The effect of charge collection recovery in silicon p-n junction detectors irradiated by different particles

E. Verbitskaya; M. Abreu; P. Anbinderis; T. Anbinderis; N. D'Ambrosio; W. De Boer; E. Borchi; K. Borer; M. Bruzzi; S. Buontempo; L. Casagrande; W. Chen; V. Cindro; B. Dezillie; A. Dierlamm; V. Eremin; E. Gaubas; V. Gorbatenko; V. Granata; E. Grigoriev; S. Grohmann; F. Hauler; E. Heijne; S. Heising; O. Hempel; R. Herzog; J. Härkönen; I. Ilyashenko; S. Janos; L. Jungermann; V. Kalesinskas; J. Kapturauskas; R. Laiho; Z. Li; I. Mandic; Rita De Masi; D. Menichelli; M. Mikuz; O. Militaru; T. O. Niinikoski; V. O'Shea; S. Pagano; V. G. Palmieri; S. Paul; B. Perea Solano; K. Piotrzkowski; S. Pirollo; K. Pretzl; P. Rato Mendes; G. Ruggiero; K. Smith; P. Sonderegger; P. Sousa; E. Tuominen; J. Vaitkus; C. Da Viá; E. Wobst; M. Zavrtanik

doi:10.1016/j.nima.2003.08.083

The effect of charge collection recovery in silicon p-n junction detectors irradiated by different particles

E. Verbitskaya, M. Abreu, P. Anbinderis, T. Anbinderis, N. D'Ambrosio, W. De Boer, E. Borchi, K. Borer, M. Bruzzi, S. Buontempo, L. Casagrande, W. Chen, V. Cindro, B. Dezillie, A. Dierlamm, V. Eremin, E. Gaubas, V. Gorbatenko, V. Granata, E. GrigorievS. Grohmann, F. Hauler, E. Heijne, S. Heising, O. Hempel, R. Herzog, J. Härkönen, I. Ilyashenko, S. Janos, L. Jungermann, V. Kalesinskas, J. Kapturauskas, R. Laiho, Z. Li, I. Mandic, Rita De Masi, D. Menichelli, M. Mikuz, O. Militaru, T. O. Niinikoski, V. O'Shea, S. Pagano, V. G. Palmieri, S. Paul, B. Perea Solano, K. Piotrzkowski, S. Pirollo, K. Pretzl, P. Rato Mendes, G. Ruggiero, K. Smith, P. Sonderegger, P. Sousa, E. Tuominen, J. Vaitkus, C. Da Viá, E. Wobst, M. Zavrtanik

Chair of Physics I

Research output: Contribution to journal › Conference article › peer-review

20 Scopus citations

Abstract

The recovery of the charge collection efficiency (CCE) at low temperatures, the so-called "Lazarus effect", was studied in Si detectors irradiated by fast reactor neutrons, by protons of medium and high energy, by pions and by gamma-rays. The experimental results show that the Lazarus effect is observed: (a) after all types of irradiation; (b) before and after space charge sign inversion; (c) only in detectors that are biased at voltages resulting in partial depletion at room temperature. The experimental temperature dependence of the CCE for proton-irradiated detectors shows non-monotonic behaviour with a maximum at a temperature defined as the CCE recovery temperature. The model of the effect for proton-irradiated detectors agrees well with that developed earlier for detectors irradiated by neutrons. The same midgap acceptor-type and donor-type levels are responsible for the Lazarus effect in detectors irradiated by neutrons and by protons. A new, abnormal "zigzag"-shaped temperature dependence of the CCE was observed for detectors irradiated by all particles (neutrons, protons and pions) and by an ultra-high dose of γ-rays, when operating at low bias voltages. This effect is explained in the framework of the double-peak electric field distribution model for heavily irradiated detectors. The redistribution of the space charge region depth between the depleted regions adjacent to p ⁺ and n⁺ contacts is responsible for the "zigzag"- shaped curves. It is shown that the CCE recovery temperature increases with reverse bias in all detectors, regardless of the type of radiation.

Original language	English
Pages (from-to)	47-61
Number of pages	15
Journal	Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment
Volume	514
Issue number	1-3
DOIs	https://doi.org/10.1016/j.nima.2003.08.083
State	Published - 21 Nov 2003
Event	Proceedings of the 4th International Conference on Radiation (RESMDDo2) - Duration: 10 Jul 2002 → 12 Jul 2002

Keywords

Carrier trapping
Charge collection efficiency
Electric field distribution
Radiation hardness
Silicon detectors

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10.1016/j.nima.2003.08.083

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Verbitskaya, E., Abreu, M., Anbinderis, P., Anbinderis, T., D'Ambrosio, N., De Boer, W., Borchi, E., Borer, K., Bruzzi, M., Buontempo, S., Casagrande, L., Chen, W., Cindro, V., Dezillie, B., Dierlamm, A., Eremin, V., Gaubas, E., Gorbatenko, V., Granata, V., ... Zavrtanik, M. (2003). The effect of charge collection recovery in silicon p-n junction detectors irradiated by different particles. Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 514(1-3), 47-61. https://doi.org/10.1016/j.nima.2003.08.083

@article{163818811c6c45f8ac9eb8d86fb35169,

title = "The effect of charge collection recovery in silicon p-n junction detectors irradiated by different particles",

abstract = "The recovery of the charge collection efficiency (CCE) at low temperatures, the so-called {"}Lazarus effect{"}, was studied in Si detectors irradiated by fast reactor neutrons, by protons of medium and high energy, by pions and by gamma-rays. The experimental results show that the Lazarus effect is observed: (a) after all types of irradiation; (b) before and after space charge sign inversion; (c) only in detectors that are biased at voltages resulting in partial depletion at room temperature. The experimental temperature dependence of the CCE for proton-irradiated detectors shows non-monotonic behaviour with a maximum at a temperature defined as the CCE recovery temperature. The model of the effect for proton-irradiated detectors agrees well with that developed earlier for detectors irradiated by neutrons. The same midgap acceptor-type and donor-type levels are responsible for the Lazarus effect in detectors irradiated by neutrons and by protons. A new, abnormal {"}zigzag{"}-shaped temperature dependence of the CCE was observed for detectors irradiated by all particles (neutrons, protons and pions) and by an ultra-high dose of γ-rays, when operating at low bias voltages. This effect is explained in the framework of the double-peak electric field distribution model for heavily irradiated detectors. The redistribution of the space charge region depth between the depleted regions adjacent to p + and n+ contacts is responsible for the {"}zigzag{"}- shaped curves. It is shown that the CCE recovery temperature increases with reverse bias in all detectors, regardless of the type of radiation.",

keywords = "Carrier trapping, Charge collection efficiency, Electric field distribution, Radiation hardness, Silicon detectors",

author = "E. Verbitskaya and M. Abreu and P. Anbinderis and T. Anbinderis and N. D'Ambrosio and {De Boer}, W. and E. Borchi and K. Borer and M. Bruzzi and S. Buontempo and L. Casagrande and W. Chen and V. Cindro and B. Dezillie and A. Dierlamm and V. Eremin and E. Gaubas and V. Gorbatenko and V. Granata and E. Grigoriev and S. Grohmann and F. Hauler and E. Heijne and S. Heising and O. Hempel and R. Herzog and J. H{\"a}rk{\"o}nen and I. Ilyashenko and S. Janos and L. Jungermann and V. Kalesinskas and J. Kapturauskas and R. Laiho and Z. Li and I. Mandic and {De Masi}, Rita and D. Menichelli and M. Mikuz and O. Militaru and Niinikoski, {T. O.} and V. O'Shea and S. Pagano and Palmieri, {V. G.} and S. Paul and {Perea Solano}, B. and K. Piotrzkowski and S. Pirollo and K. Pretzl and {Rato Mendes}, P. and G. Ruggiero and K. Smith and P. Sonderegger and P. Sousa and E. Tuominen and J. Vaitkus and {Da Vi{\'a}}, C. and E. Wobst and M. Zavrtanik",

year = "2003",

month = nov,

day = "21",

doi = "10.1016/j.nima.2003.08.083",

language = "English",

volume = "514",

pages = "47--61",

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

issn = "0168-9002",

publisher = "Elsevier B.V.",

number = "1-3",

note = "Proceedings of the 4th International Conference on Radiation (RESMDDo2) ; Conference date: 10-07-2002 Through 12-07-2002",

}

Verbitskaya, E, Abreu, M, Anbinderis, P, Anbinderis, T, D'Ambrosio, N, De Boer, W, Borchi, E, Borer, K, Bruzzi, M, Buontempo, S, Casagrande, L, Chen, W, Cindro, V, Dezillie, B, Dierlamm, A, Eremin, V, Gaubas, E, Gorbatenko, V, Granata, V, Grigoriev, E, Grohmann, S, Hauler, F, Heijne, E, Heising, S, Hempel, O, Herzog, R, Härkönen, J, Ilyashenko, I, Janos, S, Jungermann, L, Kalesinskas, V, Kapturauskas, J, Laiho, R, Li, Z, Mandic, I, De Masi, R, Menichelli, D, Mikuz, M, Militaru, O, Niinikoski, TO, O'Shea, V, Pagano, S, Palmieri, VG, Paul, S, Perea Solano, B, Piotrzkowski, K, Pirollo, S, Pretzl, K, Rato Mendes, P, Ruggiero, G, Smith, K, Sonderegger, P, Sousa, P, Tuominen, E, Vaitkus, J, Da Viá, C, Wobst, E & Zavrtanik, M 2003, 'The effect of charge collection recovery in silicon p-n junction detectors irradiated by different particles', Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, vol. 514, no. 1-3, pp. 47-61. https://doi.org/10.1016/j.nima.2003.08.083

The effect of charge collection recovery in silicon p-n junction detectors irradiated by different particles. / Verbitskaya, E.; Abreu, M.; Anbinderis, P. et al.
In: Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, Vol. 514, No. 1-3, 21.11.2003, p. 47-61.

Research output: Contribution to journal › Conference article › peer-review

TY - JOUR

T1 - The effect of charge collection recovery in silicon p-n junction detectors irradiated by different particles

AU - Verbitskaya, E.

AU - Abreu, M.

AU - Anbinderis, P.

AU - Anbinderis, T.

AU - D'Ambrosio, N.

AU - De Boer, W.

AU - Borchi, E.

AU - Borer, K.

AU - Bruzzi, M.

AU - Buontempo, S.

AU - Casagrande, L.

AU - Chen, W.

AU - Cindro, V.

AU - Dezillie, B.

AU - Dierlamm, A.

AU - Eremin, V.

AU - Gaubas, E.

AU - Gorbatenko, V.

AU - Granata, V.

AU - Grigoriev, E.

AU - Grohmann, S.

AU - Hauler, F.

AU - Heijne, E.

AU - Heising, S.

AU - Hempel, O.

AU - Herzog, R.

AU - Härkönen, J.

AU - Ilyashenko, I.

AU - Janos, S.

AU - Jungermann, L.

AU - Kalesinskas, V.

AU - Kapturauskas, J.

AU - Laiho, R.

AU - Li, Z.

AU - Mandic, I.

AU - De Masi, Rita

AU - Menichelli, D.

AU - Mikuz, M.

AU - Militaru, O.

AU - Niinikoski, T. O.

AU - O'Shea, V.

AU - Pagano, S.

AU - Palmieri, V. G.

AU - Paul, S.

AU - Perea Solano, B.

AU - Piotrzkowski, K.

AU - Pirollo, S.

AU - Pretzl, K.

AU - Rato Mendes, P.

AU - Ruggiero, G.

AU - Smith, K.

AU - Sonderegger, P.

AU - Sousa, P.

AU - Tuominen, E.

AU - Vaitkus, J.

AU - Da Viá, C.

AU - Wobst, E.

AU - Zavrtanik, M.

PY - 2003/11/21

Y1 - 2003/11/21

N2 - The recovery of the charge collection efficiency (CCE) at low temperatures, the so-called "Lazarus effect", was studied in Si detectors irradiated by fast reactor neutrons, by protons of medium and high energy, by pions and by gamma-rays. The experimental results show that the Lazarus effect is observed: (a) after all types of irradiation; (b) before and after space charge sign inversion; (c) only in detectors that are biased at voltages resulting in partial depletion at room temperature. The experimental temperature dependence of the CCE for proton-irradiated detectors shows non-monotonic behaviour with a maximum at a temperature defined as the CCE recovery temperature. The model of the effect for proton-irradiated detectors agrees well with that developed earlier for detectors irradiated by neutrons. The same midgap acceptor-type and donor-type levels are responsible for the Lazarus effect in detectors irradiated by neutrons and by protons. A new, abnormal "zigzag"-shaped temperature dependence of the CCE was observed for detectors irradiated by all particles (neutrons, protons and pions) and by an ultra-high dose of γ-rays, when operating at low bias voltages. This effect is explained in the framework of the double-peak electric field distribution model for heavily irradiated detectors. The redistribution of the space charge region depth between the depleted regions adjacent to p + and n+ contacts is responsible for the "zigzag"- shaped curves. It is shown that the CCE recovery temperature increases with reverse bias in all detectors, regardless of the type of radiation.

AB - The recovery of the charge collection efficiency (CCE) at low temperatures, the so-called "Lazarus effect", was studied in Si detectors irradiated by fast reactor neutrons, by protons of medium and high energy, by pions and by gamma-rays. The experimental results show that the Lazarus effect is observed: (a) after all types of irradiation; (b) before and after space charge sign inversion; (c) only in detectors that are biased at voltages resulting in partial depletion at room temperature. The experimental temperature dependence of the CCE for proton-irradiated detectors shows non-monotonic behaviour with a maximum at a temperature defined as the CCE recovery temperature. The model of the effect for proton-irradiated detectors agrees well with that developed earlier for detectors irradiated by neutrons. The same midgap acceptor-type and donor-type levels are responsible for the Lazarus effect in detectors irradiated by neutrons and by protons. A new, abnormal "zigzag"-shaped temperature dependence of the CCE was observed for detectors irradiated by all particles (neutrons, protons and pions) and by an ultra-high dose of γ-rays, when operating at low bias voltages. This effect is explained in the framework of the double-peak electric field distribution model for heavily irradiated detectors. The redistribution of the space charge region depth between the depleted regions adjacent to p + and n+ contacts is responsible for the "zigzag"- shaped curves. It is shown that the CCE recovery temperature increases with reverse bias in all detectors, regardless of the type of radiation.

KW - Carrier trapping

KW - Charge collection efficiency

KW - Electric field distribution

KW - Radiation hardness

KW - Silicon detectors

UR - http://www.scopus.com/inward/record.url?scp=0242523093&partnerID=8YFLogxK

U2 - 10.1016/j.nima.2003.08.083

DO - 10.1016/j.nima.2003.08.083

M3 - Conference article

AN - SCOPUS:0242523093

SN - 0168-9002

VL - 514

SP - 47

EP - 61

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

IS - 1-3

T2 - Proceedings of the 4th International Conference on Radiation (RESMDDo2)

Y2 - 10 July 2002 through 12 July 2002

ER -

Verbitskaya E, Abreu M, Anbinderis P, Anbinderis T, D'Ambrosio N, De Boer W et al. The effect of charge collection recovery in silicon p-n junction detectors irradiated by different particles. Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment. 2003 Nov 21;514(1-3):47-61. doi: 10.1016/j.nima.2003.08.083

The effect of charge collection recovery in silicon p-n junction detectors irradiated by different particles

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Keywords

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