Temperature error minimization in low dose radiation measurements with 140 nm MOS dosimeters

The possibility to track the threshold voltage shifts caused by ionizing radiation in MOS dosimeters in a Zero Temperature Coefficient reference current is studied. 140 nm gate oxide p-channel MOS transistors were irradiated with a high dose rate 60Co γ-source to characterize their sensitivity to ra...

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Publicado:	2010
Materias:	Dosimetry MOSFETs Radiation monitoring Temperature Gate oxide High dose rate Low dose radiation Mos dosimeter Order of magnitude P-channel MOS Reference currents Temperature error Threshold voltage shifts Zero temperature coefficients Dosimeters Heat radiation Ionizing radiation Monitoring MOSFET devices Nanoelectronics Nuclear reactors Threshold voltage Transistor transistor logic circuits
Acceso en línea:	https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_97898716_v_n_p71_Carbonetto http://hdl.handle.net/20.500.12110/paper_97898716_v_n_p71_Carbonetto
Aporte de:	Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires

id	paper:paper_97898716_v_n_p71_Carbonetto
record_format	dspace
spelling	paper:paper_97898716_v_n_p71_Carbonetto2023-06-08T16:39:15Z Temperature error minimization in low dose radiation measurements with 140 nm MOS dosimeters Dosimetry MOSFETs Radiation monitoring Temperature Gate oxide High dose rate Low dose radiation Mos dosimeter MOSFETs Order of magnitude P-channel MOS Radiation monitoring Reference currents Temperature error Threshold voltage shifts Zero temperature coefficients Dosimeters Heat radiation Ionizing radiation Monitoring MOSFET devices Nanoelectronics Nuclear reactors Threshold voltage Transistor transistor logic circuits Dosimetry The possibility to track the threshold voltage shifts caused by ionizing radiation in MOS dosimeters in a Zero Temperature Coefficient reference current is studied. 140 nm gate oxide p-channel MOS transistors were irradiated with a high dose rate 60Co γ-source to characterize their sensitivity to radiation. Results show that the error introduced by temperature can be minimized in one order of magnitude if the ZTC reference current is applied, but that the error increases as the device is irradiated. 2010 https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_97898716_v_n_p71_Carbonetto http://hdl.handle.net/20.500.12110/paper_97898716_v_n_p71_Carbonetto
institution	Universidad de Buenos Aires
institution_str	I-28
repository_str	R-134
collection	Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic	Dosimetry MOSFETs Radiation monitoring Temperature Gate oxide High dose rate Low dose radiation Mos dosimeter MOSFETs Order of magnitude P-channel MOS Radiation monitoring Reference currents Temperature error Threshold voltage shifts Zero temperature coefficients Dosimeters Heat radiation Ionizing radiation Monitoring MOSFET devices Nanoelectronics Nuclear reactors Threshold voltage Transistor transistor logic circuits Dosimetry
spellingShingle	Dosimetry MOSFETs Radiation monitoring Temperature Gate oxide High dose rate Low dose radiation Mos dosimeter MOSFETs Order of magnitude P-channel MOS Radiation monitoring Reference currents Temperature error Threshold voltage shifts Zero temperature coefficients Dosimeters Heat radiation Ionizing radiation Monitoring MOSFET devices Nanoelectronics Nuclear reactors Threshold voltage Transistor transistor logic circuits Dosimetry Temperature error minimization in low dose radiation measurements with 140 nm MOS dosimeters
topic_facet	Dosimetry MOSFETs Radiation monitoring Temperature Gate oxide High dose rate Low dose radiation Mos dosimeter MOSFETs Order of magnitude P-channel MOS Radiation monitoring Reference currents Temperature error Threshold voltage shifts Zero temperature coefficients Dosimeters Heat radiation Ionizing radiation Monitoring MOSFET devices Nanoelectronics Nuclear reactors Threshold voltage Transistor transistor logic circuits Dosimetry
description	The possibility to track the threshold voltage shifts caused by ionizing radiation in MOS dosimeters in a Zero Temperature Coefficient reference current is studied. 140 nm gate oxide p-channel MOS transistors were irradiated with a high dose rate 60Co γ-source to characterize their sensitivity to radiation. Results show that the error introduced by temperature can be minimized in one order of magnitude if the ZTC reference current is applied, but that the error increases as the device is irradiated.
title	Temperature error minimization in low dose radiation measurements with 140 nm MOS dosimeters
title_short	Temperature error minimization in low dose radiation measurements with 140 nm MOS dosimeters
title_full	Temperature error minimization in low dose radiation measurements with 140 nm MOS dosimeters
title_fullStr	Temperature error minimization in low dose radiation measurements with 140 nm MOS dosimeters
title_full_unstemmed	Temperature error minimization in low dose radiation measurements with 140 nm MOS dosimeters
title_sort	temperature error minimization in low dose radiation measurements with 140 nm mos dosimeters
publishDate	2010
url	https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_97898716_v_n_p71_Carbonetto http://hdl.handle.net/20.500.12110/paper_97898716_v_n_p71_Carbonetto
_version_	1769175812047634432

Temperature error minimization in low dose radiation measurements with 140 nm MOS dosimeters

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