Properties of HPK UFSD after neutron irradiation up to 6e15 n/cm2

Z. Galloway; V. Fadeyev; P. Freeman; E. Gkougkousis; C. Gee; B. Gruey; C. A. Labitan; Z. Luce; F. McKinney-Martinez; H. F.W. Sadrozinski; A. Seiden; E. Spencer; M. Wilder; N. Woods; A. Zatserklyaniy; Y. Zhao; N. Cartiglia; M. Ferrero; M. Mandurrino; A. Staiano; V. Sola; R. Arcidiacono; V. Cindro; G. Kramberger; I. Mandić; M. Mikuž; M. Zavrtanik

doi:10.1016/j.nima.2019.05.017

Properties of HPK UFSD after neutron irradiation up to 6e15 n/cm²

Z. Galloway
, V. Fadeyev
, P. Freeman
, E. Gkougkousis
, C. Gee
, B. Gruey
, C. A. Labitan
, Z. Luce
, F. McKinney-Martinez
, H. F.W. Sadrozinski
, A. Seiden
, E. Spencer
, M. Wilder
, N. Woods
, A. Zatserklyaniy
, Y. Zhao
, N. Cartiglia
, M. Ferrero
, M. Mandurrino
, A. Staiano

V. Sola, R. Arcidiacono, V. Cindro, G. Kramberger, I. Mandić, M. Mikuž, M. Zavrtanik

Department of Pharmaceutical Sciences

Research output: Contribution to journal › Article › peer-review

Abstract

In this paper we report results from a neutron irradiation campaign of Ultra-Fast Silicon Detectors (UFSD) with fluences of 1e14, 3e14, 6e14, 1e15, 3e15 and 6e15 neq/cm². The UFSD used in this study are circular 50 μm thick Low-Gain Avalanche Detectors (LGAD), with a 1.0 mm diameter active area. Hamamatsu Photonics (HPK), Japan, produced the UFSD with pre-irradiation internal gain in the range 5–70 depending on the bias voltage. The sensors were tested pre-irradiation and post-irradiation with minimum ionizing particles (MIPs) from a ⁹⁰Sr β-source. The leakage current, internal gain and the timing resolution were measured as a function of bias voltage at −20 °C and −30 °C. The timing resolution of each device under test was extracted from the time difference with a second calibrated UFSD in coincidence, using the constant fraction discriminator (CFD) method for both. The dependence of the gain upon the irradiation fluence is consistent with the acceptor removal mechanism; at −20 °C the highest gain decreases from 70 before radiation to 2 after a fluence of 6e15 n/cm². Consequently, the timing resolution was found to deteriorate from 20 ps to 50 ps. The results indicate that the most accurate time resolution is obtained varying with fluence the CFD value used to determine the time of arrival, from 0.1 for pre-irradiated sensors to 0.6 at the highest fluence. Key changes to the pulse shape induced by irradiation, i.e. (i) the contribution of charge multiplication not limited to the gain layer zone, (ii) the shortening of the rise time and (iii) the reduced pulse height, were compared with the WF2 simulation program and were found to be in agreement.

Original language	English
Pages (from-to)	19-29
Number of pages	11
Journal	Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment
Volume	940
DOIs	https://doi.org/10.1016/j.nima.2019.05.017
Publication status	Published - 1 Oct 2019

Keywords

Charge multiplication
Fast silicon sensors
Radiation damage
Thin tracking sensors
Time resolution

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10.1016/j.nima.2019.05.017

Cite this

Galloway, Z., Fadeyev, V., Freeman, P., Gkougkousis, E., Gee, C., Gruey, B., Labitan, C. A., Luce, Z., McKinney-Martinez, F., Sadrozinski, H. F. W., Seiden, A., Spencer, E., Wilder, M., Woods, N., Zatserklyaniy, A., Zhao, Y., Cartiglia, N., Ferrero, M., Mandurrino, M., ... Zavrtanik, M. (2019). Properties of HPK UFSD after neutron irradiation up to 6e15 n/cm² Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 940, 19-29. https://doi.org/10.1016/j.nima.2019.05.017

@article{a832fc5907614575931d5b5218771793,

title = "Properties of HPK UFSD after neutron irradiation up to 6e15 n/cm2 ",

abstract = "In this paper we report results from a neutron irradiation campaign of Ultra-Fast Silicon Detectors (UFSD) with fluences of 1e14, 3e14, 6e14, 1e15, 3e15 and 6e15 neq/cm2. The UFSD used in this study are circular 50 μm thick Low-Gain Avalanche Detectors (LGAD), with a 1.0 mm diameter active area. Hamamatsu Photonics (HPK), Japan, produced the UFSD with pre-irradiation internal gain in the range 5–70 depending on the bias voltage. The sensors were tested pre-irradiation and post-irradiation with minimum ionizing particles (MIPs) from a 90Sr β-source. The leakage current, internal gain and the timing resolution were measured as a function of bias voltage at −20 °C and −30 °C. The timing resolution of each device under test was extracted from the time difference with a second calibrated UFSD in coincidence, using the constant fraction discriminator (CFD) method for both. The dependence of the gain upon the irradiation fluence is consistent with the acceptor removal mechanism; at −20 °C the highest gain decreases from 70 before radiation to 2 after a fluence of 6e15 n/cm2. Consequently, the timing resolution was found to deteriorate from 20 ps to 50 ps. The results indicate that the most accurate time resolution is obtained varying with fluence the CFD value used to determine the time of arrival, from 0.1 for pre-irradiated sensors to 0.6 at the highest fluence. Key changes to the pulse shape induced by irradiation, i.e. (i) the contribution of charge multiplication not limited to the gain layer zone, (ii) the shortening of the rise time and (iii) the reduced pulse height, were compared with the WF2 simulation program and were found to be in agreement.",

keywords = "Charge multiplication, Fast silicon sensors, Radiation damage, Thin tracking sensors, Time resolution",

author = "Z. Galloway and V. Fadeyev and P. Freeman and E. Gkougkousis and C. Gee and B. Gruey and Labitan, \{C. A.\} and Z. Luce and F. McKinney-Martinez and Sadrozinski, \{H. F.W.\} and A. Seiden and E. Spencer and M. Wilder and N. Woods and A. Zatserklyaniy and Y. Zhao and N. Cartiglia and M. Ferrero and M. Mandurrino and A. Staiano and V. Sola and R. Arcidiacono and V. Cindro and G. Kramberger and I. Mandi{\'c} and M. Miku{\v z} and M. Zavrtanik",

note = "Publisher Copyright: {\textcopyright} 2019 Elsevier B.V.",

year = "2019",

month = oct,

day = "1",

doi = "10.1016/j.nima.2019.05.017",

language = "English",

volume = "940",

pages = "19--29",

journal = "Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment",

issn = "0168-9002",

publisher = "Elsevier BV",

}

Galloway, Z, Fadeyev, V, Freeman, P, Gkougkousis, E, Gee, C, Gruey, B, Labitan, CA, Luce, Z, McKinney-Martinez, F, Sadrozinski, HFW, Seiden, A, Spencer, E, Wilder, M, Woods, N, Zatserklyaniy, A, Zhao, Y, Cartiglia, N, Ferrero, M, Mandurrino, M, Staiano, A, Sola, V, Arcidiacono, R, Cindro, V, Kramberger, G, Mandić, I, Mikuž, M & Zavrtanik, M 2019, 'Properties of HPK UFSD after neutron irradiation up to 6e15 n/cm² ', Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, vol. 940, pp. 19-29. https://doi.org/10.1016/j.nima.2019.05.017

Properties of HPK UFSD after neutron irradiation up to 6e15 n/cm² . / Galloway, Z.; Fadeyev, V.; Freeman, P. et al.
In: Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, Vol. 940, 01.10.2019, p. 19-29.

Research output: Contribution to journal › Article › peer-review

TY - JOUR

T1 - Properties of HPK UFSD after neutron irradiation up to 6e15 n/cm2

AU - Galloway, Z.

AU - Fadeyev, V.

AU - Freeman, P.

AU - Gkougkousis, E.

AU - Gee, C.

AU - Gruey, B.

AU - Labitan, C. A.

AU - Luce, Z.

AU - McKinney-Martinez, F.

AU - Sadrozinski, H. F.W.

AU - Seiden, A.

AU - Spencer, E.

AU - Wilder, M.

AU - Woods, N.

AU - Zatserklyaniy, A.

AU - Zhao, Y.

AU - Cartiglia, N.

AU - Ferrero, M.

AU - Mandurrino, M.

AU - Staiano, A.

AU - Sola, V.

AU - Arcidiacono, R.

AU - Cindro, V.

AU - Kramberger, G.

AU - Mandić, I.

AU - Mikuž, M.

AU - Zavrtanik, M.

PY - 2019/10/1

Y1 - 2019/10/1

N2 - In this paper we report results from a neutron irradiation campaign of Ultra-Fast Silicon Detectors (UFSD) with fluences of 1e14, 3e14, 6e14, 1e15, 3e15 and 6e15 neq/cm2. The UFSD used in this study are circular 50 μm thick Low-Gain Avalanche Detectors (LGAD), with a 1.0 mm diameter active area. Hamamatsu Photonics (HPK), Japan, produced the UFSD with pre-irradiation internal gain in the range 5–70 depending on the bias voltage. The sensors were tested pre-irradiation and post-irradiation with minimum ionizing particles (MIPs) from a 90Sr β-source. The leakage current, internal gain and the timing resolution were measured as a function of bias voltage at −20 °C and −30 °C. The timing resolution of each device under test was extracted from the time difference with a second calibrated UFSD in coincidence, using the constant fraction discriminator (CFD) method for both. The dependence of the gain upon the irradiation fluence is consistent with the acceptor removal mechanism; at −20 °C the highest gain decreases from 70 before radiation to 2 after a fluence of 6e15 n/cm2. Consequently, the timing resolution was found to deteriorate from 20 ps to 50 ps. The results indicate that the most accurate time resolution is obtained varying with fluence the CFD value used to determine the time of arrival, from 0.1 for pre-irradiated sensors to 0.6 at the highest fluence. Key changes to the pulse shape induced by irradiation, i.e. (i) the contribution of charge multiplication not limited to the gain layer zone, (ii) the shortening of the rise time and (iii) the reduced pulse height, were compared with the WF2 simulation program and were found to be in agreement.

AB - In this paper we report results from a neutron irradiation campaign of Ultra-Fast Silicon Detectors (UFSD) with fluences of 1e14, 3e14, 6e14, 1e15, 3e15 and 6e15 neq/cm2. The UFSD used in this study are circular 50 μm thick Low-Gain Avalanche Detectors (LGAD), with a 1.0 mm diameter active area. Hamamatsu Photonics (HPK), Japan, produced the UFSD with pre-irradiation internal gain in the range 5–70 depending on the bias voltage. The sensors were tested pre-irradiation and post-irradiation with minimum ionizing particles (MIPs) from a 90Sr β-source. The leakage current, internal gain and the timing resolution were measured as a function of bias voltage at −20 °C and −30 °C. The timing resolution of each device under test was extracted from the time difference with a second calibrated UFSD in coincidence, using the constant fraction discriminator (CFD) method for both. The dependence of the gain upon the irradiation fluence is consistent with the acceptor removal mechanism; at −20 °C the highest gain decreases from 70 before radiation to 2 after a fluence of 6e15 n/cm2. Consequently, the timing resolution was found to deteriorate from 20 ps to 50 ps. The results indicate that the most accurate time resolution is obtained varying with fluence the CFD value used to determine the time of arrival, from 0.1 for pre-irradiated sensors to 0.6 at the highest fluence. Key changes to the pulse shape induced by irradiation, i.e. (i) the contribution of charge multiplication not limited to the gain layer zone, (ii) the shortening of the rise time and (iii) the reduced pulse height, were compared with the WF2 simulation program and were found to be in agreement.

KW - Charge multiplication

KW - Fast silicon sensors

KW - Radiation damage

KW - Thin tracking sensors

KW - Time resolution

UR - https://www.scopus.com/pages/publications/85066338390

U2 - 10.1016/j.nima.2019.05.017

DO - 10.1016/j.nima.2019.05.017

M3 - Article

SN - 0168-9002

VL - 940

SP - 19

EP - 29

JO - Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment

JF - Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment

ER -

Properties of HPK UFSD after neutron irradiation up to 6e15 n/cm²

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Keywords

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