Your search keyword '"Usubov, Z."' showing total 14 results

1. Design, status and test of the Mu2e crystal calorimeter

Author

Atanov, N., Baranov, V., Budagov, J., Carosi, R., Cervelli, F., Colao, F., Cordelli, M., Corradi, G., Dan��, E., Davydov, Y. I., Di Falco, S., Donati, S., Donghia, R., Echenard, B., Flood, K., Giovannella, S., Glagolev, V., Grancagnolo, F., Happacher, F., Hitlin, D. G., Martini, M., Miscetti, S., Miyashita, T., Morescalchi, L., Murat, P., Piacentino, G. M., Pezzullo, G., Porter, F. C., Raffaelli, F., Saputi, A., Sarra, I., Spinella, F., Tassielli, G., Tereshchenko, V., Usubov, Z., Zhu, R. Y., Atanov, N., Baranov, V., Budagov, J., Carosi, R., Cervelli, F., Colao, F., Cordelli, M., Corradi, G., Dané, E., Davydov, Y. I., Falco, S. Di, Donati, S., Donghia, R., Echenard, B., Flood, K., Giovannella, S., Glagolev, V., Grancagnolo, F., Happacher, F., Hitlin, D. G., Martini, M., Miscetti, S., Miyashita, T., Morescalchi, L., Murat, P., Piacentino, G. M., Pezzullo, G., Raffaelli, F., Saputi, A., Sarra, I., Spinella, F., Tassielli, G., Tereshchenko, V., Usubov, Z., and Zhu, R. Y.

Subjects

History, Muon, Materials science, Physics - Instrumentation and Detectors, Calorimeter (particle physics), 010308 nuclear & particles physics, Physics::Instrumentation and Detectors, FOS: Physical sciences, Electron, Instrumentation and Detectors (physics.ins-det), 01 natural sciences, Particle identification, Computer Science Applications, Education, High Energy Physics - Experiment, Nuclear physics, High Energy Physics - Experiment (hep-ex), Physics and Astronomy (all), Silicon photomultiplier, 0103 physical sciences, Mu2e, High Energy Physics::Experiment, Fermilab, 010306 general physics, Radiation hardening

Abstract

The Mu2e experiment at Fermilab searches for the charged-lepton flavor violating neutrino-less conversion of a negative muon into an electron in the field of a aluminum nucleus. The dynamic of such a process is well modeled by a two-body decay, resulting in a monoenergetic electron with an energy slightly below the muon rest mass (104.967 MeV). The calorimeter of this experiment plays an important role to provide excellent particle identification capabilities and an online trigger filter while aiding the track reconstruction capabilities. The baseline calorimeter configuration consists of two disks each made with about 700 undoped CsI crystals read out by two large area UV-extended Silicon Photomultipliers. These crystals match the requirements for stability of response, high resolution and radiation hardness. In this paper we present the final calorimeter design.

Published

2017

2. The Mu2e e.m. Calorimeter: Crystals and SiPMs Production Status

Author

S. Donati, M. Corradi, M. Ricci, T. S. Miyashita, M. Cordelli, G. Tassielli, S. Miscetti, I. I. Vasilyev, Gianantonio Pezzullo, F. Raffaelli, Luca Morescalchi, F. Happacher, E. Pedreschi, V. Glagolev, D. Caiulo, D. G. Hitlin, Z. Usubov, F. Grancagnolo, S. Giovannella, Yu.I. Davydov, F. Cervelli, F. Colao, B. Echenard, A. Saputi, E. Diociaiuti, S. Di Falco, J. Budagov, Ren-Yuan Zhu, N. Atanov, P. Murat, F. C. Porter, V. A. Baranov, F. Spinella, M. Martini, I. Sarra, R. Donghia, V. Tereshchenko, Atanov, N., Baranov, V., Budagov, J., Caiulo, D., Cervelli, F., Colao, F., Cordelli, M., Corradi, M., Davydov, Y. I., Falco, S. D., Diociaiuti, E., Donati, S., Donghia, R., Echenard, B., Giovannella, S., Glagolev, V., Grancagnolo, F., Happacher, F., Hitlin, D., Martini, M., Miscetti, S., Miyashita, T., Morescalchi, L., Murat, P., Pedreschi, E., Pezzullo, G., Porter, F., Raffaelli, F., Ricci, M., Saputi, A., Sarra, I., Spinella, F., Tassielli, G., Tereshchenko, V., Usubov, Z., Vasilyev, I. I., and Zhu, R. Y.

Subjects

Physics, Nuclear and High Energy Physics, Muon, Calorimeter (particle physics), Physics::Instrumentation and Detectors, 010308 nuclear & particles physics, Detector, Calorimetry, 01 natural sciences, Particle identification, Nuclear physics, Mu2e, Silicon photomultiplier, Nuclear Energy and Engineering, 0103 physical sciences, pure CsI crystals, silicon photomultipliers (SiPMs), High Energy Physics::Experiment, Fermilab, pure CsI crystal, Electrical and Electronic Engineering, Lepton

Abstract

The Mu2e experiment at Fermilab will search for the charged lepton flavor violating neutrino-less conversion of a negative muon into an electron in the field of an aluminum nucleus [1] , [2] . The Mu2e detector is comprised of a tracker, an electromagnetic calorimeter, and an external veto for cosmic rays. The calorimeter plays an important role in providing excellent particle identification capabilities, a fast and online trigger filter while aiding the track reconstruction capabilities. The calorimeter requirements are to provide a large acceptance for 100-MeV electrons and reach: 1) a time resolution better than 0.5 ns at 100 MeV; 2) an energy resolution O(10%) at 100 MeV; and 3) a position resolution of about 1 cm. The calorimeter consists of two disks, each one made of 674 pure CsI crystals readout by two large-area $2 \times 3$ array of UV-extended silicon photomultipliers (Mu2e SiPMs) of $6\,\,\times6$ mm2 dimensions. A large-scale prototype has been constructed with 51 preproduction crystals readout by 102 Mu2e SiPMs. It has been tested at the beam test facility in Frascati, demonstrating satisfying results compared to the Mu2e requirements. At the moment of writing, the crystals production phase is halfway through the work, while the SiPM production has been completed. An overview of the characterization tests is also reported, together with a description of the final calorimeter design.

Published

2020

3. The Mu2e calorimeter: Quality assurance of production crystals and SiPMs

Author

M. Martini, Ren-Yuan Zhu, G. Tassielli, Z. Usubov, E. Pedreschi, G. Corradi, D. G. Hitlin, D. Caiulo, V. Glagolev, F. Spinella, F. Cervelli, I. Sarra, F. Happacher, S. Miscetti, M. Cordelli, R. Donghia, V. Tereshchenko, F. Grancagnolo, N. Atanov, E. Diociaiuti, S. Donati, Gianantonio Pezzullo, I. I. Vasilyev, S. Giovannella, Yu.I. Davydov, F. Colao, B. Echenard, F. Raffaelli, A. Saputi, S. Di Falco, J. Budagov, Luca Morescalchi, M. Ricci, T. S. Miyashita, P. Murat, F. C. Porter, V. A. Baranov, Atanov, N., Baranov, V., Budagov, J., Caiulo, D., Cervelli, F., Colao, F., Cordelli, M., Corradi, G., Davydov, Yu. I., Di Falco, S., Diociaiuti, E., Donati, S., Donghia, R., Echenard, B., Giovannella, S., Glagolev, V., Grancagnolo, F., Happacher, F., Hitlin, D. G., Martini, M., Miscetti, S., Miyashita, T., Morescalchi, L., Murat, P., Pedreschi, E., Pezzullo, G., Porter, F., Raffaelli, F., Ricci, M., Saputi, A., Sarra, I., Spinella, F., Tassielli, G., Tereshchenko, V., Usubov, Z., Vasilyev, I. I., and Zhu, R. Y.

Subjects

Nuclear and High Energy Physics, Physics - Instrumentation and Detectors, Physics::Instrumentation and Detectors, FOS: Physical sciences, 01 natural sciences, High Energy Physics - Experiment, 030218 nuclear medicine & medical imaging, Crystal, High Energy Physics - Experiment (hep-ex), 03 medical and health sciences, 0302 clinical medicine, Silicon photomultiplier, 0103 physical sciences, Mu2e, Instrumentation, Physics, Mu2e, electromagnetic calorimeter, crystal calorimeter, Calorimeter (particle physics), 010308 nuclear & particles physics, business.industry, Instrumentation and Detectors (physics.ins-det), Technical specifications, 3. Good health, Cathode ray, Optoelectronics, business, Quality assurance

Abstract

The Mu2e calorimeter is composed of two disks each containing 1348 pure CsI crystals, each crystal read out by two arrays of 6x6 mm2 monolithic SiPMs. The experimental requirements have been translated in a series of technical specifications for both crystals and SiPMs. Quality assurance tests, on first crystal and then SiPM production batches, confirm the performances of preproduction samples previously assembled in a calorimeter prototype and tested with an electron beam. The production yield is sufficient to allow the construction of a calorimeter of the required quality in the expected times., Comment: 2 pages, 2 figures, 14th meeting on Advanced Detectors

Published

2019

4. Design and test of the Mu2e undoped CsI + SiPM crystal calorimeter

Author

G. Tassielli, F. Grancagnolo, M. Cordelli, S. Giovannella, Ren-Yuan Zhu, Yu.I. Davydov, F. Colao, D. Caiulo, B. Echenard, I. I. Vasilyev, R. Donghia, M. Ricci, V. Tereshchenko, J. Budagov, T. S. Miyashita, S. Donati, V. Glagolev, F. Happacher, Luca Morescalchi, M. Corradi, S. Miscetti, E. Diociaiuti, Gianantonio Pezzullo, F. Spinella, E. Pedreschi, D. G. Hitlin, F. Cervelli, F. Raffaelli, N. Atanov, A. Saputi, S. Di Falco, M. Martini, Z. Usubov, P. Murat, F. C. Porter, V. A. Baranov, I. Sarra, Atanov, N., Baranov, V., Budagov, J., Caiulo, D., Cervelli, F., Colao, F., Cordelli, M., Corradi, G., Davydov, Yu. I., Di Falco, S., Diociaiuti, E., Donati, S., Donghia, R., Echenard, B., Giovannella, S., Glagolev, V., Grancagnolo, F., Happacher, F., Hitlin, D., Martini, M., Miscetti, S., Miyashita, T., Morescalchi, L., Murat, P., Pedreschi, E., Pezzullo, G., Porter, F., Raffaelli, F., Ricci, M., Saputi, A., Sarra, I., Spinella, F., Tassielli, G., Tereshchenko, V., Usubov, Z., Vasilyev, I. I., and Zhu, R. Y.

Subjects

Physics, Nuclear and High Energy Physics, Muon, Calorimeter (particle physics), Physics::Instrumentation and Detectors, 010308 nuclear & particles physics, business.industry, SiPMs, Calorimetry, 01 natural sciences, Particle identification, Silicon photomultiplier, Optics, 0103 physical sciences, Mu2e, Cathode ray, High Energy Physics::Experiment, Test beam, Fermilab, Pure CsI crystals, 010306 general physics, business, Instrumentation

Abstract

The Mu2e experiment at Fermilab will search for the charged-lepton flavour violating neutrino-less conversion of a negative muon into an electron in the field of an aluminum nucleus. The calorimeter plays an important role in providing a fast trigger filter, excellent particle identification and a seeding for track reconstruction. Its requirements are to provide an energy (timing) resolution better than 10% (0.5 ns) and a position resolution below 1 cm, for 100 MeV electrons. The calorimeter consists of two disks, each one made of 674 un-doped CsI crystals readout by two large area arrays of 2 × 3 UV-extended SiPMs of 6 × 6 mm^2 dimensions. A large scale prototype (Module-0) has been constructed and tested with an electron beam in the energy range between 60 and 120 MeV at the BTF of Frascati National Laboratories. Results demonstrated that this calorimeter satisfies the Mu2e requirements.

Published

2019

5. Mu2e calorimeter readout system

Author

E. Pedreschi, J. Budagov, D. G. Hitlin, G. Polacco, F. Happacher, S. Miscetti, N. Atanov, S. Donati, M. Sozzi, M. Cordelli, Luca Baldini, I. I. Vasilyev, A. Saputi, Gianantonio Pezzullo, M. Ricci, Luigi Lazzeri, Ren-Yuan Zhu, S. Faetti, S. Giudici, S. Di Falco, Z. Usubov, T. S. Miyashita, I. Sarra, Luca Morescalchi, F. Grancagnolo, F. Colao, P. Murat, F. Cervelli, R. Donghia, B. Echenard, F. Spinella, G. Corradi, F. C. Porter, Fabrizio Cei, V. Tereshchenko, Donato Nicolo, F. Raffaelli, V. A. Baranov, D. Caiulo, S. Giovannella, Yu.I. Davydov, V. Glagolev, M. Martini, G. Tassielli, Francesco D'Errico, E. Diociaiuti, Atanov, N., Baranov, V., Baldini, L., Budagov, J., Caiulo, D., Cei, F., Cervelli, F., Colao, F., Cordelli, M., Corradi, G., Davydov, Yu. I., D'Errico, F., Di Falco, S., Diociaiuti, E., Donati, S., Donghia, R., Echenard, B., Faetti, S., Giovannella, S., Giudici, S., Glagolev, V., Grancagnolo, F., Happacher, F., Hitlin, D. G., Lazzeri, L., Martini, M., Miscetti, S., Miyashita, T., Morescalchi, L., Murat, P., Nicolò, D., Pedreschi, E., Pezzullo, G., Polacco, G., Porter, F., Raffaelli, F., Ricci, M., Saputi, A., Sarra, I., Sozzi, M., Spinella, F., Tassielli, G., Tereshchenko, V., Usubov, Z., Vasilyev, I. I., and Zhu, R. Y.

Subjects

Nuclear and High Energy Physics, Physics - Instrumentation and Detectors, Physics::Instrumentation and Detectors, FOS: Physical sciences, Mu2e calorimeter, 01 natural sciences, Signal, High Energy Physics - Experiment, 030218 nuclear medicine & medical imaging, High Energy Physics - Experiment (hep-ex), 03 medical and health sciences, 0302 clinical medicine, Silicon photomultiplier, 0103 physical sciences, Mu2e, Waveform, Instrumentation, Digitizer, Physics, Front-end electronics, Radiation tolerance, Calorimeter (particle physics), 010308 nuclear & particles physics, business.industry, Amplifier, Linear regulator, High voltage, Instrumentation and Detectors (physics.ins-det), Optoelectronics, business

Abstract

The Mu2e electromagnetic calorimeter is made of two disks of un-doped parallelepiped CsI crystals readout by SiPM. There are 674 crystals in one disk and each crystal is readout by an array of two SiPM. The readout electronics is composed of two types of modules: 1) the front-end module hosts the shaping amplifier and the high voltage linear regulator; since one front-end module is interfaced to one SiPM, a total of 2696 modules are needed for the entire calorimeter; 2) a waveform digitizer provides a further level of amplification and digitizes the SiPM signal at the sampling frequency of $200\ \text{M}\text{Hz}$ with 12-bits ADC resolution; since one board digitizes the data received from 20 SiPMs, a total of 136 boards are needed. The readout system operational conditions are hostile: ionization dose of $20\ \text{krads}$, neutron flux of $10^{12}\ \mathrm{n}(1\ \text{MeVeq})/\text{cm}^2$, magnetic field of $1\ \text{T}$ and in vacuum level of $10^{-4}\ \text{Torr}$. A description of the readout system and qualification tests is reported.

Published

2019

6. Construction status of the Mu2e crystal calorimeter

Author

R. Donghia, V. Tereshchenko, D. Pasciuto, J. Budagov, M. Cordelli, S. Donati, F. Grancagnolo, I. Sarra, Claudio Ferrari, F. Spinella, Dariush Hampai, C. Bloise, E. Diociaiuti, Gianantonio Pezzullo, N. Atanov, A. Saputi, T. S. Miyashita, S. Miscetti, F. Cervelli, G. Tassielli, I. I. Vasilyev, Anna Zanetti, Z. Usubov, Ren-Yuan Zhu, E. Pedreschi, S. Di Falco, D. G. Hitlin, V. V. Glagolev, Luca Morescalchi, M. Corradi, P. Murat, M. Martini, F. C. Porter, V. A. Baranov, F. Colao, B. Echenard, S. Giovannella, Yu.I. Davydov, F. Happacher, F. Raffaelli, A. Marini, Atanov, N., Baranov, V., Bloise, C., Budagov, J., Cervelli, F., Colao, F., Cordelli, M., Corradi, M., Davydov, Y. I., Falco, S. D., Diociaiuti, E., Donati, S., Donghia, R., Echenard, B., Ferrari, C., Giovannella, S., Glagolev, V., Grancagnolo, F., Hampai, D., Happacher, F., Hitlin, D., Marini, A., Martini, M., Miscetti, S., Miyashita, T., Morescalchi, L., Murat, P., Pasciuto, D., Pedreschi, E., Pezzullo, G., Porter, F., Raffaelli, F., Saputi, A., Sarra, I., Spinella, F., Tassielli, G. F., Tereshchenko, V., Usubov, Z., Vasilyev, I. I., Zanetti, A., and Zhu, R. Y.

Subjects

Materials science, Muon, Calorimeter (particle physics), Physics::Instrumentation and Detectors, 010308 nuclear & particles physics, business.industry, Detector, Cosmic ray, 01 natural sciences, Particle identification, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, 0302 clinical medicine, Optics, 0103 physical sciences, Mu2e, Cathode ray, High Energy Physics::Experiment, Fermilab, business, Instrumentation, Mathematical Physics

Abstract

The Mu2e experiment at Fermilab will search for the charged-lepton flavor violating neutrino-less conversion of a negative muon into an electron in the field of an aluminum nucleus. The Mu2e detector is composed of a tracker, an electromagnetic calorimeter and an external veto for cosmic rays. The calorimeter plays an important role in providing excellent particle identification capabilities and a fast online trigger filter, while aiding the track reconstruction capabilities. Calorimeter requirements are to provide a large acceptance for 0∼10 MeV electrons and reach: I) a time resolution better than 0.5 ns; ii) an energy resolution better than 10%; and iii) a position resolution of 1 cm. The calorimeter consists of two disks, each one made of 674 pure CsI crystals. Each crystal is readout by two large area 2×3 arrays of UV-extended SiPMs of 6×6 mm2 dimensions. A large scale prototype (Module-0) has been tested at an electron beam. We report here the tests done to finalize the calorimeter design, the results obtained with Module-0 and the status of production. At this time, the performance characteristics of 85% of the crystals and all of the SiPMs have been measured. The calorimeter engineering drawings have been completed and the large mechanical components are under fabrication. Analog and digital electronics have been prototyped and tested with irradiation dose. Their serial production is being organized. The calorimeter assembly phase is planned for mid-2020.

Published

2020

7. Design and status of the Mu2e crystal calorimeter

Author

Claudio Ferrari, G. Tassielli, S. Ceravolo, S. Donati, Gianantonio Pezzullo, Dariush Hampai, C. Bloise, Anna Zanetti, F. Spinella, R. Donghia, G. Corradi, V. Tereshchenko, S. Giovannella, Yu.I. Davydov, M. Cordelli, D. Pasciuto, F. Cervelli, I. Sarra, F. Colao, N. Atanov, F. Grancagnolo, E. Pedreschi, B. Echenard, S. Miscetti, P. Murat, D. G. Hitlin, F. C. Porter, V. A. Baranov, T. S. Miyashita, F. Happacher, M. Martini, F. Raffaelli, Ren-Yuan Zhu, V. Glagolev, I. I. Vasilyev, Luca Morescalchi, E. Diociaiuti, A. Saputi, S. Di Falco, J. Budagov, Z. Usubov, Atanov, N., Baranov, V., Bloise, C., Budagov, J., Cervelli, F., Ceravolo, S., Colao, F., Cordelli, M., Corradi, G., Davydov, Y. I., Di Falco, S., Diociaiuti, E., Donati, S., Donghia, R., Echenard, B., Ferrari, C., Giovannella, S., Glagolev, V., Grancagnolo, F., Hampai, D., Happacher, F., Hitlin, D., Martini, M., Miscetti, S., Miyashita, T., Morescalchi, L., Murat, P., Pasciuto, D., Pedreschi, E., Pezzullo, G., Porter, F., Raffaelli, F., Saputi, A., Sarra, I., Spinella, F., Tassielli, G., Tereshchenko, V., Usubov, Z., Vasilyev, I. I., Zanetti, A., and Zhu, R. Y.

Subjects

Nuclear and High Energy Physics, Physics::Instrumentation and Detectors, Orders of magnitude (temperature), SiPMs, Calorimetry, 7. Clean energy, 01 natural sciences, Particle identification, 030218 nuclear medicine & medical imaging, Mu2e, Pure CsI crystals, 03 medical and health sciences, 0302 clinical medicine, Silicon photomultiplier, Optics, 0103 physical sciences, Fermilab, Instrumentation, Pure CsI crystal, Physics, Muon, Calorimeter (particle physics), 010308 nuclear & particles physics, business.industry, Detector, High Energy Physics::Experiment, business

Abstract

The Mu2e experiment at Fermilab searches for the coherent neutrino-less muon to electron conversion in the Coulomb field of an aluminum nucleus. This charged-lepton flavor violating process is characterized by a distinctive signature of a mono-energetic electron ( ∼ 105 MeV/c) and its observation will be a clear signature of new physics beyond the Standard Model. The Mu2e goal is to improve by four orders of magnitude the search sensitivity with respect to the previous experiments. The Mu2e detector is composed of a tracker, an electromagnetic calorimeter and an external veto for cosmic rays. The calorimeter plays an important role in providing excellent particle identification capabilities, a fast online trigger filter while aiding the track reconstruction capabilities. It consists of 1348 pure CsI crystals divided in two annular disks, each one readout by two large area Silicon Photomultipliers. A large scale prototype has been tested with an electron beam , demonstrating to largely satisfy the Mu2e requirements. At the moment of writing, the crystals and SiPMs production phase is halfway through the completion. An overview of the characterization tests is reported, together with a description of the final mechanical and electronical design.

Published

2020

8. Quality Assurance on Undoped CsI Crystals for the Mu2e Experiment

Author

N. Atanov, V. Baranov, J. Budagov, D. Caiulo, F. Cervelli, F. Colao, M. Cordelli, G. Corradi, Yu. I. Davydov, S. Di Falco, E. Diociaiuti, S. Donati, R. Donghia, B. Echenard, S. Giovannella, V. Glagolev, F. Grancagnolo, F. Happacher, D. Hitlin, C. Hu, M. Martini, S. Miscetti, T. Miyashita, L. Morescalchi, P. Murat, E. Pedreschi, G. Pezzullo, F. Porter, F. Raffaelli, M. Ricci, A. Saputi, I. Sarra, F. Spinella, G. Tassielli, V. Tereshchenko, Z. Usubov, I. I. Vasilyev, L. Zhang, R. Y. Zhu, Atanov, N., Baranov, V., Budagov, J., Caiulo, D., Cervelli, F., Colao, F., Cordelli, M., Corradi, G., Davydov, Yu. I., Di Falco, S., Diociaiuti, E., Donati, S., Donghia, R., Echenard, B., Giovannella, S., Glagolev, V., Grancagnolo, F., Happacher, F., Hitlin, D., Hu, C., Martini, M., Miscetti, S., Miyashita, T., Morescalchi, L., Murat, P., Pedreschi, E., Pezzullo, G., Porter, F., Raffaelli, F., Ricci, M., Saputi, A., Sarra, I., Spinella, F., Tassielli, G., Tereshchenko, V., Usubov, Z., Vasilyev, I. I., Zhang, L., and Zhu, R. Y.

Subjects

Nuclear and High Energy Physics, Materials science, Physics - Instrumentation and Detectors, Silicon, Physics::Instrumentation and Detectors, Photoconductivity, Crystals, Correlation, Photoconductivity, Energy resolution, Silicon carbide, Current measurement, Radiation effects, chemistry.chemical_element, FOS: Physical sciences, Radiation effects, Silicon carbide, 01 natural sciences, Crystals, 030218 nuclear medicine & medical imaging, High Energy Physics - Experiment, Crystal, 03 medical and health sciences, High Energy Physics - Experiment (hep-ex), 0302 clinical medicine, Ionization, Condensed Matter::Superconductivity, 0103 physical sciences, Mu2e, Neutron, Electrical and Electronic Engineering, Energy resolution, Radiation hardening, Scintillation, 010308 nuclear & particles physics, business.industry, Instrumentation and Detectors (physics.ins-det), Current measurement, 3. Good health, Calorimeter, Correlation, Nuclear Energy and Engineering, chemistry, Optoelectronics, business

Abstract

The Mu2e experiment is constructing a calorimeter consisting of 1,348 undoped CsI crystals in two disks. Each crystal has a dimension of 34 x 34 x 200 mm, and is readout by a large area silicon PMT array. A series of technical specifications was defined according to physics requirements. Preproduction CsI crystals were procured from three firms: Amcrys, Saint-Gobain and Shanghai Institute of Ceramics. We report the quality assurance on crystal's scintillation properties and their radiation hardness against ionization dose and neutrons. With a fast decay time of 30 ns and a light output of more than 100 p.e./MeV measured with a bi-alkali PMT, undoped CsI crystals provide a cost-effective solution for the Mu2e experiment., Comment: 7 pages, 16 figures, published in IEEE TNS NS (2018)

Published

2018

9. The Mu2e undoped CsI crystal calorimeter

Author

Gianantonio Pezzullo, F. Happacher, A. Saputi, M. Cordelli, G. F. Tassielli, S. Donati, E. Pedreschi, F. Colao, F. Spinella, G. Corradi, T. S. Miyashita, V. Glagolev, Luca Morescalchi, F. Grancagnolo, Marco Martini, V. Tereshchenko, D. G. Hitlin, Z. Usubov, Frank C. Porter, R. Donghia, P. Murat, Yu.I. Davydov, S. Giovannella, E. Diociaiuti, I. Sarra, Bertrand Echenard, J. Budagov, F. Cervelli, M. Ricci, S. Miscetti, V. Baranov, F. Raffaelli, Ren-Yuan Zhu, S. Di Falco, N. Atanov, Atanov, N., Baranov, V., Budagov, J., Cervelli, F., Colao, F., Cordelli, M., Corradi, G., Davydov, Y. I., Falco, S. Di, Diociaiuti, E., Donati, S., Donghia, R., Echenard, B., Giovannella, S., Glagolev, V., Grancagnolo, F., Happacher, F., Hitlin, D. G., Martini, M., Miscetti, S., Miyashita, T., Morescalchi, L., Murat, P., Pedreschi, E., Pezzullo, G., Porter, F., Raffaelli, F., Ricci, M., Saputi, A., Sarra, I., Spinella, F., Tassielli, G., Tereshchenko, V., Usubov, Z., and Zhu, R. Y.

Subjects

Physics - Instrumentation and Detectors, Physics::Instrumentation and Detectors, Performance of High Energy Physics Detector, FOS: Physical sciences, Solenoid, 01 natural sciences, 7. Clean energy, Particle identification, Silicon photomultiplier, Optics, 0103 physical sciences, Mu2e, Fermilab, 010306 general physics, Instrumentation, Mathematical Physics, Physics, Calorimeter, Muon, Calorimeter (particle physics), 010308 nuclear & particles physics, business.industry, Detector, Instrumentation and Detectors (physics.ins-det), High Energy Physics::Experiment, business

Abstract

The Mu2e experiment at Fermilab will search for Charged Lepton Flavor Violating conversion of a muon to an electron in an atomic field. The Mu2e detector is composed of a tracker, an electromagnetic calorimeter and an external system, surrounding the solenoid, to veto cosmic rays. The calorimeter plays an important role to provide: a) excellent particle identification capabilities; b) a fast trigger filter; c) an easier tracker track reconstruction. Two disks, located downstream of the tracker, contain 674 pure CsI crystals each. Each crystal is read out by two arrays of UV-extended SiPMs. The choice of the crystals and SiPMs has been finalized after a thorough test campaign. A first small scale prototype consisting of 51 crystals and 102 SiPM arrays has been exposed to an electron beam at the BTF (Beam Test Facility) in Frascati. Although the readout electronics were not the final, results show that the current design is able to meet the timing and energy resolution required by the Mu2e experiment., Comment: 6 pages, 8 figures, proceedings of the "Calorimetry for the high energy frontier (CHEF17)" conference, 2-6 October 2017, Lyon, France

Published

2018

10. Design and status of the Mu2e crystal calorimeter

Author

Z. Usubov, G. Corradi, V. Glagolev, M. Ricci, R. Donghia, E. Pedreschi, T. S. Miyashita, S. Miscetti, F. Raffaelli, E. Diociaiuti, A. Saputi, M. Cordelli, G. F. Tassielli, Frank C. Porter, Luca Morescalchi, V. Baranov, F. Grancagnolo, S. Donati, S. Di Falco, Marco Martini, N. Atanov, J. Budagov, Ren-Yuan Zhu, D. G. Hitlin, S. Giovannella, V. Tereshchenko, Gianantonio Pezzullo, F. Spinella, F. Cervelli, I. Sarra, P. Murat, F. Happacher, Yu.I. Davydov, F. Colao, B. Echenard, Atanov, N., Baranov, V., Budagov, J., Davydov, Yu. I., Glagolev, V., Tereshchenko, V., Usubov, Z., Cervelli, F., Di Falco, S., Donati, S., Morescalchi, L., Pedreschi, E., Pezzullo, G., Raffaelli, F., Spinella, F., Colao, F., Cordelli, M., Corradi, G., Diociaiuti, E., Donghia, R., Giovannella, S., Happacher, F., Martini, M., Miscetti, S., Ricci, M., Saputi, A., Sarra, I., Echenard, B., Hitlin, D. G., Miyashita, T., Porter, F., Zhu, R. Y., Grancagnolo, F., Tassielli, G., and Murat, P.

Subjects

Nuclear and High Energy Physics, Physics - Instrumentation and Detectors, Physics::Instrumentation and Detectors, FOS: Physical sciences, Solenoid, Electron, 7. Clean energy, 01 natural sciences, Particle identification, High Energy Physics - Experiment, Nuclear physics, High Energy Physics - Experiment (hep-ex), Silicon photomultiplier, Crystal, 0103 physical sciences, Mu2e, Fermilab, Energy resolution, Electrical and Electronic Engineering, 010306 general physics, Nuclear and High Energy Physic, Physics, Muon, Calorimeter (particle physics), 010308 nuclear & particles physics, Detector, Instrumentation and Detectors (physics.ins-det), Meson, Cosmic ray, Nuclear Energy and Engineering, High Energy Physics::Experiment, Aluminum

Abstract

The Mu2e experiment at Fermilab searches for the charged-lepton flavour violating (CLFV) conversion of a negative muon into an electron in the field of an aluminum nucleus, with a distinctive signature of a mono-energetic electron of energy slightly below the muon rest mass (104.967 MeV). The Mu2e goal is to improve by four orders of magnitude the search sensitivity with respect to the previous experiments. Any observation of a CLFV signal will be a clear indication of new physics. The Mu2e detector is composed of a tracker, an electro- magnetic calorimeter and an external veto for cosmic rays surrounding the solenoid. The calorimeter plays an important role in providing particle identification capabilities, a fast online trigger filter, a seed for track reconstruction while working in vacuum, in the presence of 1 T axial magnetic field and in an harsh radiation environment. The calorimeter requirements are to provide a large acceptance for 100 MeV electrons and reach at these energies: (a) a time resolution better than 0.5 ns; (b) an energy resolution < 10% and (c) a position resolution of 1 cm. The calorimeter design consists of two disks, each one made of 674 undoped CsI crystals read by two large area arrays of UV-extended SiPMs. We report here the construction and test of the Module-0 prototype. The Module-0 has been exposed to an electron beam in the energy range around 100 MeV at the Beam Test Facility in Frascati. Preliminary results of timing and energy resolution at normal incidence are shown. A discussion of the technical aspects of the calorimeter engineering is also reported in this paper., 8 pages, 16 figures, submitted to IEEE

Published

2018

11. The calorimeter of the Mu2e experiment at Fermilab

Author

S. Donati, Yu.I. Davydov, Bertrand Echenard, J. Budagov, S. Miscetti, F. Raffaelli, R. Donghia, A. Saputi, I. Sarra, Luca Morescalchi, V. Tereshchenko, Z. Usubov, F. Grancagnolo, M. Cordelli, G. F. Tassielli, E. Diociaiuti, V. Glagolev, S. Di Falco, F. Cervelli, F. Colao, Frank C. Porter, Ren-Yuan Zhu, G. Corradi, N. Atanov, M. Martini, E. Dané, F. Spinella, V. Baranov, D. G. Hitlin, S. Giovannella, K. T. Flood, Gianantonio Pezzullo, F. Happacher, Tommaso Radicioni, M. Ricci, T. S. Miyashita, P. Murat, Atanov, N., Baranov, V., Budagov, J., Cervelli, F., Colao, F., Cordelli, M., Corradi, G., Dané, E., Davydov, Y. I., Falco, S. Di, Diociaiuti, E., Donati, S., Donghia, R., Echenard, B., Flood, K., Giovannella, S., Glagolev, V., Grancagnolo, F., Happacher, F., Hitlin, D. G., Martini, M., Miscetti, S., Miyashita, T., Morescalchi, L., Murat, P., Pezzullo, G., Porter, F., Raffaelli, F., Radicioni, T., Ricci, M., Saputi, A., Sarra, I., Spinella, F., Tassielli, G., Tereshchenko, V., Usubov, Z., and Zhu, R. Y.

Subjects

Physics - Instrumentation and Detectors, Physics::Instrumentation and Detectors, FOS: Physical sciences, Cosmic ray, Electron, 01 natural sciences, 7. Clean energy, Radiation-hard detector, Nuclear physics, Calorimeters, Radiation-hard detectors, Instrumentation, Mathematical Physics, 0103 physical sciences, Mu2e, Fermilab, 010306 general physics, Physics, Calorimeter, Muon, Calorimeter (particle physics), 010308 nuclear & particles physics, Instrumentation and Detectors (physics.ins-det), Orders of magnitude (time), High Energy Physics::Experiment, Lepton

Abstract

The Mu2e experiment at Fermilab looks for Charged Lepton Flavor Violation (CLFV) improving by 4 orders of magnitude the current experimental sensitivity for the muon to electron conversion in a muonic atom. A positive signal could not be explained in the framework of the current Standard Model of particle interactions and therefore would be a clear indication of new physics. In 3 years of data taking, Mu2e is expected to observe less than one background event mimicking the electron coming from muon conversion. Achieving such a level of background suppression requires a deep knowledge of the experimental apparatus: a straw tube tracker, measuring the electron momentum and time, a cosmic ray veto system rejecting most of cosmic ray background and a pure CsI crystal calorimeter, that will measure time of flight, energy and impact position of the converted electron. The calorimeter has to operate in a harsh radiation environment, in a 10-4 Torr vacuum and inside a 1 T magnetic field. The results of the first qualification tests of the calorimeter components are reported together with the energy and time performances expected from the simulation and measured in beam tests of a small scale prototype., Comment: 11 pages, 7 figures, proceedings of 14th Topical Seminar on Innovative Particle and Radiation Detectors (IPRD16) 3 - 6 October 2016 Siena, Italy, Journal of Instrumentation, Volume 12, January 2017 http://stacks.iop.org/1748-0221/12/i=01/a=C01061

Published

2017

12. Design and status of the Mu2e Calorimeter

Author

S. Donati, Gianantonio Pezzullo, G. Corradi, Luca Morescalchi, N. Atanov, S. Giovannella, Yu.I. Davydov, J. Budagov, F. Raffaelli, V. Glagolev, S. Miscetti, A. Saputi, S. Di Falco, M. Martini, F. Cervelli, I. Sarra, M. Cordelli, F. Happacher, G. F. Tassielli, E. Diociaiuti, F. Colao, E. Pedreschi, B. Echenard, F. Grancagnolo, D. G. Hitlin, F. Spinella, R. Donghia, V. Tereshchenko, Ren-Yuan Zhu, Z. Usubov, M. Ricci, T. S. Miyashita, P. Murat, F. C. Porter, V. A. Baranov, Atanov, N., Baranov, V., Budagov, J., Davydov, Y. I., Glagolev, V., Tereshchenko, V., Usubov, Z., Cervelli, F., Falco, S. D., Donati, S., Morescalchi, L., Pedreschi, E., Pezzullo, G., Raffaelli, F., Spinella, F., Colao, F., Cordelli, M., Corradi, G., Diociaiuti, E., Donghia, R., Giovannella, S., Happacher, F., Martini, M., Miscetti, S., Ricci, M., Saputi, A., Sarra, I., Echenard, B., Hitlin, D. G., Miyashita, T., Porter, F., Zhu, R. Y., Grancagnolo, F., Tassielli, G., and Murat, P.

Subjects

Range (particle radiation), Materials science, Calorimeter (particle physics), Physics::Instrumentation and Detectors, 010308 nuclear & particles physics, business.industry, Radiation, 01 natural sciences, Optics, Silicon photomultiplier, 0103 physical sciences, Mu2e, Cathode ray, Calibration, business, 010303 astronomy & astrophysics, Beam (structure)

Abstract

The Mu2e calorimeter is composed by $\sim 1400$ un- doped CsI crystals coupled to large area UV extended Silicon Photomultipliers(SIPMs) arranged intwo annular disks. This calorimeter has to provide precise information on energy, timing and position resolution. It should also be fast enough towithstand the high rate background and it mustoperate and survive in a high radiation environment. All steps done for the construction and test of the Module -0 prototype, that is an array of51 pre-production crystals, are reported. The Module -0 was exposed to an electron beam in the energy range around 100 MeV at the BTF (Beam Test Facility) inFrascati. Preliminary results of timing and energy resolution at normal incidence are shown.

Published

2017

13. Design and status of the Mu2e electromagnetic calorimeter

Author

Luca Morescalchi, R. Donghia, V. Tereshchenko, T. S. Miyashita, F. Colao, D. Pasciuto, M. Cordelli, G. F. Tassielli, I. Sarra, B. Echenard, P. Murat, F. C. Porter, V. A. Baranov, N. Atanov, D. G. Hitlin, S. Donati, S.R. Soleti, A. Saputi, Z. Usubov, M. Martini, R. Carosi, S. Di Falco, F. Cervelli, Gianantonio Pezzullo, Ren-Yuan Zhu, G. Corradi, J. Budagov, F. Happacher, S. Giovannella, Yu.I. Davydov, E. Dané, V. Glagolev, F. Grancagnolo, K. T. Flood, S. Miscetti, F. Spinella, Atanov, N., Baranov, V., Budagov, J., Carosi, R., Cervelli, F., Colao, F., Cordelli, M., Corradi, G., Dané, E., Davydov, Yu. I., Di Falco, S., Donati, S., Donghia, R., Echenard, B., Flood, K., Giovannella, S., Glagolev, V., Grancagnolo, F., Happacher, F., Hitlin, D. G., Martini, M., Miscetti, S., Miyashita, T., Morescalchi, L., Murat, P., Pasciuto, D., Pezzullo, G., Porter, F., Saputi, A., Sarra, I., Soleti, S. R., Spinella, F., Tassielli, G., Tereshchenko, V., Usubov, Z., and Zhu, R. Y.

Subjects

Scintillating crystal, Nuclear and High Energy Physics, Physics - Instrumentation and Detectors, APDS, Physics::Instrumentation and Detectors, Silicon photomultipliers, FOS: Physical sciences, Calorimetry, Silicon photomultiplier, 7. Clean energy, 01 natural sciences, Particle identification, law.invention, High Energy Physics - Experiment, Nuclear physics, High Energy Physics - Experiment (hep-ex), law, Scintillating crystals, 0103 physical sciences, Mu2e, Fermilab, 010306 general physics, Instrumentation, Nuclear and High Energy Physic, Physics, Calorimeter (particle physics), 010308 nuclear & particles physics, Avalanche photodiodes, Avalanche photodiode, Instrumentation and Detectors (physics.ins-det), Lepton flavour violation

Abstract

The Mu2e experiment at Fermilab aims at measuring the neutrinoless conversion of a negative muon into an electron and reach a single event sensitivity of 2.5x10^{-17} after three years of data taking. The monoenergetic electron produced in the final state, is detected by a high precision tracker and a crystal calorimeter, all embedded in a large superconducting solenoid (SD) surrounded by a cosmic ray veto system. The calorimeter is complementary to the tracker, allowing an independent trigger and powerful particle identification, while seeding the track reconstruction and contributing to remove background tracks mimicking the signal. In order to match these requirements, the calorimeter should have an energy resolution of O(5)% and a time resolution better than 500 ps at 100 MeV. The baseline solution is a calorimeter composed of two disks of BaF2 crystals read by UV extended, solar blind, Avalanche Photodiode (APDs), which are under development from a JPL, Caltech, RMD consortium. In this paper, the calorimeter design, the R&D studies carried out so far and the status of engineering are described. A backup alternative setup consisting of a pure CsI crystal matrix read by UV extended Hamamatsu MPPC's is also presented., 5 pages, 6 figures

Published

2016

14. Electron beam test of the large area Mu2e calorimeter prototype

Author

R. Donghia, V. Tereshchenko, M. Corradi, I. I. Vasilyev, A. Saputi, M. Cordelli, P. Murat, S. Di Falco, F. C. Porter, M. Ricci, F. Cervelli, V. A. Baranov, Z. Usubova, J. Budagov, F. Raffaelli, T. S. Miyashita, Luca Morescalchi, F. Happacher, G. Tassielli, D. Caiulo, S. Miscetti, S. Donati, M. Martini, Gianantonio Pezzullo, V. V. Glagolev, N. Atanov, S. Giovannella, F. Spinella, Yu.I. Davydov, Ren-Yuan Zhu, F. Colao, E. Pedreschi, E. Diociaiuti, B. Echenard, D. G. Hitlin, I. Sarra, F. Grancagnolo, Atanov, N., Baranov, V., Budagov, J., Caiulo, D., Cervelli, F., Colao, F., Cordelli, M., Corradi, G., Davydov, Yu. I., Di Falco, S., Diociaiuti, E., Donati, S., Donghia, R., Echenard, B., Giovannella, S., Glagolev, V., Grancagnolo, F., Happacher, F., Hitlin, D., Martini, M., Miscetti, S., Miyashita, T., Morescalchi, L., Murat, P., Pedreschi, E., Pezzullo, G., Porter, F., Raffaelli, F., Ricci, M., Saputi, A., Sarra, I., Spinella, F., Tassielli, G., Tereshchenko, V., Usubov, Z., Vasilyev, I. I., and Zhu, R. Y.

Subjects

Physics, History, Range (particle radiation), Calorimeter (particle physics), 010308 nuclear & particles physics, business.industry, Physics::Instrumentation and Detectors, Resolution (electron density), Monte Carlo method, 01 natural sciences, Computer Science Applications, Education, Silicon photomultiplier, Optics, 0103 physical sciences, Mu2e, Cathode ray, 010306 general physics, business, Beam (structure)

Abstract

The Mu2e calorimeter consists of 1348 pure CsI crystals coupled to two large area UV-extended Silicon Photomultipliers (SiPMs) organized in two separate annular disks. An intense R&D phase has been pursued to check if this configuration satisfies the Mu2e requirements. In May 2017, a dedicated test has been performed at the Beam Test Facility (BTF) in Frascati (Italy) where the large calorimeter prototype (Module-0) has been exposed to an electron beam in the energy range between 60 and 120 MeV. The prototype consists of 51 crystals, each one readout by two Mu2e SiPMs. We present results for timing and energy resolution both for electrons at normal incidence (0°) and at a grazing impact angle (50°) more similar to the experiment configuration. At 100 MeV, an energy resolution of 5.4% (7.4%) at normal (grazing) incidence has been achieved in good agreement with Monte Carlo expectation. In the same energy range, a time resolution of ~ XX ps (~ YY ps) has been measured at normal incidence with 1 GHz (250 MHz) sampling rate. Dependence of time and energy resolutions as a function of beam energy and impinging angle are also presented.