Characterization of Hydrogenated Amorphous Silicon Detectors With Clinical Photon and Electron Beams

M. Ponzecchi; K. Kanxheri; L. Servoli; M. V. Rossi; E. Gazzera; G. Insero; S. Pallotta; M. Fabi; C. Grimani; F. Sabbatini; M. Villani; S. Aziz; L. Calcagnile; A. P. Caricato; M. Martino; G. Maruccio; A. G. Monteduro; G. Quarta; S. Rizzato; R. Catalano; G. A.P. Cirrone; G. Cuttone; M. Guarrera; G. Petringa; L. Frontini; V. Liberali; A. Stabile; M. M.S. Vasquez; F. Cittadini; T. Croci; M. Ionica; M. Menichelli; A. Morozzi; D. Passeri; M. Pedio; F. Peverini; P. Placidi; N. Zema; D. Caputo; G. De Cesare; N. Lovecchio; A. Nascetti; M. Cazzanelli; H. Hasnaoui; M. Polo; A. Quaranta; D. Calvo; R. Cirio; P. De Remigis; F. Lenta; G. Mazza; R. J. Wheadon; S. Dunand; G. Konstantinou; N. Wyrsch; B. Loris; A. Bashiri; M. Large; M. Petasecca; C. Talamonti

doi:10.1109/JSEN.2026.3689750

Characterization of Hydrogenated Amorphous Silicon Detectors With Clinical Photon and Electron Beams

M. Ponzecchi
, K. Kanxheri
, L. Servoli
, M. V. Rossi
, E. Gazzera
, G. Insero
, S. Pallotta
, M. Fabi
, C. Grimani
, F. Sabbatini
, M. Villani
, S. Aziz
, L. Calcagnile
, A. P. Caricato
, M. Martino
, G. Maruccio
, A. G. Monteduro
, G. Quarta
, S. Rizzato
, R. Catalano

G. A.P. Cirrone, G. Cuttone, M. Guarrera, G. Petringa, L. Frontini, V. Liberali, A. Stabile, M. M.S. Vasquez, F. Cittadini, T. Croci, M. Ionica, M. Menichelli, A. Morozzi, D. Passeri, M. Pedio, F. Peverini, P. Placidi, N. Zema, D. Caputo, G. De Cesare, N. Lovecchio, A. Nascetti, M. Cazzanelli, H. Hasnaoui, M. Polo, A. Quaranta, D. Calvo, R. Cirio, P. De Remigis, F. Lenta, G. Mazza, R. J. Wheadon, S. Dunand, G. Konstantinou, N. Wyrsch, B. Loris, A. Bashiri, M. Large, M. Petasecca, C. Talamonti

University of Florence
Istituto Nazionale di Fisica Nucleare, Sezione di Firenze
INFN Sezione di Perugia
University of Perugia
University of Urbino Carlo Bo
Sezione di Lecce
University of Salento
INFN-LNS
Sezione INFN di Milano
University of Milano
University of Padova
International School for Advanced Studies (SISSA/ISAS)
Consiglio Nazionale delle Ricerche
Sezione di Roma
University of Rome
Università di Trento
INFN Sezione di Torino
Politecnico di Torino
ENAC-IIC-GEL
University of Wollongong
Najran University

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

Flexible hydrogenated amorphous silicon (a-Si:H) detectors are attractive candidates for clinical dosimetry, particularly for applications requiring lightweight devices and operation without external bias. In this work, three flexible a-Si:H detector architectures are experimentally compared under clinical photon and electron beams: a conventional n-i-p diode, a charge selective contact (CSC) detector, and a very thin p-i-n diode. All detectors show excellent dose linearity under both irradiation modalities. However, large differences in sensitivity are observed at zero bias, exceeding two orders of magnitude across architectures. The conventional n-i-p device shows a response that is limited by the internal electric field, while CSC and very thin p-i-n detectors achieve sensitivities in the pC/cGy range without applied bias. Electron beams yield higher charge per unit dose than photons, compatible with a larger local energy deposition in the active layer. The results demonstrate that sensitivity in flexible a-Si:H dosimeters is governed by contact design and intrinsic layer thickness rather than by active volume alone. Taken together, the present results suggest that combining charge selective contacts with thinner intrinsic layers may represent a promising strategy to further enhance zero-bias sensitivity. These findings provide clear design guidelines for the development of flexible dosimeters for surface and transmission measurements in advanced radiotherapy.

langue originale	Anglais
journal	IEEE Sensors Journal
Les DOIs	https://doi.org/10.1109/JSEN.2026.3689750
état	Accepté/En presse - 1 janv. 2026
Modification externe	Oui

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10.1109/JSEN.2026.3689750

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Ponzecchi, M., Kanxheri, K., Servoli, L., Rossi, M. V., Gazzera, E., Insero, G., Pallotta, S., Fabi, M., Grimani, C., Sabbatini, F., Villani, M., Aziz, S., Calcagnile, L., Caricato, A. P., Martino, M., Maruccio, G., Monteduro, A. G., Quarta, G., Rizzato, S., ... Talamonti, C. (Accepté/en presse). Characterization of Hydrogenated Amorphous Silicon Detectors With Clinical Photon and Electron Beams. IEEE Sensors Journal. https://doi.org/10.1109/JSEN.2026.3689750

@article{06b384531baa4629a3ffe66cb1433409,

title = "Characterization of Hydrogenated Amorphous Silicon Detectors With Clinical Photon and Electron Beams",

abstract = "Flexible hydrogenated amorphous silicon (a-Si:H) detectors are attractive candidates for clinical dosimetry, particularly for applications requiring lightweight devices and operation without external bias. In this work, three flexible a-Si:H detector architectures are experimentally compared under clinical photon and electron beams: a conventional n-i-p diode, a charge selective contact (CSC) detector, and a very thin p-i-n diode. All detectors show excellent dose linearity under both irradiation modalities. However, large differences in sensitivity are observed at zero bias, exceeding two orders of magnitude across architectures. The conventional n-i-p device shows a response that is limited by the internal electric field, while CSC and very thin p-i-n detectors achieve sensitivities in the pC/cGy range without applied bias. Electron beams yield higher charge per unit dose than photons, compatible with a larger local energy deposition in the active layer. The results demonstrate that sensitivity in flexible a-Si:H dosimeters is governed by contact design and intrinsic layer thickness rather than by active volume alone. Taken together, the present results suggest that combining charge selective contacts with thinner intrinsic layers may represent a promising strategy to further enhance zero-bias sensitivity. These findings provide clear design guidelines for the development of flexible dosimeters for surface and transmission measurements in advanced radiotherapy.",

keywords = "CSC detector, hydrogenated amorphous silicon, p-i-n detector, sensitivity",

author = "M. Ponzecchi and K. Kanxheri and L. Servoli and Rossi, \{M. V.\} and E. Gazzera and G. Insero and S. Pallotta and M. Fabi and C. Grimani and F. Sabbatini and M. Villani and S. Aziz and L. Calcagnile and Caricato, \{A. P.\} and M. Martino and G. Maruccio and Monteduro, \{A. G.\} and G. Quarta and S. Rizzato and R. Catalano and Cirrone, \{G. A.P.\} and G. Cuttone and M. Guarrera and G. Petringa and L. Frontini and V. Liberali and A. Stabile and Vasquez, \{M. M.S.\} and F. Cittadini and T. Croci and M. Ionica and M. Menichelli and A. Morozzi and D. Passeri and M. Pedio and F. Peverini and P. Placidi and N. Zema and D. Caputo and Cesare, \{G. De\} and N. Lovecchio and A. Nascetti and M. Cazzanelli and H. Hasnaoui and M. Polo and A. Quaranta and D. Calvo and R. Cirio and Remigis, \{P. De\} and F. Lenta and G. Mazza and Wheadon, \{R. J.\} and S. Dunand and G. Konstantinou and N. Wyrsch and B. Loris and A. Bashiri and M. Large and M. Petasecca and C. Talamonti",

note = "Publisher Copyright: {\textcopyright} 2001-2012 IEEE.",

year = "2026",

month = jan,

day = "1",

doi = "10.1109/JSEN.2026.3689750",

language = "English",

journal = "IEEE Sensors Journal",

issn = "1530-437X",

}

Ponzecchi, M, Kanxheri, K, Servoli, L, Rossi, MV, Gazzera, E, Insero, G, Pallotta, S, Fabi, M, Grimani, C, Sabbatini, F, Villani, M, Aziz, S, Calcagnile, L, Caricato, AP, Martino, M, Maruccio, G, Monteduro, AG, Quarta, G, Rizzato, S, Catalano, R, Cirrone, GAP, Cuttone, G, Guarrera, M, Petringa, G, Frontini, L, Liberali, V, Stabile, A, Vasquez, MMS, Cittadini, F, Croci, T, Ionica, M, Menichelli, M, Morozzi, A, Passeri, D, Pedio, M, Peverini, F, Placidi, P, Zema, N, Caputo, D, Cesare, GD, Lovecchio, N, Nascetti, A, Cazzanelli, M, Hasnaoui, H, Polo, M, Quaranta, A, Calvo, D, Cirio, R, Remigis, PD, Lenta, F, Mazza, G, Wheadon, RJ, Dunand, S, Konstantinou, G, Wyrsch, N, Loris, B, Bashiri, A, Large, M, Petasecca, M & Talamonti, C 2026, 'Characterization of Hydrogenated Amorphous Silicon Detectors With Clinical Photon and Electron Beams', IEEE Sensors Journal. https://doi.org/10.1109/JSEN.2026.3689750

TY - JOUR

T1 - Characterization of Hydrogenated Amorphous Silicon Detectors With Clinical Photon and Electron Beams

AU - Ponzecchi, M.

AU - Kanxheri, K.

AU - Servoli, L.

AU - Rossi, M. V.

AU - Gazzera, E.

AU - Insero, G.

AU - Pallotta, S.

AU - Fabi, M.

AU - Grimani, C.

AU - Sabbatini, F.

AU - Villani, M.

AU - Aziz, S.

AU - Calcagnile, L.

AU - Caricato, A. P.

AU - Martino, M.

AU - Maruccio, G.

AU - Monteduro, A. G.

AU - Quarta, G.

AU - Rizzato, S.

AU - Catalano, R.

AU - Cirrone, G. A.P.

AU - Cuttone, G.

AU - Guarrera, M.

AU - Petringa, G.

AU - Frontini, L.

AU - Liberali, V.

AU - Stabile, A.

AU - Vasquez, M. M.S.

AU - Cittadini, F.

AU - Croci, T.

AU - Ionica, M.

AU - Menichelli, M.

AU - Morozzi, A.

AU - Passeri, D.

AU - Pedio, M.

AU - Peverini, F.

AU - Placidi, P.

AU - Zema, N.

AU - Caputo, D.

AU - Cesare, G. De

AU - Lovecchio, N.

AU - Nascetti, A.

AU - Cazzanelli, M.

AU - Hasnaoui, H.

AU - Polo, M.

AU - Quaranta, A.

AU - Calvo, D.

AU - Cirio, R.

AU - Remigis, P. De

AU - Lenta, F.

AU - Mazza, G.

AU - Wheadon, R. J.

AU - Dunand, S.

AU - Konstantinou, G.

AU - Wyrsch, N.

AU - Loris, B.

AU - Bashiri, A.

AU - Large, M.

AU - Petasecca, M.

AU - Talamonti, C.

PY - 2026/1/1

Y1 - 2026/1/1

N2 - Flexible hydrogenated amorphous silicon (a-Si:H) detectors are attractive candidates for clinical dosimetry, particularly for applications requiring lightweight devices and operation without external bias. In this work, three flexible a-Si:H detector architectures are experimentally compared under clinical photon and electron beams: a conventional n-i-p diode, a charge selective contact (CSC) detector, and a very thin p-i-n diode. All detectors show excellent dose linearity under both irradiation modalities. However, large differences in sensitivity are observed at zero bias, exceeding two orders of magnitude across architectures. The conventional n-i-p device shows a response that is limited by the internal electric field, while CSC and very thin p-i-n detectors achieve sensitivities in the pC/cGy range without applied bias. Electron beams yield higher charge per unit dose than photons, compatible with a larger local energy deposition in the active layer. The results demonstrate that sensitivity in flexible a-Si:H dosimeters is governed by contact design and intrinsic layer thickness rather than by active volume alone. Taken together, the present results suggest that combining charge selective contacts with thinner intrinsic layers may represent a promising strategy to further enhance zero-bias sensitivity. These findings provide clear design guidelines for the development of flexible dosimeters for surface and transmission measurements in advanced radiotherapy.

AB - Flexible hydrogenated amorphous silicon (a-Si:H) detectors are attractive candidates for clinical dosimetry, particularly for applications requiring lightweight devices and operation without external bias. In this work, three flexible a-Si:H detector architectures are experimentally compared under clinical photon and electron beams: a conventional n-i-p diode, a charge selective contact (CSC) detector, and a very thin p-i-n diode. All detectors show excellent dose linearity under both irradiation modalities. However, large differences in sensitivity are observed at zero bias, exceeding two orders of magnitude across architectures. The conventional n-i-p device shows a response that is limited by the internal electric field, while CSC and very thin p-i-n detectors achieve sensitivities in the pC/cGy range without applied bias. Electron beams yield higher charge per unit dose than photons, compatible with a larger local energy deposition in the active layer. The results demonstrate that sensitivity in flexible a-Si:H dosimeters is governed by contact design and intrinsic layer thickness rather than by active volume alone. Taken together, the present results suggest that combining charge selective contacts with thinner intrinsic layers may represent a promising strategy to further enhance zero-bias sensitivity. These findings provide clear design guidelines for the development of flexible dosimeters for surface and transmission measurements in advanced radiotherapy.

KW - CSC detector

KW - hydrogenated amorphous silicon

KW - p-i-n detector

KW - sensitivity

UR - https://www.scopus.com/pages/publications/105038722009

U2 - 10.1109/JSEN.2026.3689750

DO - 10.1109/JSEN.2026.3689750

M3 - Article

AN - SCOPUS:105038722009

SN - 1530-437X

JO - IEEE Sensors Journal

JF - IEEE Sensors Journal

ER -

Characterization of Hydrogenated Amorphous Silicon Detectors With Clinical Photon and Electron Beams

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