A comparison between rad-hard float zone silicon diodes as gamma dosimeter in radiation processing

Fábio Camargo; Carmen Cecília Bueno; Josemary A. C. Gonçalves

doi:10.15392/bjrs.v7i2A.681

Authors

Fábio Camargo Amazônia Azul Tecnologias de Tecnologia S.A. – AMAZUL
Carmen Cecília Bueno Instituto de Pesquisas Energéticas e Nucleares – IPEN-CNEN/SP
Josemary A. C. Gonçalves Instituto de Pesquisas Energéticas e Nucleares – IPEN-CNEN/SP and Pontifícia Universidade Católica de São Paulo – PUC/SP

DOI:

https://doi.org/10.15392/bjrs.v7i2A.681

Keywords:

Gamma dosimetry, Silicon diode, High-dose, Float Zone diode, Rad-hard Si diode

Abstract

In this work, we report on the results obtained with rad-hard Standard Float Zone (STFZ) and Diffused Oxygenated Float Zone (DOFZ) silicon diodes in radiation processing dosimetry. The dosimetric probes were designed to operate in the direct current mode, as on-line radiation dosimeter. The irradiation of the samples was performed using a 60Co source with a dose rate of almost 2.4 kGy/h. The current response of each diode was measured as a function of the exposure time in steps from 5 kGy up to 50 kGy to achieve a total absorbed dose of 275 kGy. In this dose range it is observed a significant decrease in the photocurrent generated in both devices due to gamma radiation defects produced in their active volumes. To mitigate this effect, the samples were pre-irradiated with Co-60 gamma rays at 700 kGy. Despite of being less sensitive, these devices presented stable and reproducible current signals with a relative sensitivity decrease of about 19% within the whole range of dose studied. The dose-response curves of the pre-irradiated diodes showed quadratic behavior with correlation coefficient higher than 0.9999 for total absorbed dose up to 275 kGy. The comparison of the FZ and DOFZ responses evidenced that the latter was slightly superior to the first. However, it is important to note that all pre-irradiated diodes can be used as gamma dosimeters in radiation processing applications.

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Author Biographies

Fábio Camargo, Amazônia Azul Tecnologias de Tecnologia S.A. – AMAZUL

Laboratório de Degradação de Materiais (LADEM)

Centro industrial Nuclear de Aramar (CINA)

Carmen Cecília Bueno, Instituto de Pesquisas Energéticas e Nucleares – IPEN-CNEN/SP

Centro de Tecnologia das Radiações - CTR

Josemary A. C. Gonçalves, Instituto de Pesquisas Energéticas e Nucleares – IPEN-CNEN/SP and Pontifícia Universidade Católica de São Paulo – PUC/SP

Centro de Tecnologia das Radiações - IPEN-CNEN/SP

Depto. Física - PUC/SP

References

BARTHE, J. Electronic dosimeters based on solid state detectors. Nucl. Instr. and Meth. Section B, v. 184, p. 158-189, 2001.

ROSENFELD, A. B. Electronic dosimetry in radiation therapy. Radiation Measurements, v. 41, p. S134-S153, 2007.

CASATI, M.; BRUZZI, M.; BUCCIOLINI, M.; MENICHELLI, D.; SCARINGELLA, M.; PIEMONTE, C.; FRETWURST, E. Characterization of standard and oxygenated ﬂoat zone Si diodes under radiotherapy beams. Nucl. Instr. and Meth. Section A, v. 552, pp. 158-162, 2005.

MENICHELLI, D.; BRUZZI, M.; BUCCIOLINI, M.; TALAMONTI, C.; CASATIA, M.; MARRAZZO, L.; TESI, M.; PIEMONTE, C.; POZZA, A.; ZORZI, N.; BRIANZI, M.; DE SIO, A. Design and development of a silicon-segmented detector for 2D dose measurements in radiotherapy. Nucl. Instr. and Meth. Section A, v. 583, p. 109-113, 2007.

CAMARGO, F.; GONÇALVES, J. A. C.; KHOURY, H. J.; NAPOLITANO, C. M.; HÄRKÖNEN, J.; BUENO, C. C. MCz diode response as a high-dose gamma radiation dosimeter. Radiation Measurements, v. 43, p. 1160-1162, 2008.

International Atomic Energy Agency. Gamma Irradiators for Radiation Processing. IAEA Brochure, Vienna: 2005.

RD50 Status Report 2006. Radiation hard semiconductor devices for very high luminosity colliders. CERN-LHCC-2007-005 and LHCC-RD-013.

HÄRKÖNEN, J.; TUOVINEN, E.; LUUKKA, P.; NORDLUND, H. K.; TUOMINEN, E. Magnetic Czochralski silicon as detector material. Nucl. Instr. and Meth. Section A, v. 579, p. 648-652, 2007.

FRETWURST, E.; LINDSTRÖM, G.; STAHL, J.; PINTILIE, I.; LI, Z.; KIERSTEAD, J.; VERBITSKAYA, E.; RÖDER, R. Bulk damage effects in standard and oxygen-enriched silicon detectors induced by 60Co-gamma radiation. Nucl. Instr. and Meth. Section A, v. 514, p. 1-8, 2003.

HÄRKÖNEN, J.; TUOMINEN, E.; TUOVINEN, E.; LASSILA-PERINI, K.; MEHTÄLÄ, P.; NUMMELA, S.; NYSTEN, J.; HEIKKILÄ, P.; OVCHINNIKOV, V.; PALOKANGAS, M.; YLI-KOSKI, M.; PALMU, L., KALLIJÄRVI, S.; ALANKO, T.; LAITINEN, P.; PIROJENKO, A.; RIIHIMÄKI, I.; TIOURINE, G.; VIRTANEN, A. The Effect of Oxygenation on the Radiation Hardness of Silicon Studied by Surface Photovoltage Method. IEEE Trans. Nuclear Science, v. 49, n. 6, p. 2910-2913, 2002.

CAMARGO, F. Development of Dosimeters with Rad-Hard Silicon Diodes for High Dose Dosimetry. PhD Thesis, USP, São Paulo, 2009.