso Luigi, Cargnelli Michael, Choi Seonho, Clozza Alberto, Curceanu Catalina, Enomoto Shun, Fujioka Hiroyuki, Fujiwara Yuya, Fukuda Tomokazu, Guaraldo Carlo, Hashimoto Tadashi, Hayano Ryugo S., Hiraiwa Toshihiko, Iio Masami, Iliescu Mihai, Inoue Kentaro, Ishiguro Yosuke, Ishikawa Takashi, Ishimoto Shigeru, Itahashi Kenta, Iwasaki Masahiko, Iwai Masaaki, Kanno Koki, Kato Kazuma, Kato Yuko, Kawasaki Shingo, Kienle Paul, Kou Hiroshi, Ma Yue, Marton Johann, Matsuda Yasuyuki, Miliucci Marco, Mizoi Yutaka, Morra Ombretta, Murayama Rie, Nagae Tomofumi, Noumi Hiroyuki, Ohnishi Hiroaki, Okada Shinji, Outa Haruhiko, Ozawa Kyoichiro, Piscicchia Kristian, Sada Yuta, Sakaguchi Atsushi, Sato Masaharu, Scordo Alessandro, Sekimoto Michiko, Shi Hexi, Shirotori Kotaro, Sirghi Diana, Sirghi Florin, Suzuki Shoji, Suzuki Takatoshi, Tanida Kiyoshi, Tatsuno Hideyuki, Tokuda Makoto, Tomono Dai, Toyoda Akihisa, Tsukada Kyo, Vázquez Doce Oton, Widmann Eberhard, Yamaga Takumi, Yamazaki Toshimitsu, Yoshida Chihiro, Zhang Qi, and Zmeskal Johann

Subjects

Physics, QC1-999

Abstract

The possible existence of deeply-bound $\bar K$K¯-nuclear bound states, kaonic nuclei, has been widely discussed as products of the strongly attractive $\bar K$K¯N interaction in I = 0 channels. Investigations of those exotic states will provide us unique information of the $\bar K$K¯N interaction below the threshold, which is still not fully understood so far. Recently, we observed the simplest kaonic nuclei, $\bar K$K¯NN, having a much deeper binding energy than normal nuclei via inflight (K−, N) reactions at the J-PARC E15 experiment. For further studies, we have proposed a series of experimental programs for the systematic investigation of light kaonic nuclei, from $\bar K$K¯N (Λ(1405)) to $\bar K$K¯NNNN. We will measure the $\bar K$K¯NNN (A = 3) system at the new experiment approved as J-PARC E80, as a first step toward a comprehensive study.

Published

2022

15. Main Features of the SIDDHARTA-2 Apparatus for Kaonic Deuterium X-Ray Measurements

Author

Tüchler Marlene, Sirghi Florin, Bazzi M., Bosnar D., Bragadireanu M., Carminati M., Cargnelli M., Clozza A., Curceanu C., Deda G., Del Grande R., De Paolis L., Fiorini C., Guaraldo C., Iliescu M., Iwasaki M., King P., Levi Sandri P., Marton J., Miliucci M., Moskal P., Napolitano F., Niedzwiecki S., Piscicchia K., Scordo A., Sgaramella F., Shi H., Silarski M., Sirghi D., Skurzok M., Spallone A., Vazquez Doce O., Widmann E., and Zmeskal J.

Subjects

Physics, QC1-999

Abstract

The low-energy, non-perturbative regime of QCD can be studied directly by X-ray spectroscopy of light kaonic atoms. The SIDDHARTA-2 experiment, located at the DAΦNE collider, aims to measure the 2p → 1s transition in kaonic deuterium for the first time to extract the antikaon-nucleon scattering lengths. This measurement is impeded, inter alia, by the low K−d X-ray yield. Hence, several updates have been implemented on the apparatus to increase the signal-to-background ratio, which are discussed in detail in this paper: a lightweight gas target cell, novel Silicon Drift Detectors for the X-ray detection with excellent performance, and a veto system for active background suppression. The experiment has undergone a first preparatory run during DAΦNE’s commissioning phase in 2021, concluding with a successful kaonic helium measurement.

Published

2022

16. Analysis methods used and planned for VIP-2

Author

Porcelli Alessio, Bartalucci Sergio, Bertolucci Sergio, Bazzi Massimiliano, Bragadireanu Mario, Capoccia Cesidio, Cargnelli Michael, Clozza Alberto, Curceanu Catalina, De Paolis Luca, Del Grande Raffaele, Fiorini Carlo, Guaraldo Carlo, Iliescu Mihai, Laubenstein Matthias, Marton Johann, Miliucci Marco, Milotti Edoardo, Napolitano Fabrizio, Piscicchia Kristian, Scordo Alessandro, Shi Hexi, Sirghi Diana Laura, Sirghi Florin, Sgaramella Francesco, Vazquez Doce Oton, and Zmeskal Johann

Subjects

Physics, QC1-999

Abstract

VIP-2 (VIolation of Pauli exclusion principle - 2) is an underground experiment sited in the underground “Laboratori Nazionali del Gran Sasso.” It aims to investigate possible violations of the Pauli Exclusion Principle (PEP) and, in this context, Quantum Gravity models implying violations of PEP. While an upper limit of PEP violation probability is recently published, the data requires further developments of accurate analysis techniques and methods. In this contribution, we present an overview of the methodologies proposed for current and planned analysis.

Published

2022

17. Kaonic atoms measurements at the DAΦNE collider: the SIDDHARTA-2 experiment

Author

Curceanu Catalina, Miliucci Marco, Bazzi Massimiliano, Bosnar Damir, Bragadireanu Mario, Carminati Marco, Cargnelli Michael, Clozza Alberto, Deda Griseld, De Paolis Luca, Del Grande Raffaele, Fiorini Carlo, Guaraldo Carlo, Iliescu Mihail, Iwasaki Masahiko, King Pietro, Levi Sandri Paolo, Marton Johann, Moskal Paweł, Napolitano Fabrizio, Niedźwiecki Szymon, Piscicchia Kristian, Scordo Alessandro, Sgaramella Francesco, Shi Hexi, Silarski Michał, Sirghi Diana, Sirghi Florin, Skurzok Magdalena, Spallone Antonio, Tüchler Marlene, Vazquez Doce Oton, and Zmeskal Johann

Subjects

Physics, QC1-999

Abstract

The X-ray spectroscopy measurements of light kaonic atoms’ deexcitation towards the fundamental level provide unique information on the low-energy Quantum ChromoDynamics (QCD) in the strangeness sector, being a direct probe of the kaon/nucleon interaction at threshold, unobtainable through the scattering experiments. In this framework, the SIDDHARTA-2 collaboration is going to perform the first kaonic deuterium 2p → 1s transition measurement at the DAΦNE collider of Istituto Nazionale di Fisica Nucleare – Laboratori Nazionali di Frascati. Combining this measurement with the kaonic hydrogen one performed by SIDDHARTA in 2009 it will be possible to obtain, in a model-independent way, the isospin-dependent antikaon-nucleon scattering lengths. The paper introduces the SIDDHARTA-2 setup, an upgraded version with respect to the one used for the kaonic hydrogen measurement, dedicated to the ambitious kaonic deuterium measurement, together with the preliminary results obtained during the kaonic helium run, preparatory for the SIDDHARTA-2 data taking campaign.

Published

2022

18. First measurement of kaonic helium-4 M-series transitions

Author

Sgaramella, F, Sirghi, D, Abbene, L, Artibani, F, Bazzi, M, Bosnar, D, Bragadireanu, M, Buttacavoli, A, Cargnelli, M, Carminati, M, Clozza, A, Clozza, F, Deda, G, Del Grande, R, De Paolis, L, Dulski, K, Fabbietti, L, Fiorini, C, Friscic, I, Guaraldo, C, Iliescu, M, Iwasaki, M, Khreptak, A, Manti, S, Marton, J, Miliucci, M, Moskal, P, Napolitano, F, Niedzwiecki, S, Ohnishi, H, Piscicchia, K, Principato, F, Scordo, A, Silarski, M, Sirghi, F, Skurzok, M, Spallone, A, Toho, K, Tuchler, M, Doce, O Vazquez, Yoshida, C, Zmeskal, J, and Curceanu, C

Subjects

Nuclear Experiment

Abstract

In this paper we present the results of a new kaonic helium-4 measurement with a 1.37 g/l gaseous target by the SIDDHARTA-2 experiment at the DA{\Phi}NE collider. We measured, for the first time, the energies and yields of three transitions belonging to the Mseries. Moreover, we improved by a factor about three, the statistical precision of the 2p level energy shift and width induced by the strong interaction, obtaining the most precise measurement for gaseous kaonic helium, and measured the yield of the L{\alpha} transition at the employed density, providing a new experimental input to investigate the density dependence of kaonic atoms transitions yield., Comment: 12 pages, 5 figures, 3 tables

Published

2023

19. CdZnTe detectors tested at the DA{\Phi}NE collider for future kaonic atoms measurements

Author

Scordo, A., Abbene, L., Artibani, F., Bazzi, M., Bettelli, M., Bosnar, D., Borghi, G., Bragadireanu, M., Buttacavoli, A., Cargnelli, M., Carminati, M., Clozza, A., Clozza, F., De Paolis, L., Deda, G., Del Grande, R., Fabbietti, L., Fiorini, C., Friščić, I., Guaraldo, C., Iliescu, M., Iwasaki, M., Khreptak, A., Manti, S., Marton, J., Moskal, P., Napolitano, F., Niedźwiecki, S., Ohnishi, H., Piscicchia, K., Principato, F., Sada, Y., Sgaramella, F., Shi, H., Silarski, M., Sirghi, D. L., Sirghi, F., Skurzok, M., Spallone, A., Toho, K., Tüchler, M., Yoshida, C., Zappettini, A., Zmeskal, J., and Curceanu, C.

Subjects

Physics - Instrumentation and Detectors, Nuclear Experiment

Abstract

The SIDDHARTA-2 collaboration at the INFN Laboratories of Frascati (LNF) aims to perform groundbreaking measurements on kaonic atoms. In parallel and beyond the ongoing kaonic deuterium, presently running on the DA$\Phi$NE collider at LNF, we plan to install additional detectors to perform further kaonic atoms' studies, taking advantage of the unique low energy and low momentum spread $K^-$ beam delivered by the at-rest decay of the $\phi$ meson. CdZnTe devices are ideal for detecting transitions toward both the upper and lower levels of intermediate-mass kaonic atoms, like kaonic carbon and aluminium, which have an important impact on the strangeness sector of nuclear physics. We present the results obtained in a set of preliminary tests conducted on DA$\Phi$NE, in view of measurements foreseen in 2024, with the twofold aim to tune the timing window required to reject the extremely high electromagnetic background, and to quantify the readout electronics saturation effect due to the high rate, when placed close to the Interaction Region (IR). In the first test we used commercial devices and electronics, while for the second one both were customized at the IMEM-CNR of Parma and the University of Palermo. The results confirmed the possibility of finding and matching a proper timing window where to identify the signal events and proved better performances, in terms of energy resolution, of the custom system. In both cases, strong saturation effects were confirmed, accounting for a loss of almost 90\% of the events, which will be overcome by a dedicated shielding structure foreseen for the final experimental setup.

Published

2023

20. Biophotons: A Hard Problem

Author

De Paolis, L., Francini, R., Davoli, I., De Matteis, F., Scordo, A., Clozza, A., Grandi, M., Pace, E., Curceanu, C., Grigolini, P., and Benfatto, M.

Subjects

Physics - Biological Physics

Abstract

About a hundred years ago the Russian biologist A. Gurwitsch, based on his experiments with onion plants by measuring their growth rate, made the hypothesis that plants emitted a weak electromagnetic field which somehow influenced cell growth. This interesting observation remained fundamentally ignored by the scientific community and only in the 1950s the electromagnetic emission from some plants was measured using a photomultiplier used in single counting mode. Later, in the 80s several groups in the world started some extensive work to understand the origin and role of this ultra-weak emission, hereby called biophotons, coming from living organisms. Biophotons are an endogenous very small production of photons in the visible energy range in and from cells and organism, and this emission is characteristic of alive organisms. Today there is no doubt that biophotons really exist, this emission has in fact been measured by many groups and on many different living organisms, from humans to bacteria. On the contrary, the origin of biophotons and whether organisms use them in some way to exchange information is not yet well known; no model proposed since now is really capable of reproducing and interpreting the great variety of experimental data coming from the many different living systems measured so far. In this brief review we present our experimental work on biophotons coming from germinating seeds, the main experimental results and some methods we are using to analyze the data in order to open the door for interpretative models of this phenomenon and clarifying its function in the regulation and communication between cells and living organisms. We also discuss some ideas on how to increase the signal-to-noise ratio of the measured signal to have new experimental possibilities that allow the measurement and the characterization of currently unmeasurable quantities., Comment: 19 pages, 7 figures

Published

2024

21. Detecting Iron Oxidation States in Liquids with the VOXES Bragg Spectrometer

Author

Manti, Simone, Miliucci, Marco, Scordo, Alessandro, Bedogni, Roberto, Clozza, Alberto, Iliescu, Mihail, Moskal, Gabriel, Piscicchia, Kristian, Porcelli, Alessio, Sirghi, Diana, Sirghi, Florin, and Curceanu, Catalina

Subjects

Physics - Applied Physics

Abstract

Determining the oxidation states of metals assumes great importance in various applications because a variation in the oxidation number can drastically influence the material properties. As an example, this becomes evident in edible liquids like wine and oil, where a change in the oxidation states of the contained metals can significantly modify both the overall quality and taste. To this end, here we present the MITIQO project, which aims to identify oxidation states of metals in edible liquids utilizing X-ray emission with Bragg spectroscopy. This is achieved using the VOXES crystal spectrometer, developed at INFN National Laboratories of Frascati (LNF), employing mosaic crystal (HAPG) in the Von Hamos configuration. This combination allow us to work with effective source sizes of up to a few millimeters and improves the typical low efficiency of Bragg spectroscopy, a crucial aspect when studying liquids with low metal concentration. Here we showcase the concept behind MITIQO, for a liquid solution containing oxidized iron. We performed several high-resolution emission spectra measurements, for the liquid and for different powdered samples containing oxidized and pure iron. By looking at the spectral features of the iron's K$\beta$ emission lineshape, we were able to obtain, for a liquid, a result consistent with the oxidized iron powders and successfully quantifying the effect of oxidation.

Published

2023

22. Novel Machine Learning and Differentiable Programming Techniques applied to the VIP-2 Underground Experiment

Author

Napolitano, F, Bazzi, M, Bragadireanu, M, Cargnelli, M, Clozza, A, De Paolis, L, Del Grande, R, Fiorini, C, Guaraldo, C, Iliescu, M, Laubenstein, M, Manti, S, Marton, J, Miliucci, M, Piscicchia, K, Porcelli, A, Scordo, A, Sgaramella, F, Sirghi, D, Sirghi, F, Doce, O, Zmeskal, J, and Curceanu, C

Subjects

Physics - Instrumentation and Detectors, Nuclear Experiment

Abstract

In this work, we present novel Machine Learning and Differentiable Programming enhanced calibration techniques used to improve the energy resolution of the Silicon Drift Detectors (SDDs) of the VIP-2 underground experiment at the Gran Sasso National Laboratory (LNGS). We achieve for the first time a Full Width at Half Maximum (FWHM) in VIP-2 below 180 eV at 8 keV, improving around 10 eV on the previous state-of-the-art. SDDs energy resolution is a key parameter in the VIP-2 experiment, which is dedicated to searches for physics beyond the standard quantum theory, targeting Pauli Exclusion Principle (PEP) violating atomic transitions. Additionally, we show that this method can correct for potential miscalibrations, requiring less fine-tuning with respect to standard methods., Comment: Submitted to Measurement Science and Technology

Published

2023

23. Biophotons -- new experimental data and analysis

Author

Benfatto, M., Pace, E., Davoli, I., Lucci, Massimiliano, Francini, R., De Matteis, Fabio, Scordo, Alessandro, Clozza, Alberto, Grandi, Maurizio, Curceanu, C., and Grigolini, P.

Subjects

Physics - Biological Physics, Quantitative Biology - Quantitative Methods

Abstract

Biophotons are an ultra-weak emission of photons in the visible energy range from living matter. In this work, we study the emission from germinating seeds using an experimental technique designed to detect light of extremely small intensity. The emission from lentil seeds and single bean was analyzed during the whole germination process in terms of both the different spectral components through low pass filters and the different count distributions in the various stages of the germination process. Although the shape of the emission spectrum appears to be very similar in the two samples used in our experiment, our analysis is able to highlight the differences present in the two cases. In this way, it was possible to correlate the various types of emissions to the degree of development of the seed during germination., Comment: 18 pages including references, 8 figures, this work has been presented to the DCP22 held in 2022 in Pisa

Published

2023

24. Measurements of high-n transitions in intermediate mass kaonic atoms by SIDDHARTA-2 at DA$\mathrm{\Phi}$NE

Author

Sgaramella, F., Tüchler, M., Amsler, C., Bazzi, M., Bosnar, D., Bragadireanu, M., Cargnelli, M., Carminati, M., Clozza, A., Deda, G., Del Grande, R., De Paolis, L., Fabbietti, L., Fiorini, C., Friščić, I., Guaraldo, C., Iliescu, M., Iwasaki, M., Khreptak, A., Manti, S., Marton, J., Miliucci, M., Moskal, P., Napolitano, F., Niedźwiecki, S., Ohnishi, H., Piscicchia, K., Sada, Y., Scordo, A., Shi, H., Silarski, M., Sirghi, D., Sirghi, F., Skurzok, M., Spallone, A., Toho, K., Doce, O. Vazquez, Widmann, E., Yoshida, C., Zmeskal, J., and Curceanu, C.

Subjects

Nuclear Experiment, Physics - Instrumentation and Detectors

Abstract

The SIDDHARTA-2 experiment installed at the DA$\mathrm{\Phi}$NE collider of INFN-LNF performed, for the first time, measurements of high-n transitions in intermediate mass kaonic atoms during the data taking campaigns of 2021 and 2022. Kaonic carbon, oxygen, nitrogen and aluminium transitions, which occur in the setup materials, were measured by using the kaons stopped in the gaseous helium target cell with aluminium frames and Kapton walls, and are reported in this paper. These new kaonic atoms measurements add valuable input to the kaonic atoms transitions data base, which is used as a reference for theories and models of the low-energy strong interaction between antikaon and nuclei. Moreover, these results pave the way for future dedicated kaonic atoms measurements through the whole periodic table and to a new era for the antikaon-nuclei studies at low energy., Comment: 8 pages, 7 figures

Published

2023

25. Precise lifetime measurement of $^4_\Lambda$H hypernucleus using in-flight $^4$He$(K^-, \pi^0)^4_\Lambda$H reaction

Author

Akaishi, T., Asano, H., Chen, X., Clozza, A., Curceanu, C., Del Grande, R., Guaraldo, C., Han, C., Hashimoto, T., Iliescu, M., Inoue, K., Ishimoto, S., Itahashi, K., Iwasaki, M., Ma, Y., Miliucci, M., Murayama, R., Noumi, H., Ohnishi, H., Okada, S., Outa, H., Piscicchia, K., Sakaguchi, A., Sakuma, F., Sato, M., Scordo, A., Shirotori, K., Sirghi, D., Sirghi, F., Suzuki, S., Tanida, K., Toda, T., Tokuda, M., Yamaga, T., Yuan, X., Zhang, P., Zhang, Y., and Zhang, H.

Subjects

Nuclear Experiment

Abstract

We present a new measurement of the $^4_\Lambda$H hypernuclear lifetime using in-flight $K^-$ + $^4$He $\rightarrow$ $^4_\Lambda$H + $\pi^0$ reaction at the J-PARC hadron facility. We demonstrate, for the first time, the effective selection of the hypernuclear bound state using only the $\gamma$-ray energy decayed from $\pi^0$. This opens the possibility for a systematic study of isospin partner hypernuclei through comparison with data from ($K^-$, $\pi^-$) reaction. As the first application of this method, our result for the $^4_\Lambda$H lifetime, $\tau(^4_\Lambda \mathrm{H}) = 206 \pm 8 (\mathrm{stat.}) \pm 12 (\mathrm{syst.})\ \mathrm{ps}$, is one of the most precise measurements to date. We are also preparing to measure the lifetime of the hypertriton ($^3_\Lambda$H) using the same setup in the near future.

Published

2023

26. New opportunities for kaonic atoms measurements from CdZnTe detectors

Author

Abbene, L., Bettelli, M., Buttacavoli, A., Principato, F., Zappettini, A., Amsler, C., Bazzi, M., Bosnar, D., Bragadireanu, M., Cargnelli, M., Carminati, M., Clozza, A., Deda, G., De Paolis, L., Del Grande, R., Fabbietti, L., Fiorini, C., Friščić, I., Guaraldo, C., Iliescu, M., Iwasaki, M., Khreptak, A., Manti, S., Marton, J., Miliucci, M., Moskal, P., Napolitano, F., Niedźwiecki, S., Ohnishi, H., Piscicchia, K., Sada, Y., Sgaramella, F., Shi, H., Silarski, M., Sirghi, D. L., Sirghi, F., Skurzok, M., Spallone, A., Toho, K., Tüchler, M., Doce, O. Vazquez, Yoshida, C., Zmeskal, J., Scordo, A., and Curceanu, C.

Subjects

Physics - Instrumentation and Detectors

Abstract

We present the tests performed by the SIDDHARTA-2 collaboration at the DA{\Phi}NE collider with a quasi-hemispherical CdZnTe detector. The very good room-temperature energy resolution and efficiency in a wide energy range show that this detector technology is ideal for studying radiative transitions in intermediate and heavy-mass kaonic atoms. The CdZnTe detector was installed for the first time in an accelerator environment to perform tests on the background rejection capabilities, which were achieved by exploiting the SIDDHARTA-2 Luminosity Monitor. A spectrum with an $^{241}Am$ source has been acquired, with beams circulating in the main rings, and peak resolutions of 6% at 60 keV and of 2.2% at 511 keV have been achieved. The background suppression factor, which turned out to be of the order of $\simeq10^{5-6}$, opens the possibility to plan for future kaonic atom measurements with CdZnTe detectors.

Published

2023

27. Experimental test of Non-Commutative Quantum Gravity by VIP-2 Lead

Author

Piscicchia, Kristian, Addazi, Andrea, Marciano, Antonino, Bazzi, Massimiliano, Cargnelli, Michael, Clozza, Alberto, De Paolis, Luca, Del Grande, Raffaele, Guaraldo, Carlo, Iliescu, Mihail Antoniu, Laubenstein, Matthias, Marton, Johann, Miliucci, Marco, Napolitano, Fabrizio, Porcelli, Alessio, Scordo, Alessandro, Sirghi, Diana Laura, Sirghi, Florin, Doce, Oton Vazquez, Zmeskal, Johann, and Curceanu, Catalina

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology, High Energy Physics - Experiment, High Energy Physics - Phenomenology

Abstract

Pauli Exclusion Principle (PEP) violations induced by space-time non-commutativity, a class of universality for several models of Quantum Gravity, are investigated by the VIP-2 Lead experiment at the Gran Sasso underground National Laboratory of INFN. The VIP-2 Lead experimental bound on the non-commutative space-time scale $\Lambda$ excludes $\theta$-Poincar\'e far above the Planck scale for non vanishing ``electric-like" components of $\theta_{\mu \nu}$, and up to $6.9 \cdot 10^{-2}$ Planck scales if they are null. Therefore, this new bound represents the tightest one so far provided by atomic transitions tests. This result strongly motivates high sensitivity underground X-ray measurements as critical tests of Quantum Gravity and of the very microscopic space-time structure., Comment: 13 pages, 2 figures. arXiv admin note: substantial text overlap with arXiv:2209.00074

Published

2022

28. A feasibility study of the measurement of kaonic lead X-rays at DA[formula omitted]NE for the precise determination of the charged kaon mass

Author

Bosnar, D., Abbene, L., Amsler, C., Artibani, F., Bazzi, M., Bragadireanu, M., Buttacavoli, A., Cargnelli, M., Carminati, M., Clozza, A., Clozza, F., Deda, G., De Paolis, L., Grande, R. Del, Dulski, K., Fabbietti, L., Fiorini, C., Friščić, I., Guaraldo, C., Iliescu, M., Iwasaki, M., Khreptak, A., Makek, M., Manti, S., Marton, J., Moskal, P., Napolitano, F., Niedźwiecki, S., Ohnishi, H., Piscicchia, K., Scordo, A., Sgaramella, F., Sirghi, D., Sirghi, F., Skurzok, M., Silarski, M., Spallone, A., Toho, K., Tüchler, M., Doce, O. Vasquez, Zmeskal, J., and Curceanu, C.

Published

2024

29. Search for the violation of Pauli Exclusion Principle at LNGS

Author

Shi H., Bartalucci S., Bazzi M., Bertolucci S., Bragadireanu A.M., Cargnelli M., Clozza A., Curceanu C., De Paolis L., Di Matteo S., Egger J.-P., Guaraldo C., Iliescu M., Marton J., Laubenstein M., Milotti E., Pichler A., Pietreanu D., Piscicchia K., Scordo A., Sirghi D.L., Sirghi F., Sperandio L., Vazquez Doce O., Widmann E., and Zmeskal J.

Subjects

Physics, QC1-999

Abstract

In the VIP (VIolation of Pauli exclusion principle) and its follow-up VIP- 2 experiments at the Laboratori Nazionali del Gran Sasso, we test the validity of the Pauli Exclusion Principle, by searching for x-rays from copper atomic transitions from a 2p orbit electron to the ground state which is already occupied by two electrons. Such transitions are prohibited by the Pauli Exclusion Principle. The physics run of the VIP-2 experiment started in late 2016 and will collect data for three years. From the first data taking period of two months we have obtained a new limit better than the VIP result from three years of running. In this article we present the published first physics result from the VIP-2 experiment and discuss about the future perspectives.

Published

2018

30. CdZnTe detectors tested at the [formula omitted] collider for future kaonic atoms measurements

Author

Scordo, A., Abbene, L., Artibani, F., Bazzi, M., Bettelli, M., Bosnar, D., Borghi, G., Bragadireanu, M., Buttacavoli, A., Cargnelli, M., Carminati, M., Clozza, A., Clozza, F., De Paolis, L., Deda, G., Del Grande, R., Fabbietti, L., Fiorini, C., Friščić, I., Guaraldo, C., Iliescu, M., Iwasaki, M., Khreptak, A., Manti, S., Marton, J., Moskal, P., Napolitano, F., Niedźwiecki, S., Ohnishi, H., Piscicchia, K., Principato, F., Sada, Y., Sgaramella, F., Silarski, M., Sirghi, D.L., Sirghi, F., Skurzok, M., Spallone, A., Toho, K., Tüchler, M., Yoshida, C., Zappettini, A., Zmeskal, J., and Curceanu, C.

Published

2024

31. Strongest atomic physics bounds on Non-Commutative Quantum Gravity Models

Author

Piscicchia, Kristian, Addazi, Andrea, Marciano, Antonino, Bazzi, Massimiliano, Cargnelli, Michael, Clozza, Alberto, De Paolis, Luca, Del Grande, Raffaele, Guaraldo, Carlo, Iliescu, Mihail Antoniu, Laubenstein, Matthias, Marton, Johann, Miliucci, Marco, Napolitano, Fabrizio, Porcelli, Alessio, Scordo, Alessandro, Sirghi, Diana Laura, Sirghi, Florin, Doce, Oton Vazquez, Zmeskal, Johann, and Curceanu, Catalina

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology, High Energy Physics - Phenomenology

Abstract

Investigations of possible violations of the Pauli Exclusion Principle represent critical tests of the microscopic space-time structure and properties. Space-time non-commutativity provides a class of universality for several Quantum Gravity models. In this context the VIP-2 Lead experiment sets the strongest bounds, searching for Pauli Exclusion Principle violating atomic-transitions in lead, excluding the $\theta$-Poincar\'e Non Commutative Quantum Gravity models far above the Planck scale for non-vanishing $\theta_{\mu \nu}$ ``electric-like'' components, and up to $6.9 \cdot 10^{-2}$ Planck scales if $\theta_{0i} = 0$., Comment: 7 pages, 2 figures

Published

2022

32. Studies of the linearity and stability of Silicon Drift Detectors for kaonic atoms X-ray spectroscopy

Author

Khreptak, A., Amsler, C., Bazzi, M., Bosnar, D., Bragadireanu, M., Carminati, M., Cargnelli, M., Clozza, A., Deda, G., De Paolis, L., Del Grande, R., Fabbietti, L., Fiorini, C., Guaraldo, C., Iliescu, M., Iwasaki, M., Manti, S., Marton, J., Miliucci, M., Moskal, P., Napolitano, F., Niedźwiecki, S., Ohnishi, H., Piscicchia, K., Sada, Y., Scordo, A., Sgaramella, F., Shi, H., Silarski, M., Sirghi, D., Sirghi, F., Skurzok, M., Spallone, A., Toho, K., Tüchler, M., Doce, O. Vazquez, Zmeskal, J., Yoshida, C., and Curceanu, C.

Subjects

Physics - Instrumentation and Detectors, Nuclear Experiment

Abstract

The SIDDHARTA-2 experiment at the DA$\Phi$NE collider aims to perform precision measurements of kaonic atoms X-ray spectroscopy for the investigation of the antikaon-nucleon strong interaction. To achieve this goal, novel large-area Silicon Drift Detectors (SDDs) have been developed. These devices have special geometry, field configuration and readout electronics that ensure excellent performance in terms of linearity and stability. The paper presents preliminary results for the linearity determination and stability monitoring of the SDDs system during the measurement of kaonic deuterium carried out in the summer of 2022.

Published

2022

33. First tests of the full SIDDHARTA-2 experimental apparatus with a 4 He gaseous target

Author

Scordo, A., Amsler, C., Bazzi, M., Bosnar, D., Bragadireanu, M., Cargnelli, M., Carminati, M., Clozza, A., Deda, G., De Paolis, L., Del Grande, R., Fabbietti, L., Fiorini, C., Guaraldo, C., Iliescu, M., Iwasaki, M., Khreptak, A., King, P., Sandri, P. Levi, Manti, S., Marton, J., Miliucci, M., Moskal, P., Napolitano, F., Niedźwiecki, S., Ohnishi, H., Piscicchia, K., Sada, Y., Sgaramella, F., Shi, H., Silarski, M., Sirghi, D. L., Sirghi, F., Skurzok, M., Spallone, A., Toho, K., Tüchler, M., Doce, O. Vazquez, Yoshida, C., Zmeskal, J., and Curceanu, C.

Subjects

Physics - Instrumentation and Detectors, Nuclear Experiment

Abstract

In this paper, we present the first tests performed after the full installation of the SIDDHARTA-2 experimental apparatus on the Interaction Region of the DA{\Phi}NE collider at the INFN National Laboratories of Frascati. Before starting the first measurement of the kaonic deuterium 2p{\rightarrow}1s transition, accurate evaluation of the background rejection. mainly achieved with the Kaon Trigger system, was required. This run, performed in the period 04-26/05/2022 with a 4 He gaseous target, confirmed the 10^5 rejection factor obtained with a reduced version of the setup and different machine conditions in 2021. This important outcome motivated the filling of the target cell with deuterium and the starting of the measurement campaign of the kaonic deuterium 2p{\rightarrow}1s transition.

Published

2022

34. VIP-2 with modulated current: pathfinder for enhanced Pauli exclusion principle violation studies

Author

Porcelli, Alessio, Bazzi, Massimiliano, Bortolotti, Nicola, Bragadireanu, Mario, Cargnelli, Michael, Clozza, Alberto, De Paolis, Luca, Del Grande, Raffaele, Guaraldo, Carlo, Iliescu, Mihail, Laubenstein, Matthias, Manti, Simone, Marton, Johann, Miliucci, Marco, Napolitano, Fabrizio, Piscicchia, Kristian, Scordo, Alessandro, Sgaramella, Francesco, Sirghi, Diana Laura, Sirghi, Florin, Doce, Oton Vazquez, Zmeskal, Johann, and Curceanu, Catalina

Published

2024

35. The SIDDHARTA-2 calibration method for high precision kaonic atoms X-ray spectroscopy measurements

Author

Sgaramella, F, Miliucci, M, Bazzi, M, Bosnar, D, Bragadireanu, M, Carminati, M, Cargnelli, M, Clozza, A, Deda, G, De Paolis, L, Del Grande, R, Fiorini, C, Guaraldo, C, Iliescu, M, Iwasaki, M, King, P, Sandri, P Levi, Marton, J, Moskal, P, Napolitano, F, Niedźwiecki, S, Piscicchia, K, Scordo, A, Shi, H, Silarski, M, Sirghi, D, Sirghi, F, Skurzok, M, Spallone, A, Tüchler, M, Zmeskal, J, and Curceanu, C

Subjects

Physics - Instrumentation and Detectors, Nuclear Experiment

Abstract

The SIDDHARTA-2 experiment at the DA$\Phi$NE collider aims to perform the first kaonic deuterium X-ray transitions to the fundamental level measurement, with a systematic error at the level of a few eV. To achieve this challenging goal the experimental apparatus is equipped with 384 Silicon Drift Detectors (SDDs) distributed around its cryogenic gaseous target. The SDDs developed by the SIDDHARTA-2 collaboration are suitable for high precision kaonic atoms spectroscopy, thanks to their high energy and time resolutions combined with their radiation hardness. The energy response of each detector must be calibrated and monitored to keep the systematic error, due to processes such as gain fluctuations, at the level of 2-3 eV. This paper presents the SIDDHARTA-2 calibration method which was optimized during the preliminary phase of the experiment in the real background conditions of the DA$\Phi$NE collider, which is a fundamental tool to guarantee the high precision spectroscopic performances of the system over long periods of data taking, as that required for the kaonic deuterium measurement.

Published

2022

36. Kaonic Atoms at the DA$\Phi$NE Collider with the SIDDHARTA-2 Experiment

Author

Napolitano, F, Sgaramella, F, Bazzi, M, Bosnar, D, Bragadireanu, M, Carminati, M, Cargnelli, M, Clozza, A, Deda, G, De Paolis, L, Del Grande, R, Fabbietti, L, Fiorini, C, Guaraldo, C, Iliescu, M, Iwasaki, M, Sandri, P Levi, Marton, J, Miliucci, M, Moskal, P, Niedźwiecki, S, Piscicchia, K, Scordo, A, Shi, H, Sirghi, D, Sirghi, F, Silarski, M, Skurzok, M, Spallone, A, Tüchler, M, Zmeskal, J, and Curceanu, C

Subjects

Nuclear Experiment, Physics - Instrumentation and Detectors

Abstract

Kaonic atoms are a unique tool to explore quantum chromodynamics in the strangeness sector at low energy, with implications reaching neutron stars and dark matter. Precision X-ray spectroscopy can fully unlock the at-threshold isospin dependent antikaon-nucleon scattering lengths, via the atomic transitions to the fundamental level. While the SIDDHARTA experiment at the INFN-LNF DA$\Phi$NE collider successfully measured kaonic hydrogen, its successor SIDDHARTA-2 is starting now its data taking campaign aiming to finally fully disentangle the isoscalar and isovector scattering lengths via the measurement of kaonic deuterium. An overview of the first experimental results from a preparatory run for the SIDDAHARTA-2 experiment is presented., Comment: 13 pages, 7 figures, to be sumbitted to Phys. Scr. - Focus on New Frontiers in Physics - Selected Papers from ICNFP 2021

Published

2022

37. A new kaonic helium measurement in gas by SIDDHARTINO at the DA{\Phi}NE collider

Author

Sirghi, D, Sirghi, F, Sgaramella, F, Bazzi, M, Bosnar, D, Bragadireanu, M, Carminati, M, Cargnelli, M, Clozza, A, Deda, G, De Paolis, L, Del Grande, R, Fabbietti, L, Fiorini, C, Guaraldo, C, Iliescu, M, Iwasaki, M, Sandri, P Levi, Marton, J, Miliucci, M, Moskal, P, Napolitano, F, Niedźwiecki, S, Piscicchia, K, Scordo, A, Shi, H, Skurzok, M, Silarski, M, Spallone, A, Tüchler, M, Doce, O Vazquez, Zmeskal, J, and Curceanu, C

Subjects

Nuclear Experiment, Physics - Instrumentation and Detectors

Abstract

The SIDDHARTINO experiment at the DA{\Phi}NE Collider of INFN-LNF, the pilot run for the SIDDHARTA-2 experiment which aims to perform the measurement of kaonic deuterium transitions to the fundamental level, has successfully been concluded. The paper reports the main results of this run, including the optimization of various components of the apparatus, among which the degrader needed to maximize the fraction of kaons stopped inside the target, through measurements of kaonic helium transitions to the 2p level. The obtained shift and width values are {\epsilon}_2p = E_exp-E_e.m = 0.2 {\pm} 2.5(stat) {\pm} 2(syst) eV and {\Gamma}_2p = 8 {\pm} 10 eV (stat), respectively. This new measurement of the shift, in particular, represents the most precise one for a gaseous target and is expected to contribute to a better understanding of the kaon-nuclei interaction at low energy.

Published

2022

38. Strong interaction studies with kaonic atoms

Author

Marton J., Bazzi M., Beer G., Berucci C., Bosnar D., Bragadireanu A.M., Cargnelli M., Clozza A., Curceanu C., d’Uffizi A., Fiorini C., Ghio F., Guaraldo C., Hayano R., Iliescu M., Ishiwatari T., Iwasaki M., Sandri P. Levi, Okada S., Pietreanu D., Piscicchia K., Ponta T., Quaglia R., Vidal A. Romero, Sbardella E., Scordo A., Shi H., Sirghi D.L., Sirghi F., Tatsuno H., Doce O. Vazquez, Widmann E., and Zmeskal J.

Subjects

Physics, QC1-999

Abstract

The strong interaction of antikaons (K−) with nucleons and nuclei in the low-energy regime represents an active research field connected intrinsically with few-body physics. There are important open questions like the question of antikaon nuclear bound states - the prototype system being K−pp. A unique and rather direct experimental access to the antikaon-nucleon scattering lengths is provided by precision X-ray spectroscopy of transitions in low-lying states of light kaonic atoms like kaonic hydrogen isotopes. In the SIDDHARTA experiment at the electron-positron collider DAΦNE of LNF-INFN we measured the most precise values of the strong interaction observables, i.e. the strong interaction on the 1s ground state of the electromagnetically bound K−p atom leading to a hadronic shift ϵ1s and a hadronic broadening Γ1s of the 1s state. The SIDDHARTA result triggered new theoretical work which achieved major progress in the understanding of the low-energy strong interaction with strangeness. Antikaon-nucleon scattering lengths have been calculated constrained by the SIDDHARTA data on kaonic hydrogen. For the extraction of the isospin-dependent scattering lengths a measurement of the hadronic shift and width of kaonic deuterium is necessary. Therefore, new X-ray studies with the focus on kaonic deuterium are in preparation (SIDDHARTA2). Many improvements in the experimental setup will allow to measure kaonic deuterium which is challenging due to the anticipated low X-ray yield. Especially important are the data on the X-ray yields of kaonic deuterium extracted from a exploratory experiment within SIDDHARTA.

Published

2016

39. Silicon Drift Detectors spectroscopic response during the SIDDHARTA-2 Kaonic Helium run at the DA{\Phi}NE collider

Author

Miliucci, Marco, Bazzi, Massimiliano, Bosnar, Damir, Bragadireanu, Mario, Carminati, Marco, Cargnelli, Michael, Clozza, Alberto, Curceanu, Catalina, Deda, Griseld, De Paolis, Luca, Del Grande, Raffaele, Fiorini, Carlo, Guaraldo, Carlo, Iliescu, Mihail, Iwasaki, Masahiko, King, Pietro, Sandri, Paolo Levi, Marton, Johann, Moskal, Paweł, Napolitano, Fabrizio, Niedźwiecki, Szymon, Piscicchia, Kristian, Scordo, Alessandro, Sgaramella, Francesco, Shi, Hexi, Silarski, Michał, Sirghi, Diana, Sirghi, Florin, Skurzok, Magdalena, Spallone, Antonio, Tüchler, Marlene, Doce, Oton Vazquez, and Zmeskal, Johann

Subjects

Physics - Instrumentation and Detectors

Abstract

A large-area Silicon Drift Detectors (SDDs) system has been developed by the SIDDHARTA2 collaboration for high precision light kaonic atoms X-ray spectroscopy at the DA{\Phi}NE collider of Istituto Nazionale di Fisica Nucleare - Laboratori Nazionali di Frascati. The SDDs geometry and electric field configuration, combined with their read-out electronics, make these devices suitable to perform high precision light kaonic atoms spectroscopy measurements in the high background of the DA{\Phi}NE collider. This work presents the spectroscopic response of the SDDs system during the kaonic helium first exotic atoms run of SIDDHARTA-2, preliminary to the kaonic deuterium data taking campaign, Comment: submitted to Condensed Matter (MDPI) for special issue "High Precision X-ray Measurements 2021"

Published

2021

40. Recent results and future prospects of kaonic nuclei at J-PARC

Author

Sakuma, F., Ajimura, S., Akaishi, T., Asano, H., Bazzi, M., Beer, G., Bhang, H., Bragadireanu, M., Buehler, P., Busso, L., Cargnelli, M., Choi, S., Clozza, A., Curceanu, C., Enomoto, S., Fujioka, H., Fujiwara, Y., Fukuda, T., Guaraldo, C., Hashimoto, T., Hayano, R. S., Hiraiwa, T., Iio, M., Iliescu, M., Inoue, K., Ishiguro, Y., Ishikawa, T., Ishimoto, S., Itahashi, K., Iwasaki, M., Iwai, M., Kanno, K., Kato, K., Kato, Y., Kawasaki, S., Kienle, P., Kou, H., Ma, Y., Marton, J., Matsuda, Y., Miliucci, M., Mizoi, Y., Morra, O., Murayama, R., Nagae, T., Noumi, H., Ohnishi, H., Okada, S., Outa, H., Ozawa, K., Piscicchia, K., Sada, Y., Sakaguchi, A., Sato, M., Scordo, A., Sekimoto, M., Shi, H., Shirotori, K., Simon, M., Sirghi, D., Sirghi, F., Suzuki, S., Suzuki, T., Tanida, K., Tatsuno, H., Tokuda, M., Tomono, D., Toyoda, A., Tsukada, K., Doce, O. Vázquez, Widmann, E., Yamaga, T., Yamazaki, T., Yoshida, C., Zhang, Q., and Zmeskal, J.

Subjects

Nuclear Experiment, Nuclear Theory

Abstract

$\bar K$-nuclear bound systems, kaonic nuclei, have been widely discussed as products of the strongly attractive $\bar K N$ interaction in $I = 0$ channels. Recently, we demonstrated that kaonic nuclei can be produced via in-flight $(K^-,N)$ reactions using the low-momentum DC kaon beam at the J-PARC E15 experiment. We observed the simplest kaonic nuclei, $K^-pp$, having a much deeper binding energy than normal nuclei. For further studies, we have proposed a series of experimental programs for the systematic investigation of light kaonic nuclei, from $\bar K N$ ($\Lambda(1405)$) to $\bar K NNNN$. In the new experiment approved as J-PARC E80, we will measure the $\bar K NNN$ ($A=3$) system as a first step toward a comprehensive study., Comment: 10 pages, 5 figures, proceedings of the 8th Asia-Pacific Conference on Few-Body Problems in Physics (APFB2020), accepted for publication in Fwe-Body Systems

Published

2021

41. Low-energy kaon-nucleon/nuclei interaction studies at DAΦNE by AMADEUS

Author

Tucaković Ivana, Bazzi M., Berucci C., Bosnar D., Bragadireanu A.M., Cargnelli M., Clozza A., Curceanu C., D’Uffizi A., Fabbietti L., Fiorini C., Ghio F., Guaraldo C., Iliescu M., Ishiwatari T., Levi Sandri P., Marton J., Pietreanu D., Piscicchia K., Poli Lener M., Quaglia R., Sbardella E., Scordo A., Shi H., Sirghi D.L., Sirghi F., Tatsuno H., Doce O. Vazquez, Widmann E., and Zmeskal J.

Subjects

Physics, QC1-999

Abstract

The AMADEUS experiment deals with the investigation of the low-energy kaon-nuclei hadronic interaction at the DAΦNE collider at LNF-INFN, fundamental to respond to longstanding open questions in the non-perturbative QCD in the strangeness sector. One of the most interesting aspects is to understand how hadron masses and interactions change in the nuclear environment. The antikaon-nucleon potential is investigated searching for signals from possible bound kaonic clusters, which would imply a strongly attractive antikaon-nucleon potential. AMADEUS step 0 consists in the analysis of 2004/2005 KLOE data, exploring K− absorptions in H, 4He, 9Be and 12C present in setup materials. The status of the various preliminary analyses is presented, together with future perspectives.

Published

2015

42. Unveiling the strangeness secrets: low-energy kaon-nucleon/nuclei interactions studies at DAΦNE

Author

Curceanu C., Bazzi M., Beer G., Berucci C., Bosnar D., Bragadireanu A.M., Cargnelli M., Clozza A., D’Uffizi A., Fabbietti L., Fiorini C., Ghio F., Guaraldo C., Hayano R.S., Iliescu M., Ishiwatari T., Iwasaki M., Levi Sandri P., Marton J., Okada S., Pietreanu D., Piscicchia K., Poli Lener M., Ponta T., Quaglia R., Romero Vidal A., Sbardella E., Scordo A., Shi H., Sirghi D.L., Sirghi F., Tatsuno H., Tucaković I., Vazquez Doce O., Widmann E., and Zmeskal J.

Subjects

Physics, QC1-999

Abstract

The DAΦNE electron-positron collider at the Laboratori Nazionali di Frascati of INFN, Italy has made available a unique quality low-energy negatively charged kaons “beam”, which is used to unveil the secrets of the kaon-nucleon/nuclei interactions at low energies by the SIDDHARTA-2 and AMADEUS experiments. SIDDHARTA has already performed unprecedented precision measurements of kaonic atoms, and is being presently upgraded, as SIDDHARTA-2, to approach new frontiers. The AMADEUS experiment plans to perform in the coming years precision measurements on kaon-nuclei interactions at low-energies, to study the possible formation of kaonic nuclei, of the Λ(1405) and of many other processes involving strangeness.

Published

2014

43. Investigation of the low energy kaons hadronic interactions in light nuclei by AMADEUS

Author

Piscicchia K., Bazzi M., Berucci C., Bosnar D., Bragadireanu A.M., Cargnelli M., Clozza A., D’Uffizi A., Fabietti L., Fiorini C., Ghio F., Guaraldo C., Iliescu M., Ishiwatari T., Levi Sandri P., Marton J., Pietreanu D., Poli Lener M., Quaglia R., Sbardella E., Scordo A., Shi H., Sirghi D.L., Sirghi F., Tatsuno H., Tucaković I., Vazquez Doce O., Widmann E., and Zmeskal J.

Subjects

Physics, QC1-999

Abstract

The AMADEUS experiment has the aim to perform studies of the low energy hadronic interactions of negatively charged kaons with nucleons and nuclei, which are fundamental to solve longstanding open questions in the non-perturbative QCD in the strangeness sector. The DAΦNE collider provides a unique source of monochromatic low-momentum kaons, whose nuclear interaction with the materials of the KLOE detector (used as an active target) provide us excellent acceptance and resolution data for K− capture on H, 4He, 9Be and 12C, both at-rest and in-flight. AMADEUS step 0 consisted in the analysis of the 2004-2005 KLOE data. A second step consisted in the implementation in the central region of the KLOE detector of a pure graphite target, providing a high statistic sample of K− 12C nuclear captures at rest. For the future, new setups for various dedicated targets are under preparation. The aim of such investigations is to face the major open questions in hadron nuclear physics in the strangeness sector, such as the nature of the Λ(1405) state and the resonant versus non-resonant yield in nuclear K− capture, the possible existence of kaonic nuclear clusters, strongly related to a quantitative understanding of single versus multi-nucleon K− absorption.

Published

2014

44. The FragmentatiOn Of Target Experiment (FOOT) and its DAQ system

Author

Biondi, Silvia, Alexandrov, Andrey, Alpat, Behcet, Ambrosi, Giovanni, Argirò, Stefano, Diaz, Rau Arteche, Bartosik, Nazarm, Battistoni, Giuseppe, Belcari, Nicola, Bellinzona, Elettra, Bisogni, Maria Giuseppina, Bruni, Graziano, Carra, Pietro, Cerello, Piergiorgio, Ciarrocchi, Esther, Clozza, Alberto, Colombi, Sofia, De Lellis, Giovanni, Del Guerra, Alberto, De Simoni, Micol, Di Crescenzo, Antonia, Di Ruzza, Benedetto, Donetti, Marco, Dong, Yunsheng, Durante, Marco, Ferrero, Veronica, Fiandrini, Emanuele, Finck, Christian, Fiorina, Elisa, Fischetti, Marta, Francesconi, Marco, Franchini, Matteo, Franciosini, Gaia, Galati, Giuliana, Galli, Luca, Gentile, Valerio, Giraudo, Giuseppe, Hetzel, Ronja, Iarocci, Enzo, Ionica, Maria, Kanxheri, Keida, Kraan, Aafke Christine, La Tessa, Chiara, Laurenza, Martina, Lauria, Adele, Torres, Ernesto Lopez, Marafini, Michela, Massimi, Cristian, Mattei, Ilaria, Mengarelli, Alberto, Moggi, Andrea, Montesi, Maria Cristina, Morone, Maria Cristina, Morrocchi, Matteo, Muraro, Silvia, Narici, Livio, Pastore, Alessandra, Pastrone, Nadia, Patera, Vincenzo, Pennazio, Francesco, Placidi, Pisana, Pullia, Marco, Raffaelli, Fabrizio, Ramello, Luciano, Ridolfi, Riccardo, Rosso, Valeria, Sanelli, Claudio, Sarti, Alessio, Sartorelli, Gabriella, Sato, Osamu, Savazzi, Simone, Scavarda, Lorenzo, Schiavi, Angelo, Schuy, Christoph, Scifoni, Emanuele, Sciubba, Adalberto, Sécher, Alexandre, Selvi, Marco, Servoli, Leonello, Silvestre, Gianluigi, Sitta, Mario, Spiriti, Eleuterio, Sportelli, Giancarlo, Stahl, Achim, Tomassini, Sandro, Tommasino, Francesco, Toppi, Marco, Traini, Giacomo, Valeri, Tioukov, Valle, Serena Marta, Vanstalle, Marie, Weber, Ulrich, Zoccoli, Antonio, Spighi, Roberto, and Villa, Mauro

Subjects

Physics - Instrumentation and Detectors, Nuclear Experiment

Abstract

The FragmentatiOn Of Target (FOOT) experiment aims to provide precise nuclear cross-section measurements for two different fields: hadrontherapy and radio-protection in space. The main reason is the important role the nuclear fragmentation process plays in both fields, where the health risks caused by radiation are very similar and mainly attributable to the fragmentation process. The FOOT experiment has been developed in such a way that the experimental setup is easily movable and fits the space limitations of the experimental and treatment rooms available in hadrontherapy treatment centers, where most of the data takings are carried out. The Trigger and Data Acquisition system needs to follow the same criteria and it should work in different laboratories and in different conditions. It has been designed to acquire the largest sample size with high accuracy in a controlled and online-monitored environment. The data collected are processed in real-time for quality assessment and are available to the DAQ crew and detector experts during data taking.

Published

2020

45. Characterization of the SIDDHARTA-2 luminosity monitor

Author

Skurzok, M., Scordo, A., Niedzwiecki, S., Baniahmad, A., Bazzi, M., Bosnar, D., Bragadireanu, M., Carminati, M., Cargnelli, M., Clozza, A., Curceanu, C., De Paolis, L., Del Grande, R., Fabbietti, L., Fiorini, C., Guaraldo, C., Iliescu, M., Iwasaki, M., Sandri, P. Levi, Marton, J., Miliucci, M., Moskal, P., Piscicchia, K., Sgaramella, F., Shi, H., Silarski, M., Sirghi, D. L., Sirghi, F., Spallone, A., Tüchler, M., Doce, O. Vazquez, and Zmeskal, J.

Subjects

Physics - Instrumentation and Detectors, Nuclear Experiment

Abstract

A luminosity monitor, based on plastic scintillator detectors, has been developed for the SIDDHARTA-2 experiment aiming to perform high precision measurements of kaonic atoms and was installed in 2020 on the DAFNE $e^+e^-$ collider at LNF (Laboratori Nazionali di Frascati, INFN). The main goal of this system is to provide the~instantaneous and integrated luminosity of the DAFNE facility by measuring the rate of $K^+K^-$ correlated pairs emitted by the phi meson decay. This task requires an accurate timing of the DAQ signals, as well as timing resolution below 1ns, in order to disentangle the $K^\pm$ signals from the background minimum ionizing particles (MIPs) produced during the $e^+e^-$ collisions at DAFNE. In this paper the luminosity monitor concept as well as its laboratory characterization and the first results inside DAFNE are presented., Comment: Published in JINST

Published

2020

46. Kaon-nuclei interaction studies at low energies (the AMADEUS project)

Author

Scordo A., Sbardella E., Romero Vidal A., Rizzo A., Poli Lener M., Pietreanu D., Marton J., Levi Sandri P., Ishiwatari T., Kienle P., Iliescu M., Guaraldo C., Ghio F., D’Uffizi A., Curceanu C., Clozza A., Cargnelli M., Bragadireanu A. M., Berucci C., Bosnar D., Bazzi M., Piscicchia Kristian, Sirghi D.L., Sirghi F., Tatsuno H., Tucakovic I., Vazquez Doce O., Widmann E., and Zmeskal J.

Subjects

Physics, QC1-999

Abstract

The AMADEUS experiment aims to perform dedicated precision studies in the sector of low-energy kaon-nuclei interaction at the DAΦNE collider at LNF-INFN. In particular, the experiment plans to perform measurements of the debated deeply bound kaonic nuclear states, to deepen our knowledge about the controversial state Λ(1405) and to measure the low energy cross section of K− on light nuclei. AMADEUS will exploit the process of stopped kaons in cryogenic gaseous targets, measuring both charged and neutral particles produced in a 4π geometry, so performing a full study of the various interaction channels. Taking advantage of the fact that the KLOE drift chamber is mainly filled with 4He (90% helium 10% isobutane) according to Monte Carlo simulations about 0.1% of kaons from DAΦNE should stop in the inner volume of the drift chamber; the analysis of the existing KLOE data (run from 2002 to 2005) is presently going on, searching for hadronic interactions of K− in such an active target. The AMADEUS physics program and preliminary results from the analysis of KLOE data will be discussed.

Published

2012

47. Topological charge-sharing background reduction for the Silicon Drift Detectors used by the VIP experiment at LNGS

Author

Miliucci, Marco, Piscicchia, Kristian, Bazzi, Massimiliano, Bragadireanu, Mario, Cargnelli, Michael, Clozza, Alberto, De Paolis, Luca, Del Grande, Raffaele, Guaraldo, Carlo, Iliescu, Mihail, Laubenstein, Matthias, Marton, Johann, Milotti, Edoardo, Napolitano, Fabrizio, Porcelli, Alessio, Scordo, Alessandro, Sgaramella, Francesco, Sirghi, Diana Laura, Sirghi, Florin, Doce, Oton Vazquez, Zmeskal, Johann, and Curceanu, Catalina

Published

2023

48. VIP2 in LNGS - Testing the Pauli Exclusion Principle for electrons with high sensitivity

Author

Marton, J., Pichler, A., Amirkhani, A., Bartalucci, S., Bazzi, M., Bertolucci, S., Bragadireanu, M., Cargnelli, M., Clozza, A., Curceanu, C., Del Grande, R., De Paolis, L., Egger, J. -P., Fiorini, C., Guaraldo, C., Iliescu, M., Laubenstein, M., Milotti, E., Milucci, M., Pietreanu, D., Piscicchia, K., Scordo, A., Shi, H., Sirghi, D., Sirghi, F., Sperandio, L., Vazquez-Doce, O., and Zmeskal, J.

Subjects

Quantum Physics, Physics - Instrumentation and Detectors

Abstract

The VIP2 (VIolation of the Pauli Exclusion Principle) experiment at the Gran Sasso underground laboratory (LNGS) is searching for possible violations of standard quantum mechanics predictions in atoms at very high sensitivity. We investigate atomic transitions with precision X-ray spectroscopy in order to test the Pauli Exclusion Principle (PEP) and therefore the related spin-statistics theorem. We will present our experimental method for the search for "anomalous" (i.e. Pauli-forbidden) X-ray transitions in copper atoms, produced by "new" electrons, which could have tiny probability to undergo Pauli-forbidden transition to the ground state already occupied by two electrons. We will describe the VIP2 experimental setup, which is taking data at LNGS presently. The goal of VIP2 is to test the PEP for electrons with unprecedented accuracy, down to a limit in the probability that PEP is violated at the level of 10$^{-31}$. We will present current experimental results and discuss implications of a possible violation., Comment: Proceedings of DICE 2018 Conference

Published

2019

49. New measurements of kaonic helium-4 L-series X-rays yields in gas with the SIDDHARTINO setup

Author

Sirghi, D.L., Shi, H., Guaraldo, C., Sgaramella, F., Amsler, C., Bazzi, M., Bosnar, D., Bragadireanu, A.M., Carminati, M., Cargnelli, M., Clozza, A., Deda, G., De Paolis, L., Del Grande, R., Fabbietti, L., Fiorini, C., Iliescu, M., Iwasaki, M., Marton, J., Miliucci, M., Moskal, P., Napolitano, F., Niedzwiecki, S., Ohnishi, H., Piscicchia, K., Sada, Y., Scordo, A., Silarski, M., Sirghi, F., Skurzok, M., Spallone, A., Toho, K., Tüchler, M., Vazquez Doce, O., Zmeskal, J., Yoshida, C., and Curceanu, C.

Published

2023

50. Detector setup of the VIP2 Underground Experiment at LNGS

Author

Marton, J., Pichler, A., Shi, H., Milotti, E., Bartalucci, S., Bazzi, M., Bertolucci, S., Bragadireanu, A. M., Cargnelli, M., Clozza, A., Curceanu, C., De Paolis, L., Di Matteo, S., Egger, J. -P., Elnaggar, H., Guaraldo, C., Iliescu, M., Laubenstein, M., Miliucci, M., Pietreanu, D., Piscicchia, K., Scordo, A., Sirghi, D. L., Sirghi, F., Sperandio, L., Doce, O. Vazquez, Widmann, E., and Zmeskal, J.

Subjects

Physics - Instrumentation and Detectors, Quantum Physics

Abstract

The VIP2 experiment tests the Pauli Exclusion Principle with high sensitivity, by searching for Pauli-forbidden atomic transitions from the 2p to the 1s shell in copper at about 8keV. The transition energy of Pauli-forbidden K X-rays is shifted by about 300 eV with respect to the normal allowed K line. This energy difference can be resolved using Silicon Drift Detectors. The data for this experiment is taken in the Gran Sasso underground laboratory (LNGS), which provides shielding from cosmic radiation. An overview of the detection system of the VIP2 experiment will be given. This includes the Silicon Drift Detectors used as X-ray detectors which provide an energy resolution of around 150 eV at 6 keV and timing information for active shielding. Furthermore, the low maintenance requirement makes them excellent X-ray detectors for the use in an underground laboratory. The VIP2 setup will be discussed which consists of a high current target system and a passive as well as an active shielding system using plastic scintillators read out by Silicon Photomultipliers.

Published

2018