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1. Diamond Detectors for Radiotherapy X-Ray Small Beam Dosimetry

Author

C. Talamonti, K. Kanxheri, S. Pallotta, and L. Servoli

Subjects
diamond, radiotherapy dosimetry, small field, cvd, polycrystalline, single-cristal, Physics, QC1-999
Abstract

Many new X-Ray treatment machines using small and/or non-standard radiation fields, e.g., Tomotherapy, Cyber-knife, and linear accelerators equipped with high-resolution multi-leaf collimators and on-board imaging system, have been introduced in the radiotherapy clinical routine within the last few years. The introduction of these new treatment modalities has led to the development of high conformal radiotherapy treatment techniques like Intensity Modulated photon Radiation Therapy, Volumetric Modulated Arc Therapy, and stereotactic radiotherapy. When using these treatment techniques, patients are exposed to non-uniform radiation fields, high dose gradients, time and space variation of dose rates, and beam energy spectrum. This makes reaching the required degree of accuracy in clinical dosimetry even more demanding. Continuing to use standard field procedures and detectors in fields smaller than 3 × 3 cm2, will generate a reduced accuracy of clinical dosimetry, running the risk to overshadowing the progress made so far in radiotherapy applications. These dosimetric issues represent a new challenge for medical physicists. To choose the most appropriate detector for small field dosimetry, different features must be considered. Short- and long-term stability, linear response to the absorbed dose and dose rate, no energy and angular dependence, are all needed but not sufficient. The two most sought-after attributes for small field dosimetry are water equivalence and small highly sensitive (high sensitivity) volumes. Both these requirements aim at minimizing perturbations of charged particle fluence approaching the Charged Particle Equilibrium condition as much as possible, while maintaining high spatial resolution by reducing the averaging effect for non-uniform radiation fields. A compromise between different features is necessary because no dosimeter currently fulfills all requirements, but diamond properties seem promising and could lead to a marked improvement. Diamonds have long been used as materials for dosimeters, but natural diamonds were only first used for medical applications in the 80 s. The availability of reproducible synthetic diamonds at a lower cost compared to natural ones made the diffusion of diamonds in dosimetry possible. This paper aims to review the use of synthetic poly and single-crystal diamond dosimeters in radiotherapy, focusing on their performance under MegaVoltage photon beams. Both commercial and prototype diamond dosimeters behaviour are described and analyzed. Moreover, this paper will report the main related results in literature, considering diamond development issues like growth modalities, electrical contacts, packaging, readout electronics, and how do they affect all the dosimetric parameters of interest such as signal linearity, energy dependence, dose-rate dependence, reproducibility, rise and decay times.

Published
2021
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2. End-to-end test for lung SBRT: An Italian multicentric pilot experience

Author

S, Pallotta, S, Calusi, L, Marrazzo, C, Talamonti, S, Russo, M, Esposito, C, Fiandra, F R, Giglioli, M, Pimpinella, V, De Coste, A, Bruschi, S, Barbiero, P, Mancosu, M, Stasi, and R, Lisci

Subjects
Italy, Biophysics, Humans, General Physics and Astronomy, Radiology, Nuclear Medicine and imaging, General Medicine, Lung
Abstract

Set up a lung SBRT end-to-end (e2e) test and perform a multicentre validation.A group of medical physicists from four hospitals and the Italian Institute of Ionizing Radiation Metrology designed the present e2e test. One sub-group set up the test, while another tested its feasibility and ease of use. A satisfaction questionnaire was used to collect user feedback. Each participating centre (PC) received the ADAM breathing phantom, a microDiamond detector and radiochromic films. Following the e2e protocol, each PC performed its standard internal procedure for simulating, planning, and irradiating the phantom. Each PC uploaded its planning and treatment delivery data in a shared Google Drive. A single centre analyzed all the data.The e2e test was successfully performed by all PCs. Participants' comments indicated that ADAM was well suited to the purpose and the protocol well described. All PCs performed the test in static and dynamic modes. The ratio between measured and planned point dose obtained by PC1, PC2, PC3, PC4 was: 0.99, 0.96, 1.01 and 1.01 (static track) and 0.99, 1.02, 1.01 and 0.94 (dynamic track). The gamma passing rates (3 % global, 3 mm) between planned and measured dose maps were 98.5 %, 94.0 %, 99.1 % and 94.0 % (static track) and 99.5 %, 96.5 %, 86.0 % and 94.5 % (dynamic track) for PC1, PC2, PC3 and PC4, respectively.An e2e test for lung SBRT has been proposed and tested in a multicentre framework. The results and user feedback prove the validity of the proposed e2e test.

Published
2022

3. A semi-automatic planning technique for whole breast irradiation with tangential IMRT fields

Author

L. Marrazzo, L. Redapi, M. Zani, S. Calusi, I. Meattini, C. Arilli, M. Casati, A. Compagnucci, C. Talamonti, D. Raspanti, S. Pertutti, V. Di Cataldo, L. Livi, and S. Pallotta

Subjects
Organs at Risk, Radiotherapy Planning, Computer-Assisted, Biophysics, General Physics and Astronomy, Breast Neoplasms, Heart, Radiotherapy Dosage, Planning Techniques, General Medicine, Breath Holding, Unilateral Breast Neoplasms, Humans, Female, Radiology, Nuclear Medicine and imaging, Radiotherapy, Intensity-Modulated
Abstract

To implement a semi-automatic planning technique for whole breast irradiation with two tangential IMRT fields and to test the produced dose distribution against clinical 3DCRT plans, for introducing the technique in clinical practice.The Auto-Planning module of the PinnacleA statistically significant improvement in target coverage and dose homogeneity was observed for autoIMRT. No statistically significant differences were observed for ipsilateral organs, except for the ipsilateral lung in left DIBH, where slightly lower DThe developed autoIMRT technique was proven to be advantageous for target coverage and homogeneity and sufficiently robust towards isocenter displacements. The use of automated planning consistently reduces the planning workload with improvements in plan quality.

Published
2022

4. Neutron irradiation of Hydrogenated Amorphous Silicon p-i-n diodes and charge selective contacts detectors

Author

M. Menichelli, M. Bizzarri, M. Boscardin, L. Calcagnile, M. Caprai, A.P. Caricato, G.A.P. Cirrone, M. Crivellari, I. Cupparo, G. Cuttone, S. Dunand, L. Fanò, B. Gianfelici, O. Hammad, M. Ionica, K. Kanxheri, M. Large, G. Maruccio, A.G. Monteduro, F. Moscatelli, A. Morozzi, A. Papi, D. Passeri, M. Pedio, M. Petasecca, G. Petringa, F. Peverini, G. Quarta, S. Rizzato, A. Rossi, G. Rossi, A. Scorzoni, L. Servoli, C. Talamonti, G. Verzellesi, and N. Wyrsch

Subjects
Nuclear and High Energy Physics, Instrumentation
Published
2023

5. A 3D diamond dosimeter with graphitic surface connections

Author

A. Porter, K. Kanxheri, I. Lopez Paz, A. Oh, L. Servoli, and C. Talamonti

Subjects
Diamond dosimetry graphitic 3D detector CVD, Mechanical Engineering, Materials Chemistry, General Chemistry, Electrical and Electronic Engineering, Electronic, Optical and Magnetic Materials
Published
2023

8. Testing of planar hydrogenated amorphous silicon sensors with charge selective contacts for the construction of 3D-detectors

Author

M. Menichelli, M. Bizzarri, M. Boscardin, M. Caprai, A.P. Caricato, G.A.P. Cirrone, M. Crivellari, I. Cupparo, G. Cuttone, S. Dunand, L. Fanò, O. Hammad, M. Ionica, K. Kanxheri, M. Large, G. Maruccio, A.G. Monteduro, A. Morozzi, F. Moscatelli, A. Papi, D. Passeri, M. Petasecca, G. Petringa, G. Quarta, S. Rizzato, A. Rossi, G. Rossi, A. Scorzoni, L. Servoli, C. Talamonti, G. Verzellesi, N. Wyrsch, Menichelli, M., Bizzarri, M., Boscardin, M., Caprai, M., Caricato, A. P., Cirrone, G. A. P., Crivellari, M., Cupparo, I., Cuttone, G., Dunand, S., Fan??, L., Hammad, O., Ionica, M., Kanxheri, K., Large, M., Maruccio, G., Monteduro, A. G., Morozzi, A., Moscatelli, F., Papi, A., Passeri, D., Petasecca, M., Petringa, G., Quarta, G., Rizzato, S., Rossi, A., Rossi, G., Scorzoni, A., Servoli, L., Talamonti, C., Verzellesi, G., and Wyrsch, N.

Subjects
Physics - Instrumentation and Detectors, Physics::Instrumentation and Detectors, FOS: Physical sciences, Radiation-hard detectors, Solid state detectors, Instrumentation and Detectors (physics.ins-det), Solid state detectors, Instrumentation, Radiation-hard detectors, Mathematical Physics
Abstract

Hydrogenated Amorphous Silicon (a-Si:H) is a material well known for its intrinsic radiation hardness and is primarily utilized in solar cells as well as for particle detection and dosimetry. Planar p-i-n diode detectors are fabricated entirely by means of intrinsic and doped PECVD of a mixture of Silane (SiH4) and molecular Hydrogen. In order to develop 3D detector geometries using a-Si:H, two options for the junction fabrication have been considered: ion implantation and charge selective contacts through atomic layer deposition. In order to test the functionality of the charge selective contact electrodes, planar detectors have been fabricated utilizing this technique. In this paper, we provide a general overview of the 3D fabrication project followed by the results of leakage current measurements and x-ray dosimetric tests performed on planar diodes containing charge selective contacts to investigate the feasibility of the charge selective contact methodology for integration with the proposed 3D detector architectures., Submitted to JINST

Published
2022

9. Automatic planning process for glioblastoma VMAT irradiation

Author

C. Arilli, L. Marrazzo, S. Scoccianti, M. Casati, A. Compagnucci, C. Talamonti, L. Livi, and S. Pallotta

Subjects
Biophysics, General Physics and Astronomy, Radiology, Nuclear Medicine and imaging, General Medicine
Published
2021

10. Multicenter QA protocol for lung SBRT

Author

S. Pallotta, S. Calusi, L. Marrazzo, C. Talamonti, S. Russo, M. Esposito, C. Fiandra, F.R. Giglioli, M. Pimpinella, V. De Coste, A. Bruschi, M. Stasi, P. Mancosu, and R. Lisci

Subjects
Biophysics, General Physics and Astronomy, Radiology, Nuclear Medicine and imaging, General Medicine
Published
2021

11. 3D diamond detectors for small field dosimetry

Author

K. Kanxheri, C. Talamonti, S. Sciortino, S. Lagomarsino, M. Ionica, M. Caprai, F. Moscatelli, and L. Servoli

Subjects
Biophysics, General Physics and Astronomy, Radiology, Nuclear Medicine and imaging, General Medicine
Published
2021

12. RadiomiK phantom to test the robustness of CT radiomic features

Author

S. Pallotta, M. Benelli, A. Taddeucci, S. Doria, S. Calusi, L. Marrazzo, C. Talamonti, G. Belli, D. Cusumano, J. Lenkowicz, M. de Spirito, N. Zoppetti, and A. Barucci

Subjects
Biophysics, General Physics and Astronomy, Radiology, Nuclear Medicine and imaging, General Medicine
Published
2021

14. 40. Design of a national survey to assess the technology applied to SBRT

Author

C. Iervolino, S. Bresciani, F. Saiani, D. Corletto, S. Russo, E. Infusino, R. Consorti, A. Delana, A. Savini, M. Stasi, I. Redaelli, B. Nardiello, D. Fedele, E.M.L. Vaccara, G. Pastore, L. Masi, P. Mancosu, C. Zucchetti, P. Bagalà, I. Veronese, L. Manco, Savino Cilla, S. Aimonetto, D. Panizza, S. Broggi, Stefania Clemente, F.R. Giglioli, E. Cagni, M.D. Falco, C. Gasperi, C. Siragusa, S. Giancaterino, S. Agostinelli, A. Radice, E. Villaggi, C. Carbonini, L. Strigari, E. Moretti, C. Talamonti, C. Marino, S. Barbiero, C. Garibaldi, A. Mameli, M. Casale, G. Borzi, E. Menghi, F. Rosica, G. Benecchi, M. Fusella, L. Paladini, and M. Esposito

Subjects
medicine.medical_specialty, Computer science, Stereotactic body radiation therapy, Biophysics, General Physics and Astronomy, General Medicine, Delivery mode, Medical physicist, medicine, Field size, Radiology, Nuclear Medicine and imaging, Medical physics, National level, Delivery system, Radiation treatment planning, Image-guided radiation therapy
Abstract

Purpose Stereotactic body radiation therapy (SBRT) approach for treating early stage solid tumor and metastases is increasing worldwide. In 2013 the Italian Association of Medical Physicists (AIFM) constituted a working group in order to standardize SBRT dosimetric aspects. A survey was designed aiming to delineate the status of the technology applied in SBRT on a national level. Clinical evaluation of SBRT was out of the present study. Methods A questionnaire was designed by three medical physicists expert of SBRT using Google Forms containing questions regarding image-guidance solutions, respiratory management, delivery mode, treatment planning system (TPS) commissioning, and QA approach. A large number of medical physicists from 54 centers with heterogeneous technology was invited to participate and 45 of them completed the survey. Experts were asked to provide suggestions based on personal experience and specificity. Results After two webcall and two versions, the final questionnaire was developed. Results showed great heterogeneity in terms of technologies, image-guidance solutions, respiratory management, delivery mode, TPS commissioning and QA approach. The most available delivery system was conventional linacs with VMAT modality; the most common energies used were 6 MV and 6 MV-FFF; for the 56% of centers robotic couch was available, CBCT was the most used IGRT technique (78% of centers) and 40% of centers did not use respiratory management during treatment delivery. The smallest measured field size for lateral beam profiles was lower than 1 × 1 cm2, while only the 62% of centers used the same field size for the TPS commissioning (from 1 × 1 cm2 to 4 × 4 cm2). A large number of centers (51%) feel the necessity to upgrade their dosimetric devices dedicated to SBRT QA. Conclusions This survey on SBRT could allow to improve the QA procedure and to define minimum requirements for SBRT dosimetric verification.

Published
2018

15. 161. A crowd-knowledge-based analysis of DVHs in SBRT: First steps towards a national virtual audit

Author

A. Savini, M. Fusella, M. Esposito, V. Ardu, G. Benecchi, A. Bergantin, G.R. Borzi, S. Bresciani, E. Cagni, C. Carbonini, M. Casati, S. Clemente, R. Consorti, S. Cora, E. DeMartin, R. ElGawhary, M.D. Falco, D. Fedele, C. Fiandra, M.C. Frassanito, C. Garibaldi, G. Gasperi, F.R. Giglioli, G. Guidi, I. Ielo, V. Landoni, S. Magi, T. Malatesta, C. Marino, L. Masi, E. Moretti, S. Naccarato, B. Nardiello, R. Nigro, G. Pastore, M. Presello, V. Ravaglia, S. Russo, L. Strigari, S. Strolin, C. Talamonti, A. Vaiano, S. Vigorito, E. Villaggi, M. Stasi, and P. Mancosu

Subjects
R language, medicine.medical_specialty, Computer science, Biophysics, General Physics and Astronomy, General Medicine, Audit, Target dose, Data sharing, Benchmark (surveying), medicine, Radiology, Nuclear Medicine and imaging, Medical physics, In patient, Radiation treatment planning, Stereotactic body radiotherapy
Abstract

Purpose Currently, most of the multicenter analyses on treatment planning rely on the extraction of selected data from the DVH of each plan. A grouped analysis can be biased due to different algorithms implemented in different TPSs used to generate the DVH. In this work we used a consistent method to present a preliminary analysis of multiple data coming from a national survey on stereotactic body radiotherapy (SBRT) planning. Methods A single spine case was shared among 36 radiation oncology centers. The dose prescription was 30 Gy in 3 fractions with specific constraints on target coverage and dose to nearby organs at risk. Data were collected in DICOM-RT format. A script was developed in R language using the RadOnc R-Package for recalculating the DVHs using the same algorithm. Specific DVH points (V30Gy, D90%, D2%) collected from the centers were compared with those recalculated with RadOnc. A grouped analysis of recalculated DVHs was performed therefore eliminating the bias due to different DVH calculation algorithms. Results Differences between collected and recalculated DVHs were minimal, however in some cases deviations up to 1.5% were observed. The multiple-DVH analysis showed a notable variability on target dose level (Fig. 1), up to 150% likely related to constraints on target coverage and SBRT technique. This variability was caused mainly by different planning optimization strategies, rather than by the use of a specific treatment technology. Conclusions The observed variability suggests that comparable standards in patient treatment among different centers can be obtained if a consistent high-level data sharing capability is granted. In the strive to harmonize the planning process, this analysis constitutes a first step toward the creation of a platform of crowd-knowledge-based planning guidelines. This platform could represent a high-quality benchmark for those centers that are willing to implement SBRT techniques (concept expressed in Fig. 1).

Published
2018

16. Small field relative dosimetry using a silicon diode of new generation

Author

C. Talamonti, M.D. Falco, A. Bartoli, S. Russo, C. Iervolino, E. Menghi, E. Moretti, E. Mones, C. Fiandra, M. Casale, G. Pastore, C. Oliviero, E. DiCastro, S. Luxardo, A. Vaiano, G.H. Raza, G. Borzi, C. Carbonini, R. Consorti, M.C. Pressello, C. Gasperi, L. Barone Tonghi, F. Palleri, C. Marino, V. Ardu, S. Linsalata, S. Riccardi, F. Vittorini, L. Spiazzi, F. Rosica, E. Villaggi, and P. Mancosu

Subjects
Engineering, Field (physics), business.industry, Instrumentation, Biophysics, Electrical engineering, General Physics and Astronomy, Isocenter, General Medicine, Square (algebra), Linear particle accelerator, Optics, Dosimetry, Radiology, Nuclear Medicine and imaging, business, Beam (structure), Diode
Abstract

Introduction Small field dosimetry is increasingly important due to the development of complex treatment techniques. Standard dosimetric procedures are mandatory to ensure the same treatment in each radiotherapy center. Purpose A multicentric study on small fields dosimetry for the major linear accelerator manufacturers, using two IBA unshielded silicon diode RAZOR in 30 different institutions in Italy is reported. Data were collected for each linac manufacturer and model with the main objective to provide indications to beginner institutions. Materials and methods In and cross-plane beam profiles and Relative Output ratios were measured for each field size at depth = 10 cm and at SSD = 90 cm. The long axis of the diode detector was placed parallel to the beam with the active volume positioned at the isocenter. The profiles were compared in terms of 80–20% penumbra. Output factors were calculated with respect to a jaw-collimated square field of 3 × 3 cm 2 and as a function of effective field size EOF. Results EOF of all linacs were in agreement within a few per mille from 5.6cm to 1cm FS. For FS below 1cm it is evident a different trend depending on different linac models. Data were fitted with a polynomial showing coefficients of determination R 2 > 0.98 . Penumbra measurements were in agreement each other for each FS and accelerator model. Conclusion Multicentric data have been collected with the same instrumentation and protocol setup, providing good accuracy in the measurements and allowing to create gold standard values to be used by those institutions who intend to implement new performing treatment techniques.

Published
2016

17. Definitive Concomitant Radiochemotherapy (RCT) Treatment for Locally Advanced (LA) Non Small Cell Lung Cancer (NSCLC): Evaluation of Hematological and Esophageal Toxicity in the Radiation Oncology Department of University of Florence Experience

Author

Gabriele Simontacchi, Vieri Scotti, C De Luca Cardillo, C. Talamonti, Benedetta Agresti, Ilaria Furfaro, Daniele Scartoni, and Lorenzo Livi

Subjects
Oncology, medicine.medical_specialty, business.industry, Locally advanced, non-small cell lung cancer (NSCLC), Hematology, medicine.disease, law.invention, Randomized controlled trial, law, Concomitant, Internal medicine, Toxicity, Radiation oncology, Medicine, business
Published
2015

18. A measurement of the direct photon production cross section at the CERN p̄p collider

Author

J. Alitti, G. Ambrosini, R. Ansari, D. Autiero, P. Bareyre, I. A. Bertram, G. Blaylock, P. Bonamy, M. Bonesini, K. Borer, M. Bourliaud, D. Buskulic, G. Carboni, D. Cavalli, V. Cavasinni, P. Cenci, J. C. Chollet, C. Contab, G. Costa, F. Costantini, L. Cozzi, A. Cravero, M. Curatolo, A. Dell'Acqua, T. DelPrete, R. S. DeWolf, L. DiLella, G. F. Egan, K. F. Einsweiler, B. Esposito, L. Fayard, A. Federspiel, R. Ferrari, M. Fraternali, D. Froidevaux, G. Fumagalli, J. M. Gaillard, F. Gianotti, O. Gildemeister, C. Gössling, V. G. Goggi, S. Grünendahll K. Hara, S. Hellman, J. Hrivnac, H. Hufnagel, E. Hugentobler, K. Hultqvist, E. Iacopini, J. Incandela, K. Jakobs, P. Jenni, E. E. Kluge, S. Lami, P. Lariccia, M. Lefebvre, L. Linssen, M. Livan, P. Lubrano, C. Magneville, L. Mandelli, L. Mapelli, M. Mazzanti, B. Meier, B. Merkel, J. P. Meyer, M. Moniez, R. Moning, M. Morganti, L. Müller, D. J. Munday, F. Nessi Tedaldi, C. Onions, T. Pal, M. A. Parker, G. Parrour, F. Pastore, E. Pennacchio, J. M. Pentney, M. Pepe, L. Perini, C. Petridou, P. Petroff, H. Plothow Besch, G. Polesello, A. Poppleton, K. Pretzl, M. Primavera, M. Punturo, J. P. Repellin, A. Rimoldi, M. Sacchi, J. Schacher, V. Simak, S. L. Singh, V. Sondermann, S. Stapnes, A. V. Stirling, C. Talamonti, F. Tondini, S. N. Tovey, E. Tsesmelis, G. Unal, M. Valdata Nappi, V. Vercesi, A. R. Weidberg, P. S. Wells, T. O. White, D. R. Wood, S. A. Wotton, H. Zaccone, A. Zylberstejn, SCAMPOLI, PAOLA, J., Alitti, G., Ambrosini, R., Ansari, D., Autiero, P., Bareyre, I. A., Bertram, G., Blaylock, P., Bonamy, M., Bonesini, K., Borer, M., Bourliaud, D., Buskulic, G., Carboni, D., Cavalli, V., Cavasinni, P., Cenci, J. C., Chollet, C., Contab, G., Costa, F., Costantini, L., Cozzi, A., Cravero, M., Curatolo, A., Dell'Acqua, T., Delprete, R. S., Dewolf, L., Dilella, G. F., Egan, K. F., Einsweiler, B., Esposito, L., Fayard, A., Federspiel, R., Ferrari, M., Fraternali, D., Froidevaux, G., Fumagalli, J. M., Gaillard, F., Gianotti, O., Gildemeister, C., Gössling, V. G., Goggi, S. Grünendahll K., Hara, S., Hellman, J., Hrivnac, H., Hufnagel, E., Hugentobler, K., Hultqvist, E., Iacopini, J., Incandela, K., Jakob, P., Jenni, E. E., Kluge, S., Lami, P., Lariccia, M., Lefebvre, L., Linssen, M., Livan, P., Lubrano, C., Magneville, L., Mandelli, L., Mapelli, M., Mazzanti, B., Meier, B., Merkel, J. P., Meyer, M., Moniez, R., Moning, M., Morganti, L., Müller, D. J., Munday, F., Nessi Tedaldi, C., Onion, T., Pal, M. A., Parker, G., Parrour, F., Pastore, E., Pennacchio, J. M., Pentney, M., Pepe, L., Perini, C., Petridou, P., Petroff, H., Plothow Besch, G., Polesello, A., Poppleton, K., Pretzl, M., Primavera, M., Punturo, J. P., Repellin, A., Rimoldi, M., Sacchi, Scampoli, Paola, J., Schacher, V., Simak, S. L., Singh, V., Sondermann, S., Stapne, A. V., Stirling, C., Talamonti, F., Tondini, S. N., Tovey, E., Tsesmeli, G., Unal, M., Valdata Nappi, V., Vercesi, A. R., Weidberg, P. S., Well, T. O., White, D. R., Wood, S. A., Wotton, H., Zaccone, and A., Zylberstejn

Subjects
UA2 EXPERIMENT
Abstract

A measurement of the inclusive cross-section for production of direct photons in pp collisions at a centre of mass energy of 630 GeV is presented as a function of the photon transverse momentum. The data correspond to a total integrated luminosity of 7.4 pb -1. The results support predictions from QCD theory.

Published
1991

19. A study of multi-jet events at the CERN p̄p collider and a search for double parton scattering

Author

J. Alitti, G. Ambrosini, R. Ansari, D. Autiero, P. Bareyre, I. A. Bertram, G. Blaylock, P. Bonamy, K. Borer, M. Bourliaud, D. Buskulic, G. Carboni, D. Cavalli, V. Cavasinni, P. Cenci, J. C. Chollet, C. Contab, G. Costa, F. Costantini, L. Cozzi, A. Cravero, M. Curatolo, A. Dell'Acqua, T. DelPrete, R. S. DeWolf, L. DiLella, Y. Ducros, G. F. Egan, K. F. Einsweiler, B. Esposito, L. Fayard, A. Federspiel, R. Ferrari, M. Fraternali, D. Froidevaux, G. Fumagalli, J. M. Gaillard, F. Gianotti, O. Gildemeister, C. Gössling, V. G. Goggi, S. Grünendahll K. Hara, S. Hellman, J. Hrivnac, H. Hufnagel, E. Hugentobler, K. Hultqvist, E. Iacopini, J. Incandela, K. Jakobs, P. Jenni, E. E. Kluge, S. Lami, P. Lariccia, M. Lefebvre, L. Linssen, M. Livan, P. Lubrano, C. Magneville, L. Mandelli, L. Mapelli, M. Mazzanti, B. Meier, B. Merkel, J. P. Meyer, M. Moniez, R. Moning, M. Morganti, L. Müller, D. J. Munday, F. Nessi Tedaldi, C. Onions, T. Pal, M. A. Parker, G. Parrour, F. Pastore, E. Pennacchio, J. M. Pentney, M. Pepe, L. Perini, C. Petridou, P. Petroff, H. Plothow Besch, G. Polesello, A. Poppleton, K. Pretzl, M. Primavera, M. Punturo, J. P. Repellin, A. Rimoldi, M. Sacchi, J. Schacher, V. Simak, S. L. Singh, V. Sondermann, S. Stapnes, C. Talamonti, F. Tondini, S. N. Tovey, E. Tsesmelis, G. Unal, M. Valdata Nappi, V. Vercesi, A. R. Weidberg, P. S. Wells, T. O. White, D. R. Wood, S. A. Wotton, H. Zaccone, A. Zylberstejn, SCAMPOLI, PAOLA, J., Alitti, G., Ambrosini, R., Ansari, D., Autiero, P., Bareyre, I. A., Bertram, G., Blaylock, P., Bonamy, K., Borer, M., Bourliaud, D., Buskulic, G., Carboni, D., Cavalli, V., Cavasinni, P., Cenci, J. C., Chollet, C., Contab, G., Costa, F., Costantini, L., Cozzi, A., Cravero, M., Curatolo, A., Dell'Acqua, T., Delprete, R. S., Dewolf, L., Dilella, Y., Ducro, G. F., Egan, K. F., Einsweiler, B., Esposito, L., Fayard, A., Federspiel, R., Ferrari, M., Fraternali, D., Froidevaux, G., Fumagalli, J. M., Gaillard, F., Gianotti, O., Gildemeister, C., Gössling, V. G., Goggi, S. Grünendahll K., Hara, S., Hellman, J., Hrivnac, H., Hufnagel, E., Hugentobler, K., Hultqvist, E., Iacopini, J., Incandela, K., Jakob, P., Jenni, E. E., Kluge, S., Lami, P., Lariccia, M., Lefebvre, L., Linssen, M., Livan, P., Lubrano, C., Magneville, L., Mandelli, L., Mapelli, M., Mazzanti, B., Meier, B., Merkel, J. P., Meyer, M., Moniez, R., Moning, M., Morganti, L., Müller, D. J., Munday, F., Nessi Tedaldi, C., Onion, T., Pal, M. A., Parker, G., Parrour, F., Pastore, E., Pennacchio, J. M., Pentney, M., Pepe, L., Perini, C., Petridou, P., Petroff, H., Plothow Besch, G., Polesello, A., Poppleton, K., Pretzl, M., Primavera, M., Punturo, J. P., Repellin, A., Rimoldi, M., Sacchi, Scampoli, Paola, J., Schacher, V., Simak, S. L., Singh, V., Sondermann, S., Stapne, C., Talamonti, F., Tondini, S. N., Tovey, E., Tsesmeli, G., Unal, M., Valdata Nappi, V., Vercesi, A. R., Weidberg, P. S., Well, T. O., White, D. R., Wood, S. A., Wotton, H., Zaccone, and A., Zylberstejn

Subjects
UA2 EXPERIMENT
Abstract

A study of events containing at least four high transverse momentum jets and a search for double parton scattering (DPS) have been performed using data collected with the UA2 detector at the CERN p̄p Collider (√s=630 GeV). The results are in good agreement with leading order QCD calculations. A value of σ DPS

Published
1991

20. A determination of the strong coupling constant α s from W production at the CERN pp̄ collider

Author

J. Alitti, G. Ambrosini, R. Ansari, D. Autiero, P. Bareyre, I. A. Bertram, G. Blaylockf, P. Bonamy, M. Bonesini, K. Borer, M. Bourliaud, D. Buskulic, G. Carboni, D. Cavalli, V. Cavasinni, P. Cenci, J. C. Chollet, C. Contab, G. Costa, F. Costantini, L. Cozzi, A. Cravero, M. Curatolo, A. Dell'Acqua, T. DelPrete, R. S. DeWolf, L. DiLella, Y. Ducros, G. F. Egan, K. F. Einsweiler, B. Esposito, L. Fayard, A. Federspiel, R. Ferrari, M. Fraternali, D. Froidevaux, G. Fumagalli, J. M. Gaillard, F. Gianotti, O. Gildemeister, C. Gössling, V. G. Goggi, S. Grünendahll K. Hara, S. Hellman, J. Hrivnac, H. Hufnagel, E. Hugentobler, K. Hultqvist, E. Iacopini, J. Incandela, K. Jakobs, P. Jenni, E. E. Kluge, N. Kurz, S. Lami, P. Lariccia, M. Lefebvre, L. Linssen, M. Livan, P. Lubrano, C. Magneville, L. Mandelli, L. Mapelli, M. Mazzanti, B. Meier, B. Merkel, J. P. Meyer, M. Moniez, R. Moning, M. Morganti, L. Müller, D. J. Mundayj M. Nessi, F. Nessi Tedaldi, C. Onions, T. Pal, M. A. Parker, G. Parrourc, F. Pastore, E. Pennacchio, J. M. Pentney, M. Pepe, L. Perini, C. Petridou, P. Petroff, H. Plothow Besch, G. Polesello, A. Poppleton, K. Pretzl, M. Primavera, M. Punturo, J. P. Repellin, A. Rimoldi, M. Sacchi, J. Schache, V. Simak, S. L. Singh, V. Sondermann, S. Stapnes, A. V. Stirling, C. Talamonti, F. Tondini, S. N. Tovey, E. Tsesmelis, G. Unal, M. Valdata Nappi, V. Vercesi, A. R. Weidberg, P. S. Wells, T. O. White, D. R. Wood, S. A. Wotton, H. Zaccone, A. Zylberstejn, SCAMPOLI, PAOLA, J., Alitti, G., Ambrosini, R., Ansari, D., Autiero, P., Bareyre, I. A., Bertram, G., Blaylockf, P., Bonamy, M., Bonesini, K., Borer, M., Bourliaud, D., Buskulic, G., Carboni, D., Cavalli, V., Cavasinni, P., Cenci, J. C., Chollet, C., Contab, G., Costa, F., Costantini, L., Cozzi, A., Cravero, M., Curatolo, A., Dell'Acqua, T., Delprete, R. S., Dewolf, L., Dilella, Y., Ducro, G. F., Egan, K. F., Einsweiler, B., Esposito, L., Fayard, A., Federspiel, R., Ferrari, M., Fraternali, D., Froidevaux, G., Fumagalli, J. M., Gaillard, F., Gianotti, O., Gildemeister, C., Gössling, V. G., Goggi, S. Grünendahll K., Hara, S., Hellman, J., Hrivnac, H., Hufnagel, E., Hugentobler, K., Hultqvist, E., Iacopini, J., Incandela, K., Jakob, P., Jenni, E. E., Kluge, N., Kurz, S., Lami, P., Lariccia, M., Lefebvre, L., Linssen, M., Livan, P., Lubrano, C., Magneville, L., Mandelli, L., Mapelli, M., Mazzanti, B., Meier, B., Merkel, J. P., Meyer, M., Moniez, R., Moning, M., Morganti, L., Müller, D. J. Mundayj M., Nessi, F., Nessi Tedaldi, C., Onion, T., Pal, M. A., Parker, G., Parrourc, F., Pastore, E., Pennacchio, J. M., Pentney, M., Pepe, L., Perini, C., Petridou, P., Petroff, H., Plothow Besch, G., Polesello, A., Poppleton, K., Pretzl, M., Primavera, M., Punturo, J. P., Repellin, A., Rimoldi, M., Sacchi, Scampoli, Paola, J., Schache, V., Simak, S. L., Singh, V., Sondermann, S., Stapne, A. V., Stirling, C., Talamonti, F., Tondini, S. N., Tovey, E., Tsesmeli, G., Unal, M., Valdata Nappi, V., Vercesi, A. R., Weidberg, P. S., Well, T. O., White, D. R., Wood, S. A., Wotton, H., Zaccone, and A., Zylberstejn

Subjects
UA2 EXPERIMENT
Abstract

The large sample of W→ev events collected by the UA2 experiment at the CERN pp̄ collider between 1988 and 1990 has been used to determine the strong coupling constant α s. From a measurement of the ratio of the production rate of W events with one jet to that with no jets, α s has been extracted to second order in the MS scheme: α s (M W 2) = 0.123 ± 0.0.18 (stat.) ± 0.017 (syst.).

Published
1991

21. A measurement of electron-tau universality from decays of intermediate vector bosons at the CERN Mathematical expression collider

Author

J. ALITTI, G. AMBROSINI, R. ANSARI, R. E. ANSORGE, D. AUTIERO, P. BAREYRE, I. A. BERTRAM, G. BLAYLOCK, P. BONAMY, M. BONESINI, K. BORER, M. BOURLIAUD, D. BUSKULIC, G. CARBONI, D. CAVALLI, V. CAVASINNI, P. CENCI, J. C. CHOLLET, C. CONTA, G. COSTA, F. COSTANTINI, L. COZZI, A. CRAVERO, M. CURATOLO, A. DELLACQUA, T. DELPRETE, R. S. DEWOLF, L. DILELLA, Y. DUCROS, G. F. EGAN, K. F. EINSWEILER, B. ESPOSITO, L. FAYARD, A. FEDERSPIEL, R. FERRARI, M. FRATERNALI, D. FROIDEVAUX, G. FUMAGALLI, J. M. GAILLARD, F. GIANOTTI, O. GILDEMEISTER, C. GOSSLING, V. G. GOGGI, S. GRUNENDAHL, K. HARA, S. HELLMAN, J. HRIVNAC, H. HUFNAGEL, E. HUGENTOBLER, K. HULTQVIST, E. IACOPINI, J. INCANDELA, K. JAKOBS, P. JENNI, E. E. KLUGE, N. KURZ, S. LAMI, P. LARICCIA, M. LEFEBVRE, L. LINSSEN, M. LIVAN, P. LUBRANO, C. MAGNEVILLE, L. MANDELLI, L. MAPELLI, M. MAZZANTI, K. MEIER, B. MERKEL, J. P. MEYER, M. MONIEZ, R. MONING, M. MORGANTI, L. MULLER, D. J. MUNDAY, M. NESSI, F. NESSITEDALDI, C. ONIONS, T. PAL, M. A. PARKER, G. PARROUR, F. PASTORE, E. PENNACCHIO, J. M. PENTNEY, M. PEPE, L. PERINI, C. PETRIDOU, P. PETROFF, H. PLOTHOWBESCH, G. POLESELLO, A. POPPLETON, K. PRETZL, M. PRIMAVERA, M. PUNTURO, J. P. REPELLIN, A. RIMOLDI, M. SACCHi, J. SCHACHER, V. SIMAK, S. L. SINGH, V. SONDERMANN, S. STAPNES, A. V. STIRLING, C. TALAMONTI, F. TONDINI, S. N. TOVEY, E. TSESMELIS, G. UNAL, M. VALDATANAPPI, V. VERCESI, A. R. WEIDBERG, P. S. WELLS, T. O. WHITE, D. R. WOOD, S. A. WOTTON, H. ZACCONE, A. ZYLBERSTEJN, SCAMPOLI, PAOLA, J., Alitti, G., Ambrosini, R., Ansari, R. E., Ansorge, D., Autiero, P., Bareyre, I. A., Bertram, G., Blaylock, P., Bonamy, M., Bonesini, K., Borer, M., Bourliaud, D., Buskulic, G., Carboni, D., Cavalli, V., Cavasinni, P., Cenci, J. C., Chollet, C., Conta, G., Costa, F., Costantini, L., Cozzi, A., Cravero, M., Curatolo, A., Dellacqua, T., Delprete, R. S., Dewolf, L., Dilella, Y., Ducro, G. F., Egan, K. F., Einsweiler, B., Esposito, L., Fayard, A., Federspiel, R., Ferrari, M., Fraternali, D., Froidevaux, G., Fumagalli, J. M., Gaillard, F., Gianotti, O., Gildemeister, C., Gossling, V. G., Goggi, S., Grunendahl, K., Hara, S., Hellman, J., Hrivnac, H., Hufnagel, E., Hugentobler, K., Hultqvist, E., Iacopini, J., Incandela, K., Jakob, P., Jenni, E. E., Kluge, N., Kurz, S., Lami, P., Lariccia, M., Lefebvre, L., Linssen, M., Livan, P., Lubrano, C., Magneville, L., Mandelli, L., Mapelli, M., Mazzanti, K., Meier, B., Merkel, J. P., Meyer, M., Moniez, R., Moning, M., Morganti, L., Muller, D. J., Munday, M., Nessi, F., Nessitedaldi, C., Onion, T., Pal, M. A., Parker, G., Parrour, F., Pastore, E., Pennacchio, J. M., Pentney, M., Pepe, L., Perini, C., Petridou, P., Petroff, H., Plothowbesch, G., Polesello, A., Poppleton, K., Pretzl, M., Primavera, M., Punturo, J. P., Repellin, A., Rimoldi, M., Sacchi, Scampoli, Paola, J., Schacher, V., Simak, S. L., Singh, V., Sondermann, S., Stapne, A. V., Stirling, C., Talamonti, F., Tondini, S. N., Tovey, E., Tsesmeli, G., Unal, M., Valdatanappi, V., Vercesi, A. R., Weidberg, P. S., Well, T. O., White, D. R., Wood, S. A., Wotton, H., Zaccone, and A., Zylberstejn

Subjects
UA2 EXPERIMENT
Abstract

The ratio of branching fractions of the W decaying to τ and e leptons is measured using {Mathematical expression} collisions at {Mathematical expression} GeV. The ratio of the electroweak charged current couplings to the W is then determined to be g τ W/g e W=0.997±0.0 56 (stat.)±0.042 (syst.). The decay mode Z→τ +→τ + is observed and also found to be consistent with e-τ universality. © 1991 Springer-Verlag.

Published
1991

23. A measurement of the W and Z production cross sections and a determination of Γw at the CERN [ovbar|p]p collider

Author

E. Tsesmelis, E. Pennacchio, J. Incandela, E. Hugentobler, P. Lubrano, M. Valdata-Nappi, A. Dell'Acqua, L. Linssen, A. R. Weidberg, I.A. Bertram, H. Hufnagel, Daniel Froidevaux, Roberto Ferrari, M. Punturo, K. Meier, R. Moning, C. Magneville, J. Alitti, M. Moniez, B. Schmidt, J. C. Chollet, Kevin Einsweiler, V. G. Goggi, Francesca Nessi-Tedaldi, G. Amrosini, Steinar Stapnes, J.M. Pentney, A. Cravero, F. Costantini, Alan Poppleton, M. Morganti, Marcello Mazzanti, R. S. DeWolf, Michel Lefebvre, M. Bourliaud, Paola Scampoli, Livio Mapelli, G. Blaylock, Marco Fraternali, J. Schacher, G. Costa, J. Hřiv'ač, Marzio Nessi, Y. Ducros, D. J. Munday, R. Spiwoks, S. N. Tovey, G. Parrour, K. Hara, Michele Livan, Laura Perini, Giovanni Carboni, H. Plothow-Besch, E. Iacopini, G. Unal, Cinzia Talamonti, C. Onions, T. Pal, O. Gildemeister, S. L. Singh, J-P. Meyer, N. Kurz, Vincenzo Cavasinni, Andrea Federspiel, P. Petroff, P. S. Wells, Chariclia Petridou, G. Polesello, Paolo Lariccia, J. P. Repellin, F. Pastore, Sten Hellman, B. Esposito, D. Buskulic, Karl Jakobs, G. Fumagalli, D. Cavalli, Adele Rimoldi, T. O. White, M. Primavera, L. Mandelli, S. Lami, Claus Gössling, K. Borer, A. Zylberstejn, F. Tondini, P. Bareyre, B. Merkel, E. E. Kluge, M. Curatolo, S. A. Wotton, D. Autiero, K. Hultqvist, J. M. Gaillard, L. DiLella, Peter Jenni, Michael Andrew Parker, Darien Wood, C. Conta, Luca Cozzi, Louis Fayard, R. Ansari, Gary F. Egan, Massimiliano F. Sacchi, P. Cenci, S. Grünendahl, M. Pepe, V. Sondermann, L. Müller, T. DelPrete, V. Simak, Valerio Vercesi, F. Gianotti, H. Zaccone, P. Bonamy, Klaus Peter Pretzl, J., Alitti, G., Ambrosini, R., Ansari, D., Autiero, P., Bareyre, I. A., Bertram, G., Blaylock, P., Bonamy, K., Borer, M., Bourliaud, D., Buskulic, G., Carboni, D., Cavalli, V., Cavasinni, P., Cenci, J. C., Chollet, C., Conta, G., Costa, F., Costantini, L., Cozzi, A., Cravero, M., Curatolo, A., Dellacqua, T., Delprete, R. S., Dewolf, L., Dilella, Y., Ducro, G. F., Egan, K. F., Einsweiler, B., Esposito, L., Fayard, A., Federspiel, R., Ferrari, M., Fraternali, D., Froidevaux, G., Fumagalli, J. M., Gaillard, F., Gainotti, O., Gildemeister, C., Gossling, V. G., Goggi, S., Grunendahl, K., Hara, S., Hellman, J., Hrivnac, H., Hufnagel, E., Hugentobler, K., Hultqvist, E., Iacopini, J., Incandela, K., Jakob, P., Jenni, E. E., Kluge, N., Kurz, S., Lami, P., Lariccia, M., Lefebvre, L., Linssen, M., Livan, P., Lubrano, C., Magneville, L., Mandelli, L., Mapelli, M., Mazzanti, K., Meier, B., Merkel, J. P., Meyer, M., Moniez, R., Moning, M., Morganti, L., Muller, D. J., Munday, M., Nessi, F., Nessitedaldi, C., Onion, T., Pal, M. A., Parker, G., Parrour, F., Pastore, E., Pennacchio, J. M., Pentney, M., Pepe, L., Perini, C., Petridou, P., Petroff, H., Plothowbesch, G., Polesello, A., Poppleton, K., Pretzl, M., Primavera, M., Punturo, J. P., Repellin, A., Rimoldi, M., Sacchi, Scampoli, Paola, J., Schacher, B., Schmidt, V., Simak, S. L., Singh, V., Sondermann, R., Spiwok, S., Stapne, C., Talamonti, F., Tondini, S. N., Tovey, E., Tsesmeli, G., Unal, M., Valdatanappi, V., Vercesi, A. R., Weidberg, P. S., Well, T. O., White, D. R., Wood, S. A., Wotton, H., Zaccone, and A., Zylberstejn

Subjects
Physics, Nuclear and High Energy Physics, Top quark, Particle physics, Branching fraction, Elementary particle, Nuclear physics, Particle decay, Pair production, Antimatter, UA2 EXPERIMENT, SCINTILLATING FIBER DETECTOR, B' QUARKS, Particle Physics - Experiment, Lepton, Boson
Abstract

The decays W --> ev and Z --> e+e- are studied in ppBAR collisions at square-root s = 630 GeV. The products of production cross section and branching ratio are measured as sigma(W)e = 682 +/- 12 +/- 40 pb and sigma(Z)e = 65.6 +/- 4.0 +/- 3.8 pb. The results are in good agreement with O (alpha(s)2) calculations of the production cross sections. Many systematic effects cancel in the ratio, R = 10.4 +/- 0.6(0.7) +/- 0.3, which can be used to give an indirect measurement of the total width of the W boson: GAMMA(W) = 2.10 +/- 0.13 +/- 0.09 GeV. The width gives a limit on the top quark mass, m(top) > 53 GeV (95% CL), which is independent of the top decay mode.

Published
1992

24. Study of electron pair production below the Z mass at the CERN p collider

Author

O. Gildemeister, J. Incandela, Sten Hellman, G. Polesello, J. Schacher, J-P. Meyer, C. Onions, Chariclia Petridou, P. Petroff, Karl Jakobs, Giovanna Ambrosini, K. Borer, G. Fumagalli, E. Tsesmelis, R. Moning, E. Hugentobler, G. Costa, G. Parrour, Gary F. Egan, M. Valdata-Nappi, H. Hufnagel, M. Moniez, Julius Hrivnac, M. Curatolo, Michele Livan, M. Pepe, S. N. Tovey, V. G. Goggi, P. Bonamy, J. M. Gaillard, J.M. Pentney, Cinzia Talamonti, Marcello Mazzanti, P. S. Wells, E. Iacopini, Michael Andrew Parker, V. Simak, K. Hara, I.A. Bertram, Darien Wood, G. Blaylock, L. Mandelli, Stefan Gruenendahl, Giovanni Carboni, C. Conta, V. Sondermann, Vincenzo Cavasinni, F. Tondini, Valerio Vercesi, F. Gianotti, Laura Perini, T. O. White, L. Müller, M. Punturo, S. L. Singh, Luca Cozzi, T. Pal, F. Pastore, J. Alitti, B. Schmidt, P. Bareyre, T. Del Prete, Michel Lefebvre, M. Bourliaud, Daniel Froidevaux, H. Zaccone, Paola Scampoli, J. P. Repellin, Marco Fraternali, N. Kurz, Steinar Stapnes, R. S. DeWolf, A. R. Weidberg, K. Meier, C. Magneville, F. Costantini, Klaus Peter Pretzl, D. J. Munday, Kevin Einsweiler, D. Cavalli, H. Plothow-Besch, Andrea Federspiel, Paolo Lariccia, Louis Fayard, E. Pennacchio, A. Dell'Acqua, R. Ansari, Massimiliano F. Sacchi, Y. Ducros, Francesca Nessi-Tedaldi, M. Primavera, Claus Gössling, A. Cravero, A. Zylberstejn, B. Merkel, P. Cenci, D. Auterio, Adele Rimoldi, L. Di Lella, S. Lami, S. A. Wotton, K. Hultqvist, Peter Jenni, Roberto Ferrari, J. C. Chollet, R. Spiwoks, G. Unal, B. Esposito, D. Buskulic, E. E. Kluge, M. Morganti, Marzio Nessi, Alan Poppleton, Livio Mapelli, P. Lubrano, L. Linssen, J., Alitti, G., Ambrosini, R., Ansari, D., Autiero, P., Bareyre, I. A., Bertram, G., Blaylock, P., Bonamy, K., Borer, M., Bourliaud, D., Buskulic, G., Carboni, D., Cavalli, V., Cavasinni, P., Cenci, J. C., Chollet, C., Conta, G., Costa, F., Costantini, L., Cozzi, A., Cravero, M., Curatolo, A., Dellacqua, T., Delprete, R. S., Dewolf, L., Dilella, Y., Ducro, G. F., Egan, K. F., Einsweiler, B., Esposito, L., Fayard, A., Federspiel, R., Ferrari, M., Fraternali, D., Froidevaux, G., Fumagalli, J. M., Gaillard, F., Gianotti, O., Gildemeister, C., Gossling, V. G., Goggi, S., Grunendahl, K., Hara, S., Hellman, J., Hrivnac, H., Hufnagel, E., Hugentobler, K., Hultqvist, E., Iacopini, J., Incandela, K., Jakob, P., Jenni, E. E., Kluge, N., Kurz, S., Lami, P., Lariccia, M., Lefebvre, L., Linssen, M., Livan, P., Lubrano, C., Magneville, L., Mandelli, L., Mapelli, M., Mazzanti, K., Meier, B., Merkel, J. P., Meyer, M., Moniez, R., Moning, M., Morganti, L., Muller, D. J., Munday, M., Nessi, F., Nessitedaldi, C., Onion, T., Pal, M. A., Parker, G., Parrour, F., Pastore, E., Pennacchio, J. M., Pentney, M., Pepe, L., Perini, C., Petridou, P., Petroff, H., Plothowbesch, G., Polesello, A., Poppleton, K., Pretzl, M., Primavera, M., Punturo, J. P., Repellin, A., Rimoldi, M., Sacchi, Scampoli, Paola, J., Schacher, B., Schmidt, V., Simak, S. L., Singh, V., Sondermann, R., Spiwok, S., Stapne, C., Talamonti, F., Tondini, S. N., Tovey, E., Tsesmeli, G., Unal, M., Valdatanappi, V., Vercesi, A. R., Weidberg, P. S., Well, T. O., White, D. R., Wood, S. A., Wotton, H., Zaccone, and A., Zylberstejn

Subjects
Physics, Quantum chromodynamics, Nuclear and High Energy Physics, Electron pair, Particle physics, Large Hadron Collider, Drell–Yan process, law.invention, Nuclear physics, Cross section (physics), law, UA2 EXPERIMENT, High Energy Physics::Experiment, Invariant mass, Nuclear Experiment, Collider, PROTON-NUCLEUS COLLISIONS, Scaling
Abstract

Results on the cross section for the production of electron pairs in ppBAR collisions at square-root s = 630 GeV are presented. The measured value is sigma = 405 +/- 51 (syst.) +/- 84 (syst.) pb, in the invariant mass interval 10 < m < 70 GeV. The results are compared to recent theoretical calculations which include O(alpha(s)2) QCD contributions. The comparison of these data with those of lower energy experiments show approximate scaling as a function of the variable square-root tau = m/ square-root s.

Published
1992

25. A Search For New Intermediate Vector Bosons and Excited Quarks Decaying To 2-jets At the Cern (p)over-bar-p Collider

Author

ALITTI, J, AMBROSINI, G, ANSARI, R, AUTIERO, D, BAREYRE, P, BERTRAM, I, BLAYLOCK, G, BONAMY, P, BORER, K, BOURLIAUD, M, BUSKULIC, D, CARBONI, G, CAVALLI, D, CAVASINNI, V, CENCI, P, CHOLLET, J, CONTA, C, COSTA, G, COSTANTINI, F, COZZI, L, CRAVERO, A, CURATOLO, M, DELLACQUA, A, DELPRETE, T, DEWOLF, R, DILELLA, L, DUCROS, Y, EGAN, G, EINSWEILER, K, ESPOSITO, B, FAYARD, L, FEDERSPIEL, A, FERRARI, R, FRATERNALI, M, FROIDEVAUX, D, FUMAGALLI, G, GAILLARD, J, GIANOTTI, F, GILDEMEISTER, O, GOSSLING, C, GOGGI, V, GRUNENDAHL, S, HARA, K, HELLMAN, S, HRIVNAC, J, HUFNAGEL, H, HUGENTOBLER, E, HULTQVIST, K, IACOPINI, E, INCANDELA, J, JAKOBS, K, JENNI, P, KLUGE, E, KURZ, N, LAMI, S, LARICCIA, P, LEFEBVRE, M, LINSSEN, L, LIVAN, M, LUBRANO, P, MAGNEVILLE, C, MALGERI, L, MANDELLI, L, MAPELLI, L, MAZZANTI, M, MEIER, K, MERKEL, B, MEYER, J, MONIEZ, M, MONING, R, MORGANTI, M, MULLER, L, MUNDAY, D, NESSI, M, NESSITEDALDI, F, ONIONS, C, PAL, T, PARKER, M, PARROUR, G, PASTORE, F, PENNACCHIO, E, PENTNEY, J, PEPE, M, PERINI, L, PETRIDOU, C, PETROFF, P, PLOTHOWBESCH, H, POLESELLO, G, POPPLETON, A, PRETZL, K, PRIMAVERA, M, PUNTURO, M, REPELLIN, J, RIMOLDI, A, SACCHI, M, SCAMPOLI, P, SCHACHER, J, SCHMIDT, B, SIMAK, V, SINGH, S, SONDERMANN, V, SPIWOKS, R, STAPNES, S, TALAMONTI, C, TONDINI, F, TOVEY, S, TSESMELIS, E, UNAL, G, VALDATANAPPI, M, VERCESI, V, WEIDBERG, A, WELLS, P, WHITE, T, WOOD, D, WOTTON, S, ZACCONE, H, ZYLBERSTEJN, A, J., Alitti, G., Ambrosini, R., Ansari, D., Autiero, P., Bareyre, I. A., Bertram, G., Blaylock, P., Bonamy, K., Borer, M., Bourliaud, D., Buskulic, G., Carboni, D., Cavalli, V., Cavasinni, P., Cenci, J. C., Chollet, C., Conta, G., Costa, F., Costantini, L., Cozzi, A., Cravero, M., Curatolo, A., Dellacqua, T., Delprete, R. S., Dewolf, L., Dilella, Y., Ducro, G. F., Egan, K. F., Einsweiler, B., Esposito, L., Fayard, A., Federspiel, R., Ferrari, M., Fraternali, D., Froidevaux, G., Fumagalli, J. M., Gaillard, F., Gianotti, O., Gildemeister, C., Gossling, V. G., Goggi, S., Grunendahl, K., Hara, S., Hellman, J., Hrivnac, H., Hufnagel, E., Hugentobler, K., Hultqvist, E., Iacopini, J., Incandela, K., Jakob, P., Jenni, E. E., Kluge, N., Kurz, S., Lami, P., Lariccia, M., Lefebvre, L., Linssen, M., Livan, P., Lubrano, C., Magneville, L., Malgeri, L., Mandelli, L., Mapelli, M., Mazzanti, K., Meier, B., Merkel, J. P., Meyer, M., Moniez, R., Moning, M., Morganti, L., Muller, D. J., Munday, M., Nessi, F., Nessitedaldi, C., Onion, T., Pal, M. A., Parker, G., Parrour, F., Pastore, E., Pennacchio, J. M., Pentney, M., Pepe, L., Perini, C., Petridou, P., Petroff, H., Plothowbesch, G., Polesello, A., Poppleton, K., Pretzl, M., Primavera, M., Punturo, J. P., Repellin, A., Rimoldi, M., Sacchi, Scampoli, Paola, J., Schacher, B., Schmidt, V., Simak, S. L., Singh, V., Sondermann, R., Spiwok, S., Stapne, C., Talamonti, F., Tondini, S. N., Tovey, E., Tsesmeli, G., Unal, M., Valdatanappi, V., Vercesi, A. R., Weidberg, P. S., Well, T. O., White, D. R., Wood, S. A., Wotton, H., Zaccone, and A., Zylberstejn

Subjects
Condensed Matter::Quantum Gases, LUND MONTE-CARLO, High Energy Physics::Phenomenology, HADRONIC PROCESSES, JETS, High Energy Physics::Experiment
Abstract

The two-jet invariant mass spectrum as measured in the UA2 experiment is used to search for additional heavy vector bosons decaying to two-jets. The mass of an additional W boson that couples to fermions with a V + A form is constrained to be greater than 261 GeV to the 90% confidence level. A limit on the production cross section of additional W and Z bosons is given as a function of the boson mass. A limit on the production of excited quarks is also given as a function of the excited quark mass.

Published
1993

26. Measurement of the Gluon Structure-function From Direct Photon Data At the Cern (p)over-bar-p Collider

Author

Alitti, J., Ambrosini, G., Ansari, R., Autiero, D., Bareyre, P., Bertram, Ia, Blaylock, G., Bonamy, P., Borer, K., Bourliaud, M., Buskulic, D., Carboni, G., Cavalli, D., Cavasinni, V., Cenci, P., Chollet, Jc, Conta, C., Costa, G., Costantini, F., Cozzi, L., Cravero, A., Curatolo, M., Dellacqua, A., Delprete, T., Dewolf, Rs, Dilella, L., Ducros, Y., Egan, Gf, Einsweiler, Kf, Esposito, B., Fayard, L., Federspiel, A., Ferrari, R., Fraternali, M., Froidevaux, D., Fumagalli, G., Gaillard, Jm, Gianotti, F., Gildemeister, O., Gossling, C., Goggi, Vg, Grunendahl, S., Hara, K., Hellman, S., Hrivnac, J., Hufnagel, H., Hugentobler, E., Hultqvist, K., Enrico Iacopini, Incandela, J., Jacobs, K., Jenni, P., Kluge, Ee, Kurz, N., Lami, S., Lariccia, P., Lefebvre, M., Linssen, L., Livan, M., Lubrano, P., Magneville, C., Malgeri, L., Mandelli, L., Mapelli, L., Mazzanti, M., Meier, K., Merkel, B., Meyer, Jp, Moniez, M., Moning, R., Morganti, M., Muller, L., Munday, Dj, Nessi, M., Nessitedaldi, F., Onions, C., Pal, T., Parker, Ma, Parrour, G., Pastore, F., Pennacchio, E., Pentney, Jm, Pepe, M., Perini, L., Petridou, C., Petroff, P., Plothowbesch, H., Polesello, G., Poppleton, A., Pretzl, K., Primavera, M., Punturo, M., Repellin, Jp, Rimoldi, A., Sacchi, M., Scampoli, P., Schacher, J., Schmidt, B., Simak, V., Singh, Sl, Sondermann, V., Spiwoks, R., Stapnes, S., Cinzia Talamonti, Tondini, F., Tovey, Sn, Tsesmelis, E., Unal, G., Valdatanappi, M., Vercesi, V., Weidberg, Ar, Wells, Ps, White, To, Wood, Dr, Wotton, Sa, Zaccone, H., Zylberstejn, A., J., Alitti, G., Ambrosini, R., Ansari, D., Autiero, P., Bareyre, I. A., Bertram, G., Blaylock, P., Bonamy, K., Borer, M., Bourliaud, D., Buskulic, G., Carboni, D., Cavalli, V., Cavasinni, P., Cenci, J. C., Chollet, C., Conta, G., Costa, F., Costantini, L., Cozzi, A., Cravero, M., Curatolo, A., Dellacqua, T., Delprete, R. S., Dewolf, L., Dilella, Y., Ducro, G. F., Egan, K. F., Einsweiler, B., Esposito, L., Fayard, A., Federspiel, R., Ferrari, M., Fraternali, D., Froidevaux, G., Fumagalli, J. M., Gaillard, F., Gianotti, O., Gildemeister, C., Gossling, V. G., Goggi, S., Grunendahl, K., Hara, S., Hellman, J., Hrivnac, H., Hufnagel, E., Hugentobler, K., Hultqvist, E., Iacopini, J., Incandela, K., Jacob, P., Jenni, E. E., Kluge, N., Kurz, S., Lami, P., Lariccia, M., Lefebvre, L., Linssen, M., Livan, P., Lubrano, C., Magneville, L., Malgeri, L., Mandelli, L., Mapelli, M., Mazzanti, K., Meier, B., Merkel, J. P., Meyer, M., Moniez, R., Moning, M., Morganti, L., Muller, D. J., Munday, M., Nessi, F., Nessitedaldi, C., Onion, T., Pal, M. A., Parker, G., Parrour, F., Pastore, E., Pennacchio, J. M., Pentney, M., Pepe, L., Perini, C., Petridou, P., Petroff, H., Plothowbesch, G., Polesello, A., Poppleton, K., Pretzl, M., Primavera, M., Punturo, J. P., Repellin, A., Rimoldi, M., Sacchi, Scampoli, Paola, J., Schacher, B., Schmidt, V., Simak, S. L., Singh, V., Sondermann, R., Spiwok, S., Stapne, C., Talamonti, F., Tondini, S. N., Tovey, E., Tsesmeli, G., Unal, M., Valdatanappi, V., Vercesi, A. R., Weidberg, P. S., Well, T. O., White, D. R., Wood, S. A., Wotton, H., Zaccone, and A., Zylberstejn

Subjects
SCINTILLATING FIBER DETECTOR, STRUCTURE-FUNCTION F2(X
Abstract

A measurement of the gluon structure fusion using direct photon events observed with the UA2 detector in ppBAR collisions at square-root s = 630 GeV is presented. The x-range covered by this analysis is between 0.049 and 0.207 and the Q2 range is between 280 GeV2 and 3670 GeV2. The data sample corresponds to an integrated luminosity of 7.14 pb-1. The results are found to be in good agreement with the gluon distributions measured in deep inelastic scattering experiments extrapolated to the UA2 Q2 values.

Published
1993

27. Direct Measurement of the W-gamma Coupling At the Cern Pbarp Collider

Author

ALITTI, J, AMBROSINI, G, ANSARI, R, AUTIERO, D, BAREYRE, P, BERTRAM, I, BLAYLOCK, G, BONAMY, P, BORER, K, BOURLIAUD, M, BUSKULIC, D, CARBONI, G, CAVALLI, D, CAVASINNI, V, CENCI, P, CHOLLET, J, CONTA, C, COSTA, G, COSTANTINI, F, COZZI, L, CRAVERO, A, CURATOLO, M, DELLACQUA, A, DELPRETE, T, DEWOLF, R, DILELLA, L, DUCROS, Y, EGAN, G, EINSWEILER, K, ESPOSITO, B, FAYARD, L, FEDERSPIEL, A, FERRARI, R, FRATERNALI, M, FROIDEVAUX, D, FUMAGALLI, G, GAILLARD, J, GIANOTTI, F, GILDEMEISTER, O, GOSSLING, C, GOGGI, V, GRUNENDAHL, S, HARA, K, HELLMAN, S, HRIVNAC, J, HUFNAGEL, H, HUGENTOBLER, E, HULTQVIST, K, IACOPINI, E, INCANDELA, J, JAKOBS, K, JENNI, P, KLUGE, E, KURZ, N, LAMI, S, LARICCIA, P, LEFEBVRE, M, LINSSEN, L, LIVAN, M, LUBRANO, P, MAGNEVILLE, C, MANDELLI, L, MAPELLI, L, MAZZANTI, M, MEIER, K, MERKEL, B, MEYER, J, MONIEZ, M, MONING, R, MORGANTI, M, MULLER, L, MUNDAY, D, NESSI, M, NESSITEDALDI, F, ONIONS, C, PAL, T, PARKER, M, PARROUR, G, PASTORE, F, PENNACCHIO, E, PENTNEY, J, PEPE, M, PERINI, L, PETRIDOU, C, PETROFF, P, PLOTHOWBESCH, H, POLESELLO, G, POPPLETON, A, PRETZL, K, PRIMAVERA, M, PUNTURO, M, REPELLIN, J, RIMOLDI, A, SACCHI, M, SCAMPOLI, P, SCHACHER, J, SCHMIDT, B, SIMAK, V, SINGH, S, SONDERMANN, V, SPIWOKS, R, STAPNES, S, TALAMONTI, C, TONDINI, F, TOVEY, S, TSESMELIS, E, UNAL, G, VALDATANAPPI, M, VERCESI, V, WEIDBERG, A, WELLS, P, WHITE, T, WOOD, D, WOTTON, S, ZACCONE, H, ZYLBERSTEJN, A, J., Alitti, G., Ambrosini, R., Ansari, D., Autiero, P., Bareyre, I. A., Bertram, G., Blaylock, P., Bonamy, K., Borer, M., Bourliaud, D., Buskulic, G., Carboni, D., Cavalli, V., Cavasinni, P., Cenci, J. C., Chollet, C., Conta, G., Costa, F., Costantini, L., Cozzi, A., Cravero, M., Curatolo, A., Dellacqua, T., Delprete, R. S., Dewolf, L., Dilella, Y., Ducro, G. F., Egan, K. F., Einsweiler, B., Esposito, L., Fayard, A., Federspiel, R., Ferrari, M., Fraternali, D., Froidevaux, G., Fumagalli, J. M., Gaillard, F., Gianotti, O., Gildemeister, C., Gossling, V. G., Goggi, S., Grunendahl, K., Hara, S., Hellman, J., Hrivnac, H., Hufnagel, E., Hugentobler, K., Hultqvist, E., Iacopini, J., Incandela, K., Jakob, P., Jenni, E. E., Kluge, N., Kurz, S., Lami, P., Lariccia, M., Lefebvre, L., Linssen, M., Livan, P., Lubrano, C., Magneville, L., Mandelli, L., Mapelli, M., Mazzanti, K., Meier, B., Merkel, J. P., Meyer, M., Moniez, R., Moning, M., Morganti, L., Muller, D. J., Munday, M., Nessi, F., Nessitedaldi, C., Onion, T., Pal, M. A., Parker, G., Parrour, F., Pastore, E., Pennacchio, J. M., Pentney, M., Pepe, L., Perini, C., Petridou, P., Petroff, H., Plothowbesch, G., Polesello, A., Poppleton, K., Pretzl, M., Primavera, M., Punturo, J. P., Repellin, A., Rimoldi, M., Sacchi, Scampoli, Paola, J., Schacher, B., Schmidt, V., Simak, S. L., Singh, V., Sondermann, R., Spiwok, S., Stapne, C., Talamonti, F., Tondini, S. N., Tovey, E., Tsesmeli, G., Unal, M., Valdatanappi, V., Vercesi, A. R., Weidberg, P. S., Well, T. O., White, D. R., Wood, S. A., Wotton, H., Zaccone, and A., Zylberstejn

Subjects
CHARGED WEAK BOSON, UA2 EXPERIMENT, ANOMALOUS MAGNETIC-MOMENT, SCINTILLATING FIBER DETECTOR
Abstract

The process ppBAR --> e-nu-gamma + X is studied as square-root s = 630 GeV. The observed signal is used to extract a direct measurement of the parameters-kappa and lambda which define the magnetic dipole and electric quadrupole moments of the W boson and therefore the WW-gamma coupling. We find kappa = 1(-2.2)+2.6 and lambda = 0(-1.8)+1.7 and their 95% confidence limits -3.5 < kappa < 5.9 and -3.6 < lambda < 3.5. The results are model independent and in good agreement with the standard model values, kappa = 1 and lambda = 0.

Published
1992

28. A Measurement of Single and Double Prompt Photon Production At the Cern P(bar)p Collider

Author

L. Mandelli, T. DelPrete, J-P. Meyer, Chariclia Petridou, A. R. Weidberg, J. Hřivnáč, Kevin Einsweiler, Giovanna Ambrosini, Y. Ducros, Marcello Mazzanti, H. Zaccone, Gary F. Egan, F. Tondini, C. Onions, P. Petroff, Karl Jakobs, J.-M. Gaillard, Francesca Nessi-Tedaldi, G. Blaylock, S. N. Tovey, Giovanni Carboni, A. Cravero, P. Bareyre, P. Cenci, Roberto Ferrari, I.A. Bertram, V. Simak, O. Gildemeister, Claus Gössling, J. C. Chollet, G. Parrour, F. Pastore, S. L. Singh, Cinzia Talamonti, Valerio Vercesi, F. Gianotti, D. Cavalli, Adele Rimoldi, R. Ansari, P. Lubrano, Sten Hellman, L. Linssen, M. Primavera, Steinar Stapnes, R. S. DeWolf, L. Malgeri, T. Pal, E. Pennacchio, S. Grünendahl, F. Costa, Massimiliano F. Sacchi, A. Zylberstejn, P. Bonamy, G. Polesello, T. O. White, K. Borer, N. Kurz, Andrea Dell'Acqua, B. Merkel, D. J. Munday, S. Lami, V. Sondermann, P. S. Wells, G. Fumagalli, R. Spiwoks, L. Müller, H. Plothow-Besch, Laura Perini, Klaus Peter Pretzl, M. Pepe, G. Unal, Andrea Federspiel, B. Schmidt, Michel Lefebvre, M. Bourliaud, Paola Scampoli, J. P. Repellin, Paolo Lariccia, Marco Fraternali, Marzio Nessi, H. Hufnagel, B. Esposito, E. E. Kluge, D. Buskulic, Louis Fayard, F. Costantini, S. A. Wotton, K. Hultqvist, M. Curatolo, L. DiLella, Peter Jenni, Alan Poppleton, J. Schacher, Livio Mapelli, Michael Andrew Parker, Darien Wood, M. Morganti, V. G. Goggi, J. Incandela, J.M. Pentney, R. Moning, M. Moniez, K. Hara, C. Conta, Luca Cozzi, D. Autiero, Daniel Froidevaux, K. Meier, E. Tsesmelis, E. Hugentobler, E. Iacopini, M. Valdata-Nappi, Vincenzo Cavasinni, M. Punturo, Michele Livan, J. Alitti, C. Magneville, J., Alitti, G., Ambrosini, R., Ansari, D., Autiero, P., Bareyre, I. A., Bertram, G., Blaylock, P., Bonamy, K., Borer, M., Bourliaud, D., Buskulic, G., Carboni, D., Cavalli, V., Cavasinni, P., Cenci, J. C., Chollet, C., Conta, G., Costa, F., Costantini, L., Cozzi, A., Cravero, M., Curatolo, A., Dellacqua, T., Delprete, R. S., Dewolf, L., Dilella, Y., Ducro, G. F., Egan, K. F., Einsweiler, B., Esposito, L., Fayard, A., Federspiel, R., Ferrari, M., Fraternali, D., Froidevaux, G., Fumagalli, J. M., Gaillard, F., Gianotti, O., Gildemeister, C., Gossling, V. G., Goggi, S., Grunendahl, K., Hara, S., Hellman, J., Hrivnac, H., Hufnagel, E., Hugentobler, K., Hultqvist, E., Iacopini, J., Incandela, K., Jakob, P., Jenni, E. E., Kluge, N., Kurz, S., Lami, P., Lariccia, M., Lefebvre, L., Linssen, M., Livan, P., Lubrano, C., Magneville, L., Malgeri, L., Mandelli, L., Mapelli, M., Mazzanti, K., Meier, B., Merkel, J. P., Meyer, M., Moniez, R., Moning, M., Morganti, L., Muller, D. J., Munday, M., Nessi, F., Nessitedaldi, C., Onion, T., Pal, M. A., Parker, G., Parrour, F., Pastore, E., Pennacchio, J. M., Pentney, M., Pepe, L., Perini, C., Petridou, P., Petroff, H., Plothowbesch, G., Polesello, A., Poppleton, K., Pretzl, M., Primavera, M., Punturo, J. P., Repellin, A., Rimoldi, M., Sacchi, Scampoli, Paola, J., Schacher, B., Schmidt, V., Simak, S. L., Singh, V., Sondermann, R., Spiwok, S., Stapne, C., Talamonti, F., Tondini, S. N., Tovey, E., Tsesmeli, G., Unal, M., Valdatanappi, V., Vercesi, A. R., Weidberg, P. S., Well, T. O., White, D. R., Wood, S. A., Wotton, H., Zaccone, and A., Zylberstejn

Subjects
Physics, Nuclear and High Energy Physics, Particle physics, Photon, Luminosity (scattering theory), Large Hadron Collider, Astrophysics::High Energy Astrophysical Phenomena, TRANSVERSE-MOMENTUM, Perturbative QCD, QCD, Standard deviation, lcsh:QC1-999, law.invention, Nuclear physics, PBARP COLLIDER, law, UA2 EXPERIMENT, High Energy Physics::Experiment, Production (computer science), Collider, SCINTILLATING FIBER DETECTOR, lcsh:Physics, Bar (unit)
Abstract

A measurement of the cross-sections for single and double prompt photon production in p p interactions at s = 630 GeV is presented. The data sample corresponds to an integrated luminosity of 13.2 pb−1. The results are in good agreement with the predictions of perturbative QCD. The signal from double prompt photon production has a statistical significance of 4.3 standard deviations.

Published
1992

29. A Search For Charged Higgs From Top Quark Decay At the Cern (p)bar-p Collider

Author

P. Lubrano, L. Linssen, P. Bonamy, Daniel Froidevaux, Francesca Nessi-Tedaldi, A. Cravero, Claus Gössling, H. Zaccone, Marcello Mazzanti, Marzio Nessi, G. Blaylock, K. Meier, M. Primavera, Julius Hrivnac, O. Gildemeister, Klaus Peter Pretzl, Roberto Ferrari, J. C. Chollet, Laura Perini, Sten Hellman, C. Magneville, A. Zylberstejn, M. Punturo, G. Polesello, C. Conta, K. Borer, Luca Cozzi, T. DelPrete, Alan Poppleton, J. Alitti, R. Spiwoks, M. Moniez, Giovanna Ambrosini, Livio Mapelli, L. Malgeri, T. Pal, G. Unal, G. Parrour, J. P. Repellin, A. R. Weidberg, E. Pennacchio, Michael Andrew Parker, Darien Wood, G. Fumagalli, Michele Livan, B. Merkel, S. Lami, E. E. Kluge, L. Mandelli, B. Esposito, D. Buskulic, A. Dell'Acqua, Giovanni Carboni, V. Simak, I.A. Bertram, P. S. Wells, E. Tsesmelis, B. Schmidt, S. L. Singh, R. Ansari, S. A. Wotton, K. Hultqvist, M. Morganti, L. DiLella, Valerio Vercesi, E. Hugentobler, J. Schacher, D. Autiero, F. Pastore, Massimiliano F. Sacchi, Peter Jenni, Kevin Einsweiler, F. Gianotti, M. Valdata-Nappi, F. Tondini, E. Iacopini, N. Kurz, V. G. Goggi, F. Costantini, Michel Lefebvre, M. Bourliaud, Paola Scampoli, J.M. Pentney, Cinzia Talamonti, C. Onions, Vincenzo Cavasinni, Marco Fraternali, H. Hufnagel, P. Bareyre, K. Hara, P. Petroff, Y. Ducros, Karl Jakobs, G. Costa, M. Curatolo, J. Incandela, J. M. Gaillard, D. Cavalli, Adele Rimoldi, Steinar Stapnes, R. S. DeWolf, T. O. White, R. Moning, D. J. Munday, H. Plothow-Besch, Andrea Federspiel, Paolo Lariccia, S. N. Tovey, J-P. Meyer, Chariclia Petridou, Gary F. Egan, P. Cenci, S. Grünendahl, V. Sondermann, L. Müller, Louis Fayard, M. Pepe, J., Alitti, G., Ambrosini, R., Ansari, D., Autiero, P., Bareyre, I. A., Bertram, G., Blaylock, P., Bonamy, K., Borer, M., Bourliaud, D., Buskulic, G., Carboni, D., Cavalli, V., Cavasinni, P., Cenci, J. C., Chollet, C., Conta, G., Costa, F., Costantini, L., Cozzi, A., Cravero, M., Curatolo, A., Dellacqua, T., Delprete, R. S., Dewolf, L., Dilella, Y., Ducro, G. F., Egan, K. F., Einsweiler, B., Esposito, L., Fayard, A., Federspiel, R., Ferrari, M., Fraternali, D., Froidevaux, G., Fumagalli, J. M., Gaillard, F., Gianotti, O., Gildemeister, C., Gossling, V. G., Goggi, S., Grunendahl, K., Hara, S., Hellman, J., Hrivnac, H., Hufnagel, E., Hugentobler, K., Hultqvist, E., Iacopini, J., Incandela, K., Jakob, P., Jenni, E. E., Kluge, N., Kurz, S., Lami, P., Lariccia, M., Lefebvre, L., Linssen, M., Livan, P., Lubrano, C., Magneville, L., Malgeri, L., Mandelli, L., Mapelli, M., Mazzanti, K., Meier, B., Merkel, J. P., Meyer, M., Moniez, R., Moning, M., Morganti, L., Muller, D. J., Munday, M., Nessi, F., Nessitedaldi, C., Onion, T., Pal, M. A., Parker, G., Parrour, F., Pastore, E., Pennacchio, J. M., Pentney, M., Pepe, L., Perini, C., Petridou, P., Petroff, H., Plothowbesch, G., Polesello, A., Poppleton, K., Pretzl, M., Primavera, M., Punturo, J. P., Repellin, A., Rimoldi, M., Sacchi, Scampoli, Paola, J., Schacher, B., Schmidt, V., Simak, S. L., Singh, V., Sondermann, R., Spiwok, S., Stapne, C., Talamonti, F., Tondini, S. N., Tovey, E., Tsesmeli, G., Unal, M., Valdatanappi, V., Vercesi, A. R., Weidberg, P. S., Well, T. O., White, D. R., Wood, S. A., Wotton, H., Zaccone, and A., Zylberstejn

Subjects
Nuclear physics, Physics, Nuclear and High Energy Physics, Top quark, Particle physics, Large Hadron Collider, LUND MONTE-CARLO, Higgs boson, UA2 EXPERIMENT, SCINTILLATING FIBER DETECTOR, Z0 DECAYS, Conjugate
Abstract

The process t-H+b, H+ --> tau+nu, tau+ --> hadrons + nuBar and its charge conjugate are investigated by seeking an excess in number of observed theta's beyond that expected from the standard model under the assumption of e-tau-universality. No such excess is found and new regions of the m(H)-m(t) plane are excluded for B(H+ --> tau(nu) = 0.5 and 1.O. In addition, the ratio of couplings of the tau and eto the W is precisely measured as g-tau(W)/g-e(W) = 1.02 +/- 0.04(stat.) +/- 0.04(syst.).

Published
1992

30. A Search For Scalar Leptoquarks At the Cern Pbarp Collider

Author

Alitti, J, Ambrosini, G, Ansari, R, Autiero, D, Bareyre, P, Bertram, Ia, Blaylock, G, Bonamy, P, Borer, K, Bourliaud, M, Buskulic, D, Carboni, G, Cavalli, D, Cavasinni, Vincenzo, Cenci, P, Chollet, Jc, Conta, C, Costa, G, Costantini, Flavio, Cozzi, L, Cravero, A, Curatolo, M, Dellacqua, A, Delprete, T, Dewolf, Rs, Dilella, L, Ducros, Y, Egan, Gf, Einsweiler, Kf, Esposito, B, Fayard, L, Federspiel, A, Ferrari, R, Fraternali, M, Froidevaux, D, Fumagalli, G, Gaillard, Jm, Gianotti, F, Gildemeister, O, Gossling, C, Goggi, Vg, Grunendahl, S, Hara, K, Hellman, S, Hrivnac, J, Hufnagel, H, Hugentobler, E, Hultqvist, K, Iacopini, E, Incandela, J, Jakobs, K, Jenni, P, Kluge, Ee, Kurz, N, Lami, S, Lariccia, P, Lefebvre, M, Linssen, L, Livan, M, Lubrano, P, Magneville, C, Mandelli, L, Mapelli, L, Mazzanti, M, Meier, K, Merkel, B, Meyer, Jp, Moniez, M, Moning, R, Morganti, M, Muller, L, Munday, Dj, Nessi, M, Nessitedaldi, F, Onions, C, Pal, T, Parker, Ma, Parrour, G, Pastore, F, Pennacchio, E, Pentney, Jm, Pepe, M, Perini, L, Petridou, C, Petroff, P, Plothowbesch, H, Polesello, G, Poppleton, A, Pretzl, K, Primavera, M, Punturo, M, Repellin, Jp, Rimoldi, A, Sacchi, M, Scampoli, P, Schacher, J, Schmidt, B, Simak, V, Singh, Sl, Sondermann, V, Spiwoks, R, Stapnes, S, Talamonti, C, Tondini, F, Tovey, Sn, Tsesmelis, E, Unal, G, Valdatanappi, M, Vercesi, V, Weidberg, Ar, Wells, Ps, White, To, Wood, Dr, Wotton, Sa, Zaccone, H, Zylberstejn, A., J., Alitti, G., Ambrosini, R., Ansari, D., Autiero, P., Bareyre, I. A., Bertram, G., Blaylock, P., Bonamy, K., Borer, M., Bourliaud, D., Buskulic, G., Carboni, D., Cavalli, V., Cavasinni, P., Cenci, J. C., Chollet, C., Conta, G., Costa, F., Costantini, L., Cozzi, A., Cravero, M., Curatolo, A., Dellacqua, T., Delprete, R. S., Dewolf, L., Dilella, Y., Ducro, G. F., Egan, K. F., Einsweiler, B., Esposito, L., Fayard, A., Federspiel, R., Ferrari, M., Fraternali, D., Froidevaux, G., Fumagalli, J. M., Gaillard, F., Gianotti, O., Gildemeister, C., Gossling, V. G., Goggi, S., Grunendahl, K., Hara, S., Hellman, J., Hrivnac, H., Hufnagel, E., Hugentobler, K., Hultqvist, E., Iacopini, J., Incandela, K., Jakob, P., Jenni, E. E., Kluge, N., Kurz, S., Lami, P., Lariccia, M., Lefebvre, L., Linssen, M., Livan, P., Lubrano, C., Magneville, L., Mandelli, L., Mapelli, M., Mazzanti, K., Meier, B., Merkel, J. P., Meyer, M., Moniez, R., Moning, M., Morganti, L., Muller, D. J., Munday, M., Nessi, F., Nessitedaldi, C., Onion, T., Pal, M. A., Parker, G., Parrour, F., Pastore, E., Pennacchio, J. M., Pentney, M., Pepe, L., Perini, C., Petridou, P., Petroff, H., Plothowbesch, G., Polesello, A., Poppleton, K., Pretzl, M., Primavera, M., Punturo, J. P., Repellin, A., Rimoldi, M., Sacchi, Scampoli, Paola, J., Schacher, B., Schmidt, V., Simak, S. L., Singh, V., Sondermann, R., Spiwok, S., Stapne, C., Talamonti, F., Tondini, S. N., Tovey, E., Tsesmeli, G., Unal, M., Valdatanappi, V., Vercesi, A. R., Weidberg, P. S., Well, T. O., White, D. R., Wood, S. A., Wotton, H., Zaccone, and A., Zylberstejn

Subjects
W-BOSONS, Physics::Instrumentation and Detectors, LUND MONTE-CARLO, High Energy Physics::Phenomenology, UA2 EXPERIMENT, JETS, High Energy Physics::Experiment
Abstract

A search has been made for scalar leptoquark pair production with the upgraded UA2 detector at the CERN ppBAR Coolider at square-root s = 630 GeV, investigating decays of the leptoquark into a quark and either an electron or an electron neutrino. From an event sample corresponding to an integrated luminosity of 13 pb-1 a lower limit has been determined for the mass of first generation leptoquarks, yielding 67 GeV (95% CL) for a scalar leptoquark decaying with a 50% branching ratio into a quark and an electron.

Published
1992

31. An Improved Determination of the Ratio of W and Z Masses At the Cern Pbarp Collider

Author

P. Bonamy, Gary F. Egan, H. Zaccone, C. Magneville, Giovanna Ambrosini, Sten Hellman, Michel Lefebvre, M. Bourliaud, Paola Scampoli, D. Cavalli, Marco Fraternali, Michele Livan, K. Borer, Klaus Peter Pretzl, E. Tsesmelis, H. Plothow-Besch, E. Iacopini, B. Schmidt, Adele Rimoldi, E. Hugentobler, M. Valdata-Nappi, C. Onions, M. Primavera, Vincenzo Cavasinni, C. Conta, J-P. Meyer, P. Petroff, A. Zylberstejn, Chariclia Petridou, Luca Cozzi, F. Costantini, Karl Jakobs, Marcello Mazzanti, G. Parrour, Giovanni Carboni, I.A. Bertram, P. S. Wells, M. Punturo, B. Merkel, S. N. Tovey, G. Blaylock, L. Mandelli, J. Alitti, Andrea Federspiel, P. Cenci, Francesca Nessi-Tedaldi, A. Cravero, Valerio Vercesi, F. Pastore, Cinzia Talamonti, S. Grünendahl, F. Gianotti, V. G. Goggi, J.M. Pentney, G. Polesello, T. Pal, Paolo Lariccia, Daniel Froidevaux, V. Sondermann, T. O. White, J. Schacher, K. Meier, K. Hara, T. DelPrete, S. L. Singh, L. Müller, A. R. Weidberg, S. Lami, G. Fumagalli, Kevin Einsweiler, Roberto Ferrari, J. C. Chollet, G. Costa, F. Tondini, P. Bareyre, R. Spiwoks, Steinar Stapnes, R. S. DeWolf, V. Šimák, D. J. Munday, G. Unal, B. Esposito, D. Buskulic, J. Hřivnáč, M. Pepe, S. A. Wotton, K. Hultqvist, L. DiLella, Peter Jenni, Louis Fayard, Michael Andrew Parker, Darien Wood, M. Curatolo, N. Kurz, Claus Gössling, O. Gildermeister, E. Pennacchio, A. Dell'Acqua, D. Autiero, Y. Ducros, R. Ansari, Massimiliano F. Sacchi, Laura Perini, J. P. Repellin, H. Hufnagel, Alan Poppleton, Livio Mapelli, P. Lubrano, L. Linssen, M. Moniez, Marzio Nessi, M. Morganti, J. Incandela, R. Moning, E. E. Kluge, J., Alitti, G., Ambrosini, R., Ansari, D., Autiero, P., Bareyre, I. A., Bertram, G., Blaylock, P., Bonamy, K., Borer, M., Bourliaud, D., Buskulic, G., Carboni, D., Cavalli, V., Cavasinni, P., Cenci, J. C., Chollet, C., Conta, G., Costa, F., Costantini, L., Cozzi, A., Cravero, M., Curatolo, A., Dellacqua, T., Delprete, R. S., Dewolf, L., Dilella, Y., Ducro, G. F., Egan, K. F., Einsweiler, B., Esposito, L., Fayard, A., Federspiel, R., Ferrari, M., Fraternali, D., Froidevaux, G., Fumagalli, J. M., Gaillard, F., Gianotti, O., Gildemeister, C., Gossling, V. G., Goggi, S., Grunendahl, K., Hara, S., Hellman, J., Hrivnac, H., Hufnagel, E., Hugentobler, K., Hultqvist, E., Iacopini, J., Incandela, K., Jakob, P., Jenni, E. E., Kluge, N., Kurz, S., Lami, P., Lariccia, M., Lefebvre, L., Linssen, M., Livan, P., Lubrano, C., Magneville, L., Mandelli, L., Mapelli, M., Mazzanti, K., Meier, B., Merkel, J. P., Meyer, M., Moniez, R., Moning, M., Morganti, L., Muller, D. J., Munday, M., Nessi, F., Nessitedaldi, C., Onion, T., Pal, M. A., Parker, G., Parrour, F., Pastore, E., Pennacchio, J. M., Pentney, M., Pepe, L., Perini, C., Petridou, P., Petroff, H., Plothowbesch, G., Polesello, A., Poppleton, K., Pretzl, M., Primavera, M., Punturo, J. P., Repellin, A., Rimoldi, M., Sacchi, Scampoli, Paola, J., Schacher, B., Schmidt, V., Simak, S. L., Singh, V., Sondermann, R., Spiwok, S., Stapne, C., Talamonti, F., Tondini, S. N., Tovey, E., Tsesmeli, G., Unal, M., Valdatanappi, V., Vercesi, A. R., Weidberg, P. S., Well, T. O., White, D. R., Wood, S. A., Wotton, H., Zaccone, and A., Zylberstejn

Subjects
Physics, Nuclear and High Energy Physics, Particle physics, Top quark, Large Hadron Collider, Weinberg angle, Standard Model, law.invention, Nuclear physics, law, PARTON DISTRIBUTIONS, W′ and Z′ bosons, RADIATIVE-CORRECTIONS, Collider
Abstract

The W and Z bosons masses, m(W) and m(Z), are measured using samples of W --> ev and Z --> e+e- decays observed in ppBAR collisions at square-root s = 630 GeV. The ratio is found to be m(W)/m(Z) = 0.8813 +/- 0.0036 +/- 0.0019. This gives a value sin2 theta(w) = 0.2234 +/- 0.0064 +/- 0.0033, and in combination with precise m(Z) measurements from LEP yields m(W) = 80.35 +/- 0.33 +/- 0.17 GeV. This result is in good agreement with other experiments, and with the standard model for a top quark mass lighter than 250 GeV.

Published
1992

32. Experimental Limit On the Decay W+--]pi+-gamma At the Cern Pbarp Collider

Author

Alitti, J, Ambrosini, G, Ansari, R, Autiero, D, Bareyre, P, Bertram, Ia, Blaylock, G, Bonamy, P, Borer, K, Bourliaud, M, Buskulic, D, Carboni, G, Cavalli, D, Cavasinni, Vincenzo, Cenci, P, Chollet, Jc, Conta, C, Costa, G, Costantini, Flavio, Cozzi, L, Cravero, A, Curatolo, M, Dellacqua, A, Delprete, T, Dewolf, Rs, Dilella, L, Ducros, Y, Egan, Gf, Einsweiler, Kf, Esposito, B, Fayard, L, Federspiel, A, Ferrari, R, Fraternali, M, Froidevaux, D, Fumagalli, G, Gaillard, Jm, Gianotti, F, Gildemeister, O, Gossling, C, Goggi, Vg, Grunendahl, S, Hara, K, Hellman, S, Hrivnac, J, Hufnagel, H, Hugentobler, E, Hultqvist, K, Iacopini, E, Incandela, J, Jakobs, K, Jenni, P, Kluge, Ee, Kurz, N, Lami, S, Lariccia, P, Lefebvre, M, Linssen, L, Livan, M, Lubrano, P, Magneville, C, Mandelli, L, Mapelli, L, Mazzanti, M, Meier, K, Merkel, B, Meyer, Jp, Moniez, M, Moning, R, Morganti, M, Muller, L, Munday, Dj, Nessi, M, Nessitedaldi, F, Onions, C, Pal, T, Parker, Ma, Parrour, G, Pastore, F, Pennacchio, E, Pentney, Jm, Pepe, M, Perini, L, Petridou, C, Petroff, P, Plothowbesch, H, Polesello, G, Poppleton, A, Pretzl, K, Primavera, M, Punturo, M, Repellin, Jp, Rimoldi, A, Sacchi, M, Scampoli, P, Schacher, J, Schmidt, B, Simak, V, Singh, Sl, Sondermann, V, Spiwoks, R, Stapnes, S, Talamonti, C, Tondini, F, Tovey, Sn, Tsesmelis, E, Unal, G, Valdatanappi, M, Vercesi, V, Weidberg, Ar, Wells, Ps, White, To, Wood, Dr, Wotton, Sa, Zaccone, H, Zylberstejn, A., J., Alitti, G., Ambrosini, R., Ansari, D., Autiero, P., Bareyre, I. A., Bertram, G., Blaylock, P., Bonamy, K., Borer, M., Bourliaud, D., Buskulic, G., Carboni, D., Cavalli, V., Cavasinni, P., Cenci, J. C., Chollet, C., Conta, G., Costa, F., Costantini, L., Cozzi, A., Cravero, M., Curatolo, A., Dellacqua, T., Delprete, R. S., Dewolf, L., Dilella, Y., Ducro, G. F., Egan, K. F., Einsweiler, B., Esposito, L., Fayard, A., Federspiel, R., Ferrari, M., Fraternali, D., Froidevaux, G., Fumagalli, J. M., Gaillard, F., Gianotti, O., Gildemeister, C., Gossling, V. G., Goggi, S., Grunendahl, K., Hara, S., Hellman, J., Hrivnac, H., Hufnagel, E., Hugentobler, K., Hultqvist, E., Iacopini, J., Incandela, K., Jakob, P., Jenni, E. E., Kluge, N., Kurz, S., Lami, P., Lariccia, M., Lefebvre, L., Linssen, M., Livan, P., Lubrano, C., Magneville, L., Mandelli, L., Mapelli, M., Mazzanti, K., Meier, B., Merkel, J. P., Meyer, M., Moniez, R., Moning, M., Morganti, L., Muller, D. J., Munday, M., Nessi, F., Nessitedaldi, C., Onion, T., Pal, M. A., Parker, G., Parrour, F., Pastore, E., Pennacchio, J. M., Pentney, M., Pepe, L., Perini, C., Petridou, P., Petroff, H., Plothowbesch, G., Polesello, A., Poppleton, K., Pretzl, M., Primavera, M., Punturo, J. P., Repellin, A., Rimoldi, M., Sacchi, Scampoli, Paola, J., Schacher, B., Schmidt, V., Simak, S. L., Singh, V., Sondermann, R., Spiwok, S., Stapne, C., Talamonti, F., Tondini, S. N., Tovey, E., Tsesmeli, G., Unal, M., Valdatanappi, V., Vercesi, A. R., Weidberg, P. S., Well, T. O., White, D. R., Wood, S. A., Wotton, H., Zaccone, and A., Zylberstejn

Subjects
UA2 EXPERIMENT, SCINTILLATING FIBER DETECTOR
Abstract

Results are given on a search for the decay W+/- --> pi+/--gamma with the UA2 detector in ppBAR collisions at square-root s = 630 GeV. No signal for such a process is observed and upper limits on the ratio R = GAMMA(W+/- --> pi+/--gamma)/GAMMA(W+/- --> e+/--nu) < 4.9 x 10(-3) and on the branching ratio BR(W+/- --> pi+/--gamma) < 5.4 x 10(-4) are derived at 95% confidence level.

Published
1992

33. Robust machine learning challenge: An AIFM multicentric competition to spread knowledge, identify common pitfalls and recommend best practice.

Author

Maddalo M, Fanizzi A, Lambri N, Loi E, Branchini M, Lorenzon L, Giuliano A, Ubaldi L, Saponaro S, Signoriello M, Fadda F, Belmonte G, Giannelli M, Talamonti C, Iori M, Tangaro S, Massafra R, Mancosu P, and Avanzo M

Abstract

Purpose: A novel and unconventional approach to a machine learning challenge was designed to spread knowledge, identify robust methods and highlight potential pitfalls about machine learning within the Medical Physics community., Methods: A public dataset comprising 41 radiomic features and 535 patients was employed to assess the potential of radiomics in distinguishing between primary lung tumors and metastases. Each participant developed two classification models using: (i) all features (base model); (ii) only robust features (robust model). Both models were validated with cross-validation and on unseen data. The population stability index (PSI) was used as diagnostic metric for implementation issues. Performance was compared to reference. Base and robust models were compared in terms of performance and stability (coefficient of variation (CoV) of prediction probabilities)., Results: PSI detected potential implementation errors in 70 % of models. The dataset exhibited strong imbalance. The average Gmean (i.e. an appropriate metric for imbalance) among all participants was 0.67 ± 0.01, significantly higher than reference Gmean of 0.50 ± 0.04. Robust models performances were slightly worse than base models (p < 0.05). Regarding stability, robust models exhibited lower median CoV on training set only., Conclusion: AI4MP-Challenge models overperformed the reference, significantly improving the Gmean. Exclusion of less-robust features did not improve model robustness and it should be avoided when confounding effects are absent. Other methods, like harmonization or data augmentation, should be evaluated. This study demonstrated how the collaborative effort to foster knowledge on machine learning among medical physicists, through interactive sessions and exchange of information among participants, can result in improved models., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Associazione Italiana di Fisica Medica e Sanitaria. Published by Elsevier Ltd. All rights reserved.)

Published
2024
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34. Mobility Gaps of Hydrogenated Amorphous Silicon Related to Hydrogen Concentration and Its Influence on Electrical Performance.

Author

Peverini F, Aziz S, Bashiri A, Bizzarri M, Boscardin M, Calcagnile L, Calcatelli C, Calvo D, Caponi S, Caprai M, Caputo D, Caricato AP, Catalano R, Cirro R, Cirrone GAP, Crivellari M, Croci T, Cuttone G, de Cesare G, De Remigis P, Dunand S, Fabi M, Frontini L, Fanò L, Gianfelici B, Grimani C, Hammad O, Ionica M, Kanxheri K, Large M, Lenta F, Liberali V, Lovecchio N, Martino M, Maruccio G, Mazza G, Menichelli M, Monteduro AG, Moscatelli F, Morozzi A, Nascetti A, Pallotta S, Papi A, Passeri D, Petasecca M, Petringa G, Pis I, Placidi P, Quarta G, Rizzato S, Rossi A, Rossi G, Sabbatini F, Scorzoni A, Servoli L, Stabile A, Tacchi S, Talamonti C, Thomet J, Tosti L, Verzellesi G, Villani M, Wheadon RJ, Wyrsch N, Zema N, and Pedio M

Abstract

This paper presents a comprehensive study of hydrogenated amorphous silicon (a-Si)-based detectors, utilizing electrical characterization, Raman spectroscopy, photoemission, and inverse photoemission techniques. The unique properties of a-Si have sparked interest in its application for radiation detection in both physics and medicine. Although amorphous silicon (a-Si) is inherently a highly defective material, hydrogenation significantly reduces defect density, enabling its use in radiation detector devices. Spectroscopic measurements provide insights into the intricate relationship between the structure and electronic properties of a-Si, enhancing our understanding of how specific configurations, such as the choice of substrate, can markedly influence detector performance. In this study, we compare the performance of a-Si detectors deposited on two different substrates: crystalline silicon (c-Si) and flexible Kapton. Our findings suggest that detectors deposited on Kapton exhibit reduced sensitivity, despite having comparable noise and leakage current levels to those on crystalline silicon. We hypothesize that this discrepancy may be attributed to the substrate material, differences in film morphology, and/or the alignment of energy levels. Further measurements are planned to substantiate these hypotheses.

Published
2024
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35. Advancing patient setup: A comprehensive scoping review of tattoo-less techniques in radiation therapy.

Author

Lastrucci A, Marrazzo L, Meattini I, Simontacchi G, Wandael Y, Talamonti C, Pallotta S, Ricci R, and Livi L

Abstract

In recent years, alternative methods to dark ink tattoos for patient positioning in radiotherapy have been explored. This review aims to analyse the evidence for alternative strategies to traditional dark tattoos. An electronic search was conducted in PubMed, EMBASE, Cochrane Library, Web of Sciences and SCOPUS. Twenty-one articles out of 383 titles fulfilled the selection criteria and were included in the review. These studies were categorized into tattoo-less methods (n=14), UV ink tattoos (n=4) and other techniques (n=3). In most of the selected articles (n=13) focusing on tattoo-less treatments, SGRT is used for patient positioning. These three alternative techniques to dark tattoos are used in different anatomical regions and treatment modalities, with breast cancer being the most prevalent. Tattoo-less techniques are a promising alternative to traditional tattoo-based methods for patient positioning. They have the potential to improve the patient experience and represent an area of ongoing innovation and improvement., Competing Interests: Declaration of Competing Interest Icro Meattini declares occasional small fees received for advisory boards supported by Eli Lilly, Novartis, Astra Zeneca, Daiichi Sankyo, Gilead, SeaGen, Pfizer, Menarini StemLine. No other conflicts of interest are declared for the remaining authors., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published
2024
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36. Developing an ensemble machine learning study: Insights from a multi-center proof-of-concept study.

Author

Fanizzi A, Fadda F, Maddalo M, Saponaro S, Lorenzon L, Ubaldi L, Lambri N, Giuliano A, Loi E, Signoriello M, Branchini M, Belmonte G, Giannelli M, Mancosu P, Talamonti C, Iori M, Tangaro S, Avanzo M, and Massafra R

Subjects
Humans, Tomography, X-Ray Computed methods, Proof of Concept Study, Female, Male, Machine Learning, Lung Neoplasms diagnostic imaging, Lung Neoplasms diagnosis, Algorithms
Abstract

Background: To address the numerous unmeet clinical needs, in recent years several Machine Learning models applied to medical images and clinical data have been introduced and developed. Even when they achieve encouraging results, they lack evolutionary progression, thus perpetuating their status as autonomous entities. We postulated that different algorithms which have been proposed in the literature to address the same diagnostic task, can be aggregated to enhance classification performance. We suggested a proof of concept to define an ensemble approach useful for integrating different algorithms proposed to solve the same clinical task., Methods: The proposed approach was developed starting from a public database consisting of radiomic features extracted from CT images relating to 535 patients suffering from lung cancer. Seven algorithms were trained independently by participants in the AI4MP working group on Artificial Intelligence of the Italian Association of Physics in Medicine to discriminate metastatic from non-metastatic patients. The classification scores generated by these algorithms are used to train SVM classifier. The Explainable Artificial Intelligence approach is applied to the final model. The ensemble model was validated following an 80-20 hold-out and leave-one-out scheme on the training set., Results: Compared to individual algorithms, a more accurate result was achieved. On the independent test the ensemble model achieved an accuracy of 0.78, a F1-score of 0.57 and a log-loss of 0.49. Shapley values representing the contribution of each algorithm to the final classification result of the ensemble model were calculated. This information represents an added value for the end user useful for evaluating the appropriateness of the classification result on a particular case. It also allows us to evaluate on a global level which methodological approaches of the individual algorithms are likely to have the most impact., Conclusion: Our proposal represents an innovative approach useful for integrating different algorithms that populate the literature and which lays the foundations for future evaluations in broader application scenarios., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2024 Fanizzi et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published
2024
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37. Radiomic- and dosiomic-based clustering development for radio-induced neurotoxicity in pediatric medulloblastoma.

Author

Piffer S, Greto D, Ubaldi L, Mortilla M, Ciccarone A, Desideri I, Genitori L, Livi L, Marrazzo L, Pallotta S, Retico A, Sardi I, and Talamonti C

Subjects
Humans, Child, Female, Male, Retrospective Studies, Adolescent, Child, Preschool, Craniospinal Irradiation methods, Craniospinal Irradiation adverse effects, Neurotoxicity Syndromes etiology, Neurotoxicity Syndromes diagnostic imaging, Machine Learning, Cluster Analysis, Radiomics, Medulloblastoma radiotherapy, Medulloblastoma diagnostic imaging, Cerebellar Neoplasms radiotherapy, Cerebellar Neoplasms diagnostic imaging, Magnetic Resonance Imaging methods
Abstract

Background: Texture analysis extracts many quantitative image features, offering a valuable, cost-effective, and non-invasive approach for individual medicine. Furthermore, multimodal machine learning could have a large impact for precision medicine, as texture biomarkers can underlie tissue microstructure. This study aims to investigate imaging-based biomarkers of radio-induced neurotoxicity in pediatric patients with metastatic medulloblastoma, using radiomic and dosiomic analysis., Methods: This single-center study retrospectively enrolled children diagnosed with metastatic medulloblastoma (MB) and treated with hyperfractionated craniospinal irradiation (CSI). Histological confirmation of medulloblastoma and baseline follow-up magnetic resonance imaging (MRI) were mandatory. Treatment involved helical tomotherapy (HT) delivering a dose of 39 Gray (Gy) to brain and spinal axis and a posterior fossa boost up to 60 Gy. Clinical outcomes, such as local and distant brain control and neurotoxicity, were recorded. Radiomic and dosiomic features were extracted from tumor regions on T1, T2, FLAIR (fluid-attenuated inversion recovery) MRI-maps, and radiotherapy dose distribution. Different machine learning feature selection and reduction approaches were performed for supervised and unsupervised clustering., Results: Forty-eight metastatic medulloblastoma patients (29 males and 19 females) with a mean age of 12 ± 6 years were enrolled. For each patient, 332 features were extracted. Greater level of abstraction of input data by combining selection of most performing features and dimensionality reduction returns the best performance. The resulting one-component radiomic signature yielded an accuracy of 0.73 with sensitivity, specificity, and precision of 0.83, 0.64, and 0.68, respectively., Conclusions: Machine learning radiomic-dosiomic approach effectively stratified pediatric medulloblastoma patients who experienced radio-induced neurotoxicity. Strategy needs further validation in external dataset for its potential clinical use in ab initio management paradigms of medulloblastoma., (© 2024. The Author(s).)

Published
2024
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38. Dosimetry of microbeam radiotherapy by flexible hydrogenated amorphous silicon detectors.

Author

Large MJ, Kanxheri K, Posar J, Aziz S, Bashiri A, Calcagnile L, Calvo D, Caputo D, Caricato AP, Catalano R, Cirio R, Cirrone GAP, Croci T, Cuttone G, De Cesare G, De Remigis P, Dunand S, Fabi M, Frontini L, Grimani C, Guarrera M, Ionica M, Lenta F, Liberali V, Lovecchio N, Martino M, Maruccio G, Mazza G, Menichelli M, Monteduro AG, Morozzi A, Moscatelli F, Nascetti A, Pallotta S, Passeri D, Pedio M, Petringa G, Peverini F, Placidi P, Quarta G, Rizzato S, Sabbatini F, Servoli L, Stabile A, Thomet JE, Tosti L, Villani M, Wheadon RJ, Wyrsch N, Zema N, Petasecca M, and Talamonti C

Subjects
Hydrogen, Radiotherapy instrumentation, Silicon chemistry, Radiometry instrumentation
Abstract

Objective. Detectors that can provide accurate dosimetry for microbeam radiation therapy (MRT) must possess intrinsic radiation hardness, a high dynamic range, and a micron-scale spatial resolution. In this work we characterize hydrogenated amorphous silicon detectors for MRT dosimetry, presenting a novel combination of flexible, ultra-thin and radiation-hard features. Approach. Two detectors are explored: an n-type/intrinsic/p-type planar diode (NIP) and an NIP with an additional charge selective layer (NIP + CSC). Results. The sensitivity of the NIP + CSC detector was greater than the NIP detector for all measurement conditions. At 1 V and 0 kGy under the 3T Cu-Cu synchrotron broadbeam, the NIP + CSC detector sensitivity of (7.76 ± 0.01) pC cGy -1 outperformed the NIP detector sensitivity of (3.55 ± 0.23) pC cGy -1 by 219%. The energy dependence of both detectors matches closely to the attenuation coefficient ratio of silicon against water. Radiation damage measurements of both detectors out to 40 kGy revealed a higher radiation tolerance in the NIP detector compared to the NIP + CSC (17.2% and 33.5% degradations, respectively). Percentage depth dose profiles matched the PTW microDiamond detector's performance to within ±6% for all beam filtrations except in 3T Al-Al due to energy dependence. The 3T Cu-Cu microbeam field profile was reconstructed and returned microbeam width and peak-to-peak values of (51 ± 1) μ m and (405 ± 5) μ m, respectively. The peak-to-valley dose ratio was measured as a function of depth and agrees within error to the values obtained with the PTW microDiamond. X-ray beam induced charge mapping of the detector revealed minimal dose perturbations from extra-cameral materials. Significance. The detectors are comparable to commercially available dosimeters for quality assurance in MRT. With added benefits of being micron-sized and possessing a flexible water-equivalent substrate, these detectors are attractive candidates for quality assurance, in-vivo dosimetry and in-line beam monitoring for MRT and FLASH therapy., (Creative Commons Attribution license.)

Published
2024
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39. The application of virtual environment radiotherapy for RTT training: A scoping review.

Author

Lastrucci A, Votta C, Serventi E, Cornacchione P, Francioni S, Wandael Y, Talamonti C, and Ricci R

Subjects
Humans, Radiotherapy, Clinical Competence, Virtual Reality
Abstract

Background: Virtual Environment Radiotherapy Training (VERT) is a virtual tool used in radiotherapy with a dual purpose: patient education and student training. This scoping review aims to identify the applications of VERT to acquire new skills in specific activities of Radiation Therapists (RTTs) clinical practice and education as reported in the literature. This scoping review will identify any gaps in this field and provide suggestions for future research., Methods: In accordance with Preferred Reporting Items for Systematic Review and Meta-Analysis (PRISMA) extension for scoping reviews and Arskey and O'Malley framework, an electronic search was conducted to retrieve complete original studies, reporting the use and implementation of VERT for teaching skills to RTTs. Studies were searched in PubMed, EMBASE, and SCOPUS databases and included retrieved articles if they investigated the use of VERT for RTTs training., Results: Of 251 titles, 16 articles fulfilled the selection criteria and most of the studies were qualitative evaluation studies (n=5) and pilot studies (n=4). The specific use of VERT for RTTs training was grouped into four categories (Planning CT, Set-up, IGRT, and TPS)., Conclusion: The use of VERT was described for each category by examining the interaction of the students or trainee RTTs in performing each phase within the virtual environment and describing their perceptions. This system Virtual Reality (VR) enables the development of specific motor skills without interfering and pressurising clinical resources by using clinical equipment in a risk-free offline environment, improving the clinical confidence of students or trainee RTTs. However, even if VR can be integrated into the RTTs training with a great advantage, VERT has still not been embraced. This mainly due to the presence of significant issues and limitations, such as inadequate coverage within the current literature, software and hardware costs., (Copyright © 2024. Published by Elsevier Inc.)

Published
2024
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40. Characterization of a flexible a-Si:H detector for in vivo dosimetry in therapeutic x-ray beams.

Author

Large MJ, Bashiri A, Dookie Y, McNamara J, Antognini L, Aziz S, Calcagnile L, Caricato AP, Catalano R, Chila D, Cirrone GAP, Croci T, Cuttone G, Dunand S, Fabi M, Frontini L, Grimani C, Ionica M, Kanxheri K, Liberali V, Maurizio M, Maruccio G, Mazza G, Menichelli M, Monteduro AG, Morozzi A, Moscatelli F, Pallotta S, Passeri D, Pedio M, Petringa G, Peverini F, Piccolo L, Placidi P, Quarta G, Rizzato S, Sabbatini F, Servoli L, Stabile A, Talamonti C, Thomet JE, Tosti L, Villani M, Wheadon RJ, Wyrsch N, Zema N, and Petasecca M

Subjects
Hydrogen, In Vivo Dosimetry, X-Ray Therapy instrumentation, Humans, Silicon, Radiometry instrumentation
Abstract

Background: The increasing use of complex and high dose-rate treatments in radiation therapy necessitates advanced detectors to provide accurate dosimetry. Rather than relying on pre-treatment quality assurance (QA) measurements alone, many countries are now mandating the use of in vivo dosimetry, whereby a dosimeter is placed on the surface of the patient during treatment. Ideally, in vivo detectors should be flexible to conform to a patient's irregular surfaces., Purpose: This study aims to characterize a novel hydrogenated amorphous silicon (a-Si:H) radiation detector for the dosimetry of therapeutic x-ray beams. The detectors are flexible as they are fabricated directly on a flexible polyimide (Kapton) substrate., Methods: The potential of this technology for application as a real-time flexible detector is investigated through a combined dosimetric and flexibility study. Measurements of fundamental dosimetric quantities were obtained including output factor (OF), dose rate dependence (DPP), energy dependence, percentage depth dose (PDD), and angular dependence. The response of the a-Si:H detectors investigated in this study are benchmarked directly against commercially available ionization chambers and solid-state diodes currently employed for QA practices., Results: The a-Si:H detectors exhibit remarkable dose linearities in the direct detection of kV and MV therapeutic x-rays, with calibrated sensitivities ranging from (0.580 ± 0.002) pC/cGy to (19.36 ± 0.10) pC/cGy as a function of detector thickness, area, and applied bias. Regarding dosimetry, the a-Si:H detectors accurately obtained OF measurements that parallel commercially available detector solutions. The PDD response closely matched the expected profile as predicted via Geant4 simulations, a PTW Farmer ionization chamber and a PTW ROOS chamber. The most significant variation in the PDD performance was 5.67%, observed at a depth of 3 mm for detectors operated unbiased. With an external bias, the discrepancy in PDD response from reference data was confined to ± 2.92% for all depths (surface to 250 mm) in water-equivalent plastic. Very little angular dependence is displayed between irradiations at angles of 0° and 180°, with the most significant variation being a 7.71% decrease in collected charge at a 110° relative angle of incidence. Energy dependence and dose per pulse dependence are also reported, with results in agreement with the literature. Most notably, the flexibility of a-Si:H detectors was quantified for sample bending up to a radius of curvature of 7.98 mm, where the recorded photosensitivity degraded by (-4.9 ± 0.6)% of the initial device response when flat. It is essential to mention that this small bending radius is unlikely during in vivo patient dosimetry. In a more realistic scenario, with a bending radius of 15-20 mm, the variation in detector response remained within ± 4%. After substantial bending, the detector's photosensitivity when returned to a flat condition was (99.1 ± 0.5)% of the original response., Conclusions: This work successfully characterizes a flexible detector based on thin-film a-Si:H deposited on a Kapton substrate for applications in therapeutic x-ray dosimetry. The detectors exhibit dosimetric performances that parallel commercially available dosimeters, while also demonstrating excellent flexibility results., (© 2024 The Authors. Medical Physics published by Wiley Periodicals LLC on behalf of American Association of Physicists in Medicine.)

Published
2024
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41. Fully automated volumetric modulated arc therapy technique for radiation therapy of locally advanced breast cancer.

Author

Marrazzo L, Redapi L, Pellegrini R, Voet P, Meattini I, Arilli C, Calusi S, Casati M, Chilà D, Compagnucci A, Talamonti C, Zani M, Livi L, and Pallotta S

Subjects
Humans, Female, Radiotherapy Dosage, Radiotherapy Planning, Computer-Assisted methods, Radiometry methods, Organs at Risk, Radiotherapy, Intensity-Modulated methods, Breast Neoplasms radiotherapy
Abstract

Background: This study aimed to evaluate an a-priori multicriteria plan optimization algorithm (mCycle) for locally advanced breast cancer radiation therapy (RT) by comparing automatically generated VMAT (Volumetric Modulated Arc Therapy) plans (AP-VMAT) with manual clinical Helical Tomotherapy (HT) plans., Methods: The study included 25 patients who received postoperative RT using HT. The patient cohort had diverse target selections, including both left and right breast/chest wall (CW) and III-IV node, with or without internal mammary node (IMN) and Simultaneous Integrated Boost (SIB). The Planning Target Volume (PTV) was obtained by applying a 5 mm isotropic expansion to the CTV (Clinical Target Volume), with a 5 mm clip from the skin. Comparisons of dosimetric parameters and delivery/planning times were conducted. Dosimetric verification of the AP-VMAT plans was performed., Results: The study showed statistically significant improvements in AP-VMAT plans compared to HT for OARs (Organs At Risk) mean dose, except for the heart and ipsilateral lung. No significant differences in V 95% were observed for PTV breast/CW and PTV III-IV, while increased coverage (higher V 95% ) was seen for PTV IMN in AP-VMAT plans. HT plans exhibited smaller values of PTV V 105% for breast/CW and III-IV, with no differences in PTV IMN and boost. HT had an average (± standard deviation) delivery time of (17 ± 8) minutes, while AP-VMAT took (3 ± 1) minutes. The average γ passing rate for AP-VMAT plans was 97%±1%. Planning times reduced from an average of 6 h for HT to about 2 min for AP-VMAT., Conclusions: Comparing AP-VMAT plans with clinical HT plans showed similar or improved quality. The implementation of mCycle demonstrated successful automation of the planning process for VMAT treatment of locally advanced breast cancer, significantly reducing workload., (© 2023. The Author(s).)

Published
2023
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42. Hydrogenated amorphous silicon high flux x-ray detectors for synchrotron microbeam radiation therapy.

Author

Large MJ, Bizzarri M, Calcagnile L, Caprai M, Caricato AP, Catalano R, Cirrone GAP, Croci T, Cuttone G, Dunand S, Fabi M, Frontini L, Gianfelici B, Grimani C, Ionica M, Kanxheri K, Lerch MLF, Liberali V, Martino M, Maruccio G, Mazza G, Menichelli M, Monteduro AG, Moscatelli F, Morozzi A, Pallotta S, Papi A, Passeri D, Pedio M, Petringa G, Peverini F, Piccolo L, Placidi P, Quarta G, Rizzato S, Rossi A, Rossi G, de Rover V, Sabbatini F, Servoli L, Stabile A, Talamonti C, Tosti L, Villani M, Wheadon RJ, Wyrsch N, Zema N, and Petasecca M

Subjects
X-Rays, Australia, Radiometry methods, Synchrotrons, Silicon
Abstract

Objective . Microbeam radiation therapy (MRT) is an alternative emerging radiotherapy treatment modality which has demonstrated effective radioresistant tumour control while sparing surrounding healthy tissue in preclinical trials. This apparent selectivity is achieved through MRT combining ultra-high dose rates with micron-scale spatial fractionation of the delivered x-ray treatment field. Quality assurance dosimetry for MRT must therefore overcome a significant challenge, as detectors require both a high dynamic range and a high spatial resolution to perform accurately. Approach . In this work, a series of radiation hard a-Si:H diodes, with different thicknesses and carrier selective contact configurations, have been characterised for x-ray dosimetry and real-time beam monitoring applications in extremely high flux beamlines utilised for MRT at the Australian Synchrotron. Results . These devices displayed superior radiation hardness under constant high dose-rate irradiations on the order of 6000 Gy s -1 , with a variation in response of 10% over a delivered dose range of approximately 600 kGy. Dose linearity of each detector to x-rays with a peak energy of 117 keV is reported, with sensitivities ranging from (2.74 ± 0.02) nC/Gy to (4.96 ± 0.02) nC/Gy. For detectors with 0.8 μ m thick active a-Si:H layer, their operation in an edge-on orientation allows for the reconstruction of micron-size beam profiles (microbeams). The microbeams, with a nominal full-width-half-max of 50 μ m and a peak-to-peak separation of 400 μ m, were reconstructed with extreme accuracy. The full-width-half-max was observed as 55 ± 1 μ m. Evaluation of the peak-to-valley dose ratio and dose-rate dependence of the devices, as well as an x-ray induced charge (XBIC) map of a single pixel is also reported. Significance . These devices based on novel a-Si:H technology possess a unique combination of accurate dosimetric performance and radiation resistance, making them an ideal candidate for x-ray dosimetry in high dose-rate environments such as FLASH and MRT., (Creative Commons Attribution license.)

Published
2023
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43. A multicenter evaluation of a deep learning software (LungQuant) for lung parenchyma characterization in COVID-19 pneumonia.

Author

Scapicchio C, Chincarini A, Ballante E, Berta L, Bicci E, Bortolotto C, Brero F, Cabini RF, Cristofalo G, Fanni SC, Fantacci ME, Figini S, Galia M, Gemma P, Grassedonio E, Lascialfari A, Lenardi C, Lionetti A, Lizzi F, Marrale M, Midiri M, Nardi C, Oliva P, Perillo N, Postuma I, Preda L, Rastrelli V, Rizzetto F, Spina N, Talamonti C, Torresin A, Vanzulli A, Volpi F, Neri E, and Retico A

Subjects
Humans, SARS-CoV-2, Lung diagnostic imaging, Software, COVID-19, Deep Learning, Pneumonia
Abstract

Background: The role of computed tomography (CT) in the diagnosis and characterization of coronavirus disease 2019 (COVID-19) pneumonia has been widely recognized. We evaluated the performance of a software for quantitative analysis of chest CT, the LungQuant system, by comparing its results with independent visual evaluations by a group of 14 clinical experts. The aim of this work is to evaluate the ability of the automated tool to extract quantitative information from lung CT, relevant for the design of a diagnosis support model., Methods: LungQuant segments both the lungs and lesions associated with COVID-19 pneumonia (ground-glass opacities and consolidations) and computes derived quantities corresponding to qualitative characteristics used to clinically assess COVID-19 lesions. The comparison was carried out on 120 publicly available CT scans of patients affected by COVID-19 pneumonia. Scans were scored for four qualitative metrics: percentage of lung involvement, type of lesion, and two disease distribution scores. We evaluated the agreement between the LungQuant output and the visual assessments through receiver operating characteristics area under the curve (AUC) analysis and by fitting a nonlinear regression model., Results: Despite the rather large heterogeneity in the qualitative labels assigned by the clinical experts for each metric, we found good agreement on the metrics compared to the LungQuant output. The AUC values obtained for the four qualitative metrics were 0.98, 0.85, 0.90, and 0.81., Conclusions: Visual clinical evaluation could be complemented and supported by computer-aided quantification, whose values match the average evaluation of several independent clinical experts., Key Points: We conducted a multicenter evaluation of the deep learning-based LungQuant automated software. We translated qualitative assessments into quantifiable metrics to characterize coronavirus disease 2019 (COVID-19) pneumonia lesions. Comparing the software output to the clinical evaluations, results were satisfactory despite heterogeneity of the clinical evaluations. An automatic quantification tool may contribute to improve the clinical workflow of COVID-19 pneumonia., (© 2023. The Author(s).)

Published
2023
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44. Characterization of Mediastinal Bulky Lymphomas with FDG-PET-Based Radiomics and Machine Learning Techniques.

Author

Abenavoli EM, Barbetti M, Linguanti F, Mungai F, Nassi L, Puccini B, Romano I, Sordi B, Santi R, Passeri A, Sciagrà R, Talamonti C, Cistaro A, Vannucchi AM, and Berti V

Abstract

Background: This study tested the diagnostic value of 18F-FDG PET/CT (FDG-PET) volumetric and texture parameters in the histological differentiation of mediastinal bulky disease due to classical Hodgkin lymphoma (cHL), primary mediastinal B-cell lymphoma (PMBCL) and grey zone lymphoma (GZL), using machine learning techniques., Methods: We reviewed 80 cHL, 29 PMBCL and 8 GZL adult patients with mediastinal bulky disease and histopathological diagnoses who underwent FDG-PET pre-treatment. Volumetric and radiomic parameters were measured using FDG-PET both for bulky lesions (BL) and for all lesions (AL) using LIFEx software (threshold SUV ≥ 2.5). Binary and multiclass classifications were performed with various machine learning techniques fed by a relevant subset of radiomic features., Results: The analysis showed significant differences between the lymphoma groups in terms of SUVmax, SUVmean, MTV, TLG and several textural features of both first- and second-order grey level. Among machine learning classifiers, the tree-based ensembles achieved the best performance both for binary and multiclass classifications in histological differentiation., Conclusions: Our results support the value of metabolic heterogeneity as an imaging biomarker, and the use of radiomic features for early characterization of mediastinal bulky lymphoma.

Published
2023
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45. Deriving quantitative information from multiparametric MRI via Radiomics: Evaluation of the robustness and predictive value of radiomic features in the discrimination of low-grade versus high-grade gliomas with machine learning.

Author

Ubaldi L, Saponaro S, Giuliano A, Talamonti C, and Retico A

Subjects
Humans, Machine Learning, Magnetic Resonance Imaging methods, Retrospective Studies, Multiparametric Magnetic Resonance Imaging, Glioma diagnostic imaging, Glioma pathology, Brain Neoplasms diagnostic imaging, Brain Neoplasms pathology
Abstract

Purpose: Analysis pipelines based on the computation of radiomic features on medical images are widely used exploration tools across a large variety of image modalities. This study aims to define a robust processing pipeline based on Radiomics and Machine Learning (ML) to analyze multiparametric Magnetic Resonance Imaging (MRI) data to discriminate between high-grade (HGG) and low-grade (LGG) gliomas., Methods: The dataset consists of 158 multiparametric MRI of patients with brain tumor publicly available on The Cancer Imaging Archive, preprocessed by the BraTS organization committee. Three different types of image intensity normalization algorithms were applied and 107 features were extracted for each tumor region, setting the intensity values according to different discretization levels. The predictive power of radiomic features in the LGG versus HGG categorization was evaluated by using random forest classifiers. The impact of the normalization techniques and of the different settings in the image discretization was studied in terms of the classification performances. A set of MRI-reliable features was defined selecting the features extracted according to the most appropriate normalization and discretization settings., Results: The results show that using MRI-reliable features improves the performance in glioma grade classification (AUC=0.93±0.05) with respect to the use of raw (AUC=0.88±0.08) and robust features (AUC=0.83±0.08), defined as those not depending on image normalization and intensity discretization., Conclusions: These results confirm that image normalization and intensity discretization strongly impact the performance of ML classifiers based on radiomic features. Thus, special attention should be provided in the image preprocessing step before typical radiomic and ML analysis are carried out., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Associazione Italiana di Fisica Medica e Sanitaria. Published by Elsevier Ltd. All rights reserved.)

Published
2023
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46. End-to-end test for lung SBRT: An Italian multicentric pilot experience.

Author

Pallotta S, Calusi S, Marrazzo L, Talamonti C, Russo S, Esposito M, Fiandra C, Giglioli FR, Pimpinella M, De Coste V, Bruschi A, Barbiero S, Mancosu P, Stasi M, and Lisci R

Subjects
Humans, Italy, Lung
Abstract

Purpose: Set up a lung SBRT end-to-end (e2e) test and perform a multicentre validation., Material and Methods: A group of medical physicists from four hospitals and the Italian Institute of Ionizing Radiation Metrology designed the present e2e test. One sub-group set up the test, while another tested its feasibility and ease of use. A satisfaction questionnaire was used to collect user feedback. Each participating centre (PC) received the ADAM breathing phantom, a microDiamond detector and radiochromic films. Following the e2e protocol, each PC performed its standard internal procedure for simulating, planning, and irradiating the phantom. Each PC uploaded its planning and treatment delivery data in a shared Google Drive. A single centre analyzed all the data., Results: The e2e test was successfully performed by all PCs. Participants' comments indicated that ADAM was well suited to the purpose and the protocol well described. All PCs performed the test in static and dynamic modes. The ratio between measured and planned point dose obtained by PC1, PC2, PC3, PC4 was: 0.99, 0.96, 1.01 and 1.01 (static track) and 0.99, 1.02, 1.01 and 0.94 (dynamic track). The gamma passing rates (3 % global, 3 mm) between planned and measured dose maps were 98.5 %, 94.0 %, 99.1 % and 94.0 % (static track) and 99.5 %, 96.5 %, 86.0 % and 94.5 % (dynamic track) for PC1, PC2, PC3 and PC4, respectively., Conclusions: An e2e test for lung SBRT has been proposed and tested in a multicentre framework. The results and user feedback prove the validity of the proposed e2e test., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 Associazione Italiana di Fisica Medica e Sanitaria. Published by Elsevier Ltd. All rights reserved.)

Published
2022
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47. Radiosensitizing Effect of Trabectedin on Human Soft Tissue Sarcoma Cells.

Author

Loi M, Salvatore G, Aquilano M, Greto D, Talamonti C, Salvestrini V, Melica ME, Valzano M, Francolini G, Sottili M, Santini C, Becherini C, Campanacci DA, Mangoni M, and Livi L

Subjects
Humans, Trabectedin pharmacology, Trabectedin therapeutic use, Antineoplastic Agents, Alkylating pharmacology, Antineoplastic Agents, Alkylating therapeutic use, Tumor Microenvironment, Radiation-Sensitizing Agents pharmacology, Radiation-Sensitizing Agents therapeutic use, Leiomyosarcoma drug therapy, Sarcoma drug therapy, Sarcoma pathology, Soft Tissue Neoplasms, Liposarcoma drug therapy, Fibrosarcoma, Rhabdomyosarcoma
Abstract

Trabectedin is used for the treatment of advanced soft tissue sarcomas (STSs). In this study, we evaluated if trabectedin could enhance the efficacy of irradiation (IR) by increasing the intrinsic cell radiosensitivity and modulating tumor micro-environment in fibrosarcoma (HS 93.T), leiomyosarcoma (HS5.T), liposarcoma (SW872), and rhabdomyosarcoma (RD) cell lines. A significant reduction in cell surviving fraction (SF) following trabectedin + IR compared to IR alone was observed in liposarcoma and leiomyosarcoma (enhancement ratio at 50%, ER50: 1.45 and 2.35, respectively), whereas an additive effect was shown in rhabdomyosarcoma and fibrosarcoma. Invasive cells' fraction significantly decreased following trabectedin ± IR compared to IR alone. Differences in cell cycle distribution were observed in leiomyosarcoma and rhabdomyosarcoma treated with trabectedin + IR. In all STS lines, trabectedin + IR resulted in a significantly higher number of γ-H2AX (histone H2AX) foci 30 min compared to the control, trabectedin, or IR alone. Expression of ATM, RAD50, Ang-2, VEGF, and PD-L1 was not significantly altered following trabectedin + IR. In conclusion, trabectedin radiosensitizes STS cells by affecting SF (particularly in leiomyosarcoma and liposarcoma), invasiveness, cell cycle distribution, and γ-H2AX foci formation. Conversely, no synergistic effect was observed on DNA damage repair, neoangiogenesis, and immune system.

Published
2022
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48. Magnetron Sputtered CsPbCl 3 Perovskite Detectors as Real-Time Dosimeters for Clinical Radiotherapy.

Author

Bruzzi M, Calisi N, Latino M, Falsini N, Vinattieri A, and Talamonti C

Subjects
Radiometry methods, Radiation Dosimeters, Particle Accelerators
Abstract

The aim of this study is to investigate the feasibility of manufacturing thin real-time relative dosimeters for clinical radiotherapy (RT) with potential applications for transmission monitoring in vivo dosimetry and pre-treatment dose verifications. Thin (≈1μm) layers of a high sensitivity, wide bandgap semiconductor, the inorganic perovskite CsPbCl 3 , have been grown for the first time by magnetron sputtering on plastic substrates equipped with electrode arrays. Prototype devices have been tested in real-time configuration to evaluate the dose delivered by a 6MV photon beam from a linear accelerator. Linearity of the charge with the dose has been verified over three order of magnitudes, linearity of the current signal with the dose rate has been also successfully tested in the range 0.5-4.3Gy/min. The combination of high sensitivity per unit volume and wide bandgap provides high signal-to-noise ratios, up to 70, even at moderate applied voltages. The Schottky diode configuration allows the detector to operate without bias voltage (null bias).The blocking-barrier structure allows to confine the active volume within sub-millimetric sizes, a quite attractive feature in view to increase granularity and achieve the high spatial resolutions required in modern RT techniques. All the above-mentioned features indeed pave the way to a novel generation of flexible, transmission, real time dosimeters for clinical radiotherapy., (Copyright © 2022. Published by Elsevier GmbH.)

Published
2022
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49. High-Resolution Photoemission Study of Neutron-Induced Defects in Amorphous Hydrogenated Silicon Devices.

Author

Peverini F, Bizzarri M, Boscardin M, Calcagnile L, Caprai M, Caricato AP, Cirrone GAP, Crivellari M, Cuttone G, Dunand S, Fanò L, Gianfelici B, Hammad O, Ionica M, Kanxheri K, Large M, Maruccio G, Menichelli M, Monteduro AG, Moscatelli F, Morozzi A, Pallotta S, Papi A, Passeri D, Petasecca M, Petringa G, Pis I, Quarta G, Rizzato S, Rossi A, Rossi G, Scorzoni A, Soncini C, Servoli L, Tacchi S, Talamonti C, Verzellesi G, Wyrsch N, Zema N, and Pedio M

Abstract

In this paper, by means of high-resolution photoemission, soft X-ray absorption and atomic force microscopy, we investigate, for the first time, the mechanisms of damaging, induced by neutron source, and recovering (after annealing) of p-i-n detector devices based on hydrogenated amorphous silicon (a-Si:H). This investigation will be performed by mean of high-resolution photoemission, soft X-Ray absorption and atomic force microscopy. Due to dangling bonds, the amorphous silicon is a highly defective material. However, by hydrogenation it is possible to reduce the density of the defect by several orders of magnitude, using hydrogenation and this will allow its usage in radiation detector devices. The investigation of the damage induced by exposure to high energy irradiation and its microscopic origin is fundamental since the amount of defects determine the electronic properties of the a-Si:H. The comparison of the spectroscopic results on bare and irradiated samples shows an increased degree of disorder and a strong reduction of the Si-H bonds after irradiation. After annealing we observe a partial recovering of the Si-H bonds, reducing the disorder in the Si (possibly due to the lowering of the radiation-induced dangling bonds). Moreover, effects in the uppermost coating are also observed by spectroscopies.

Published
2022
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50. Performance of 3D diamond detectors in small field dosimetry: The impact of pixel size.

Author

Kanxheri K, Talamonti C, Sciortino S, Lagomarsino S, Ionica M, Caprai M, Moscatelli F, and Servoli L

Subjects
Particle Accelerators, Photons therapeutic use, Radiation Dosimeters, Reproducibility of Results, Diamond, Radiometry methods
Abstract

Purpose: Small photon beams used in radiotherapy techniques have inherent characteristics of charge particle disequilibrium and high-dose gradient making accurate dosimetry for such fields very challenging. By means of a 3D manufacturing technique, it is possible to create arrays of pixels with a very small sensitive volume for radiotherapy dosimetry. We investigate the impact of 3D pixels size on absorbed dose sensitivity, linearity of response with dose rate, reproducibility and beam profile measurements., Methods: Diamond detectors with different pixel sizes have been produced in the 3DOSE experiment framework. To investigate the pixels size impact, they were tested using an Elekta Synergy LINAC. Dose rate dependence, absorbed dose sensitivity, reproducibility and beam profile measurement accuracy have been investigated and compared with PTW 60019 and IBA SFD reference dosimeters., Results: All of the 3D pixels had a linear and reproducible response to the dose rate. The sensitivity of a pixel decreases with its size, although even the smallest pixel has a high absorbed dose sensitivity (15 nC/Gy). The penumbra width measured with the smallest pixel size was consistent with the PTW microDiamond and differed by 0.2 mm from the IBA SFD diode., Conclusions: The study demonstrates that variation in pixel size do not affect the linearity of response with dose rate and the reproducibility of response. Due to the 3D geometry, the absorbed dose sensitivity of the detector remains high even for the smallest pixel, furthermore the pixel size was demonstrated to be of fundamental importance in the measurement of beam profiles., (Copyright © 2022 Associazione Italiana di Fisica Medica e Sanitaria. Published by Elsevier Ltd. All rights reserved.)

Published
2022
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