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16 results on '"C. Fiorini"'

1. Investigating the E2 nuclear resonance effect in kaonic atoms

Author

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

Subjects
History, Computer Science Applications, Education
Abstract

The nuclear E2 resonance effect occurs when an atomic de-excitation energy is closely matched by a nuclear excitation energy. It produces an attenuation of some of the atomic X-ray lines in the resonant isotope target. Investigating the nuclear E2 resonance effect in kaonic atoms, important information about kaon-nucleus strong interaction can be provided. The only K − − 42 98 Mo nuclear resonance effect was measured by G. L. Goldfrey, G- K. Lum and C. E. Wiegand at Lawrence Berkeley Laboratory, in 1975. The nuclear E2 resonance effect was observed in 25 hours of data taking, not enough to provide a conclusive result. In four kaonic Molybdenum isotopes ( 42 94 Mo , 42 96 Mo , 42 98 Mo and 42 100 Mo ), the nuclear E2 resonance effect is expected at the same transition, with similar energy values. The KAMEO (Kaonic Atoms Measuring nuclear resonance Effects Observables) experiment plans to study the E2 nuclear resonance effect in kaonic Molybdenum isotopes at the DAΦNE e+e− collider, during the SIDDHARTA-2 experiment. The experimental strategy consists of exposing four solid strip targets, each enriched with one Molybdenum isotope, to negatively charged kaons, using a germanium detector for X-ray transition measurements. A further exposure of a non-resonant 42 92 Mo isotope solid strip target will be used as reference for standard non-resonant transitions.

Published
2023

2. Kaonic atoms measurements with SIDDHARTA-2

Author

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

Subjects
History, Computer Science Applications, Education
Abstract

The SIDDHARTA-2 collaboration is aiming to perform the challenging measurement of kaonic deuterium X-ray transitions to the ground state. This will allow to extract the isospin-dependent antikaon-nucleon scattering lengths, providing input to the theory of Quantum Chromodynamics (QCD) in the non-perturbative regime with strangeness. This work describes the SIDDHARTA-2 experimental apparatus and presents the results obtained during the commissioning phase realized with kaonic helium measurements. In particular, the first observation of the kaonic helium transitions to the 3s level (M-lines), reported in this work, represents a new source of information to study the kaonic helium cascade process and demonstrates the potential of the SIDDHARTA-2 apparatus, in the view of the ambitious kaonic deuterium measurement.

Published
2023

3. The SIDDHARTA-2 calibration method for high precision kaonic atoms x-ray spectroscopy measurements

Author

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

Subjects
Physics - Instrumentation and Detectors, FOS: Physical sciences, Instrumentation and Detectors (physics.ins-det), Nuclear Experiment (nucl-ex), x-ray spectroscopy, Condensed Matter Physics, SIDDHARTA-2, Nuclear Experiment, Mathematical Physics, Atomic and Molecular Physics, and Optics, Paper, Focus on New Frontiers in Physics - Selected Papers from ICNFP 2021, silicon drift detectors, ddc
Abstract

The SIDDHARTA-2 experiment at the DAΦNE 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 DAΦNE 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
2021

4. Search for a signature of Pauli exclusion principle violation by VIP-2

Author

L De Paolis, F Napolitano, S Bartalucci, M Bazzi, S Bertolucci, M Bragadireanu, C Capoccia, M Cargnelli, A Clozza, R Del Grande, C Fiorini, C Guaraldo, M Iliescu, M Laubenstein, J Marton, M Miliucci, E Milotti, K Piscicchia, A Porcelli, A Scordo, H Shi, D L Sirghi, F Sirghi, F Sgaramella, J Zmeskal, and C Curceanu

Subjects
Condensed Matter Physics, Mathematical Physics, Atomic and Molecular Physics, and Optics
Abstract

The VIP-2 experiment performs a high sensitivity test of the Pauli Exclusion Principle for electrons, and is operated in the ultra-low cosmic background environment of the Gran Sasso Underground Laboratories of INFN. The experimental technique consists in testing the symmetry state of an open, continuously supplied, system of fermions; thus representing the only spin-statistics test which strictly fulfills the Messiah-Greenberg superselection rule. In April 2019, VIP-2 started the ongoing data taking campaign in its final layout, with the goal to improve the previous VIP result of at least two orders of magnitude. Before April 2019, VIP-2 collected, in a partial configuration of the external shielding complex, two sets of data in 2018–2019 for a total duration of about 208 days. We present in this work the results of the analyses of the first two data sets collected by VIP-2, which already improve the VIP result by one order of magnitude. The results are also interpreted in the framework of a diffusion random walk model, which provides a significantly enhanced description of the electrons-atoms close encounters process, and hence a boost on the estimated limit on the Pauli Exclusion Principle violation probability.

Published
2022

5. Large area silicon drift detectors system for high precision timed x-ray spectroscopy

Author

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

Subjects
charge dynamics, silicon drift detector, Applied Mathematics, x-ray spectroscopy, timing response, energy response, Instrumentation, Engineering (miscellaneous)
Abstract

The current work presents the optimization of large area silicon drift detectors developed by the SIDDHARTA-2 collaboration for high precision x-ray measurements of light exotic atom transitions. Two different radiation sources were employed in the study: an x-ray tube, for investigating the energy resolution and the charge collection efficiency of the device in the range 4000 eV–13 000 eV, and a β − 90Sr radioactive source for measuring the timing response, thus qualifying the charge drift parameters inside the semiconductor. The study reports the spectroscopic response optimization, together with the tuning of the electron dynamics for the given Silicon technology, by adjusting the applied electric field and the working temperature, which allow a good control of the device’s performances for high precision, timed x-ray spectroscopy applications.

Published
2022

14. Prompt gamma imaging of proton pencil beams at clinical dose rate.

Author

I Perali, A Celani, L Bombelli, C Fiorini, F Camera, E Clementel, S Henrotin, G Janssens, D Prieels, F Roellinghoff, J Smeets, F Stichelbaut, and F Vander Stappen

Subjects
IMAGING systems, OPTICS, PROTONS, PROTON therapy, THERAPEUTIC use of nuclear particles
Abstract

In this work, we present experimental results of a prompt gamma camera for real-time proton beam range verification. The detection system features a pixelated Cerium doped lutetium based scintillation crystal, coupled to Silicon PhotoMultiplier arrays, read out by dedicated electronics. The prompt gamma camera uses a knife-edge slit collimator to produce a 1D projection of the beam path in the target on the scintillation detector. We designed the detector to provide high counting statistics and high photo-detection efficiency for prompt gamma rays of several MeV. The slit design favours the counting statistics and could be advantageous in terms of simplicity, reduced cost and limited footprint. We present the description of the realized gamma camera, as well as the results of the characterization of the camera itself in terms of imaging performance. We also present the results of experiments in which a polymethyl methacrylate phantom was irradiated with proton pencil beams in a proton therapy center. A tungsten slit collimator was used and prompt gamma rays were acquired in the 3–6 MeV energy range. The acquisitions were performed with the beam operated at 100 MeV, 160 MeV and 230 MeV, with beam currents at the nozzle exit of several nA. Measured prompt gamma profiles are consistent with the simulations and we reached a precision (2σ) in shift retrieval of 4 mm with 0.5 × 108, 1.4 × 108 and 3.4 × 108 protons at 100, 160 and 230 MeV, respectively. We conclude that the acquisition of prompt gamma profiles for in vivo range verification of proton beam with the developed gamma camera and a slit collimator is feasible in clinical conditions. The compact design of the camera allows its integration in a proton therapy treatment room and further studies will be undertaken to validate the use of this detection system during treatment of real patients. [ABSTRACT FROM AUTHOR]

Published
2014
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15. Prompt gamma imaging of proton pencil beams at clinical dose rate.

Author

Perali I, Celani A, Bombelli L, Fiorini C, Camera F, Clementel E, Henrotin S, Janssens G, Prieels D, Roellinghoff F, Smeets J, Stichelbaut F, and Vander Stappen F

Subjects
Gamma Cameras, Humans, Scintillation Counting instrumentation, Diagnostic Imaging, Gamma Rays, Phantoms, Imaging, Proton Therapy methods, Radiometry instrumentation, Radiotherapy, Computer-Assisted instrumentation, Scintillation Counting methods
Abstract

In this work, we present experimental results of a prompt gamma camera for real-time proton beam range verification. The detection system features a pixelated Cerium doped lutetium based scintillation crystal, coupled to Silicon PhotoMultiplier arrays, read out by dedicated electronics. The prompt gamma camera uses a knife-edge slit collimator to produce a 1D projection of the beam path in the target on the scintillation detector. We designed the detector to provide high counting statistics and high photo-detection efficiency for prompt gamma rays of several MeV. The slit design favours the counting statistics and could be advantageous in terms of simplicity, reduced cost and limited footprint. We present the description of the realized gamma camera, as well as the results of the characterization of the camera itself in terms of imaging performance. We also present the results of experiments in which a polymethyl methacrylate phantom was irradiated with proton pencil beams in a proton therapy center. A tungsten slit collimator was used and prompt gamma rays were acquired in the 3-6 MeV energy range. The acquisitions were performed with the beam operated at 100 MeV, 160 MeV and 230 MeV, with beam currents at the nozzle exit of several nA. Measured prompt gamma profiles are consistent with the simulations and we reached a precision (2σ) in shift retrieval of 4 mm with 0.5 × 10(8), 1.4 × 10(8) and 3.4 × 10(8) protons at 100, 160 and 230 MeV, respectively. We conclude that the acquisition of prompt gamma profiles for in vivo range verification of proton beam with the developed gamma camera and a slit collimator is feasible in clinical conditions. The compact design of the camera allows its integration in a proton therapy treatment room and further studies will be undertaken to validate the use of this detection system during treatment of real patients.

Published
2014
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16. Prompt gamma imaging with a slit camera for real-time range control in proton therapy.

Author

Smeets J, Roellinghoff F, Prieels D, Stichelbaut F, Benilov A, Busca P, Fiorini C, Peloso R, Basilavecchia M, Frizzi T, Dehaes JC, and Dubus A

Subjects
Feasibility Studies, Humans, Monte Carlo Method, Phantoms, Imaging, Polymethyl Methacrylate, Radiotherapy Planning, Computer-Assisted, Reproducibility of Results, Spectrum Analysis, Time Factors, Proton Therapy, Radionuclide Imaging instrumentation, Radiotherapy, Computer-Assisted instrumentation
Abstract

Treatments delivered by proton therapy are affected by uncertainties on the range of the beam within the patient, requiring medical physicists to add safety margins on the penetration depth of the beam. To reduce these margins and deliver safer treatments, different projects are currently investigating real-time range control by imaging prompt gammas emitted along the proton tracks in the patient. This study reports on the feasibility, development and test of a new concept of prompt gamma camera using a slit collimator to obtain a one-dimensional projection of the beam path on a scintillation detector. This concept was optimized, using the Monte Carlo code MCNPX version 2.5.0, to select high energy photons correlated with the beam range and detect them with both high statistics and sufficient spatial resolution. To validate the Monte Carlo model, spectrometry measurements of secondary particles emitted by a PMMA target during proton irradiation at 160 MeV were realized. An excellent agreement with the simulations was observed when using subtraction methods to isolate the gammas in direct incidence. A first prototype slit camera using the HiCam gamma detector was consequently prepared and tested successfully at 100 and 160 MeV beam energies. Results confirmed the potential of this concept for real-time range monitoring with millimetre accuracy in pencil beam scanning mode for typical clinical conditions. If we neglect electronic dead times and rejection of detected events, the current solution with its collimator at 15 cm from the beam axis can achieve a 1-2 mm standard deviation on range estimation in a homogeneous PMMA target for numbers of protons that correspond to doses in water at the Bragg peak as low as 15 cGy at 100 MeV and 25 cGy at 160 MeV assuming pencil beams with a Gaussian profile of 5 mm sigma at target entrance.

Published
2012
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