TY  - CONF
AU  - Vasović, Nikola
AU  - Duane, Russell
AU  - Ristić, Goran
AU  - Stanković, Srboljub
PY  - 2023
UR  - https://vinar.vin.bg.ac.rs/handle/123456789/12122
AB  - An improved RADFET based module dosemeter has been developed by Varadis (a spin out company of Tyndall National Institute in Cork, Ireland) with serial number RM-VT01-A. The module is based on commercially available, commercial-off-the-shelf (COTS) parts and represents an updated version of its predecessor RM-VT01 with an upper dose limit of 10Gy (1 kRad) also based on COTS parts. The RM-VT01-A module was tested to a total dose of 1kGy (100 kRad) in Co60 field at Vinča Institute of Nuclear Sciences, Belgrade, Serbia. The improved module circuit was specifically designed to address the challenge of withstanding 1 kGy (100 kRad) received dose. The primary goal of this poster is to present the improvements in the circuit design and working principle. For this purpose, eleven modules were tested, 8 powered and 3 unpowered during irradiation. The module electronics accommodates both irradiation “sense” and readout “single-current-point” mode, outputting the RADFET threshold voltage (VT) as a dosimetric information, directly proportional to the absorbed dose. The output voltage of the module was measured with a simple benchtop voltmeter to demonstrate module operation simplicity and easy system integrability. The experimental data results showed excellent agreement with the dosimetry system used at the Vinca irradiation facility, and calibration data of the VT01 RadFET part.
PB  - Niš : Faculty of Electronic Engineering
C3  - ELICSIR Project Symposium : Book of abstracts
T1  - An improved RADFET-based module with an extended dose range of 1 kGy TID based on COTS parts
SP  - 49
EP  - 49
UR  - https://hdl.handle.net/21.15107/rcub_vinar_12122
ER  - 

@conference{
author = "Vasović, Nikola and Duane, Russell and Ristić, Goran and Stanković, Srboljub",
year = "2023",
abstract = "An improved RADFET based module dosemeter has been developed by Varadis (a spin out company of Tyndall National Institute in Cork, Ireland) with serial number RM-VT01-A. The module is based on commercially available, commercial-off-the-shelf (COTS) parts and represents an updated version of its predecessor RM-VT01 with an upper dose limit of 10Gy (1 kRad) also based on COTS parts. The RM-VT01-A module was tested to a total dose of 1kGy (100 kRad) in Co60 field at Vinča Institute of Nuclear Sciences, Belgrade, Serbia. The improved module circuit was specifically designed to address the challenge of withstanding 1 kGy (100 kRad) received dose. The primary goal of this poster is to present the improvements in the circuit design and working principle. For this purpose, eleven modules were tested, 8 powered and 3 unpowered during irradiation. The module electronics accommodates both irradiation “sense” and readout “single-current-point” mode, outputting the RADFET threshold voltage (VT) as a dosimetric information, directly proportional to the absorbed dose. The output voltage of the module was measured with a simple benchtop voltmeter to demonstrate module operation simplicity and easy system integrability. The experimental data results showed excellent agreement with the dosimetry system used at the Vinca irradiation facility, and calibration data of the VT01 RadFET part.",
publisher = "Niš : Faculty of Electronic Engineering",
journal = "ELICSIR Project Symposium : Book of abstracts",
title = "An improved RADFET-based module with an extended dose range of 1 kGy TID based on COTS parts",
pages = "49-49",
url = "https://hdl.handle.net/21.15107/rcub_vinar_12122"
}

Vasović, N., Duane, R., Ristić, G.,& Stanković, S.. (2023). An improved RADFET-based module with an extended dose range of 1 kGy TID based on COTS parts. in ELICSIR Project Symposium : Book of abstracts
Niš : Faculty of Electronic Engineering., 49-49.
https://hdl.handle.net/21.15107/rcub_vinar_12122

Vasović N, Duane R, Ristić G, Stanković S. An improved RADFET-based module with an extended dose range of 1 kGy TID based on COTS parts. in ELICSIR Project Symposium : Book of abstracts. 2023;:49-49.
https://hdl.handle.net/21.15107/rcub_vinar_12122 .

Vasović, Nikola, Duane, Russell, Ristić, Goran, Stanković, Srboljub, "An improved RADFET-based module with an extended dose range of 1 kGy TID based on COTS parts" in ELICSIR Project Symposium : Book of abstracts (2023):49-49,
https://hdl.handle.net/21.15107/rcub_vinar_12122 .

TY  - CONF
AU  - Ilić, Stefan D.
AU  - Anđelković, Marko
AU  - Carvajal, Miguel Ángel
AU  - Duane, Russell
AU  - Sarajlić, Milija
AU  - Stanković, Srboljub
AU  - Ristić, Goran
PY  - 2022
UR  - https://vinar.vin.bg.ac.rs/handle/123456789/11117
AB  - Introduction. The approach to increase the sensitivity of semiconductor radiation dosimeter with a stacked design was presented for the thick oxide pMOS transistors, also known as RadFETs (A. Kelleher et al., IEEE transactions on nuclear science 42, 1995). The sensitivity is increasing with the number of RadFETs in stacked structure, but there were limitations because of the diode reverse breakdown voltage during readout current (B. O’Connell et al., In Proceedings of the Third European Conference on Radiation and its Effects on Components and Systems, 1995). Further improvement of the stacked RadFETs device enables detecting a minimum absorbed dose of less than 50 Gy for a 20 V power supply (B. O’Connell et al., Fifth European Conference on Radiation and Its Effects on Components and Systems, 1999). Floating gate MOSFET is a modified structure of MOSFET with another polysilicon gate surrounded by oxide. The advantages of the floating gate MOSFET as a radiation dosimeter are that it does not require thick oxide fabrication and the highest sensitivity is for the zero-bias at the control gate during irradiation (S. Ilić et al., Sensors 20 (11), 2020). Experimental setup. Commercial floating gate MOSFETs designed by Advanced Linear Devices Inc. were used in this paper. Four transistors were connected in the stacked structure (drain and control gate are shorted and connected to the source of the next stacked transistor), and their threshold voltage drift values were measured before and after each irradiation portion with the same conditions. The experiment was performed at the Institute of Nuclear Sciences “Vinča”, Belgrade, Serbia. Radiation source Co-60 was used for irradiation of the components, with the following portions of the absorbed dose (Si): 10 Gy, 10 Gy, 10 Gy, 20 Gy, 50 Gy, 400 Gy, 500 Gy, 4 mGy, 45 mGy, 50 mGy, respectively (absorbed dose was 100 mGy in total). All measurements were performed in a test fixture with triax cables by Keithley 2636A Source Measure Unit. During irradiation, all stacked transistors were zero-biased. Results. Observing the threshold voltage drift of the four stacked floating gate MOS transistors, we noticed that the stack of two transistors has the most stable reading values over time (smallest drift). Considering this, we analyzed only two stacked floating gate MOS transistors as a passive dosimeter for the low doses. The results show that it is possible to detect the first portion of 10 Gy at which the sensitivity of the two stacked transistors is 23 V/Gy. For the next same portion, the sensitivity is 17 V/Gy, while for the third, the value is 7 V/Gy. However, for the next 20 Gy, there is a tiny shift, and the sensitivity is only 1 V/Gy. Decreased sensitivity with absorbed dose is a feature of the floating gate MOSFET that has been observed before for much higher doses (S. Ilić et al., Sensors 20 (11), 2020). There is a large overlap in the threshold voltage drift values for the next four radiation portions. However, for the last two largest portions, 45 and 50 mGy, there is a significant threshold voltage shift with no overlapping, and thus it is possible to determine the sensitivity of 0.0226 and 0.0214 V/Gy, respectively. Conclusions. Using a floating gate MOSFET as a low-dose passive dosimeter is possible, but recharging the floating gate and reusing this device for higher total ionizing doses should be investigated.
PB  - RAD Centre, Niš, Serbia
C3  - RAD 2022 : 10th Jubilee International Conference on Radiation in Various Fields of Research : book of abstracts; June 13-17; Herceg Novi, Montenegro
T1  - Stacked floating gate MOSFET as a passive dosimeter
SP  - 113
DO  - 10.21175/rad.spr.abstr.book.2022.26.12
ER  - 

@conference{
author = "Ilić, Stefan D. and Anđelković, Marko and Carvajal, Miguel Ángel and Duane, Russell and Sarajlić, Milija and Stanković, Srboljub and Ristić, Goran",
year = "2022",
abstract = "Introduction. The approach to increase the sensitivity of semiconductor radiation dosimeter with a stacked design was presented for the thick oxide pMOS transistors, also known as RadFETs (A. Kelleher et al., IEEE transactions on nuclear science 42, 1995). The sensitivity is increasing with the number of RadFETs in stacked structure, but there were limitations because of the diode reverse breakdown voltage during readout current (B. O’Connell et al., In Proceedings of the Third European Conference on Radiation and its Effects on Components and Systems, 1995). Further improvement of the stacked RadFETs device enables detecting a minimum absorbed dose of less than 50 Gy for a 20 V power supply (B. O’Connell et al., Fifth European Conference on Radiation and Its Effects on Components and Systems, 1999). Floating gate MOSFET is a modified structure of MOSFET with another polysilicon gate surrounded by oxide. The advantages of the floating gate MOSFET as a radiation dosimeter are that it does not require thick oxide fabrication and the highest sensitivity is for the zero-bias at the control gate during irradiation (S. Ilić et al., Sensors 20 (11), 2020). Experimental setup. Commercial floating gate MOSFETs designed by Advanced Linear Devices Inc. were used in this paper. Four transistors were connected in the stacked structure (drain and control gate are shorted and connected to the source of the next stacked transistor), and their threshold voltage drift values were measured before and after each irradiation portion with the same conditions. The experiment was performed at the Institute of Nuclear Sciences “Vinča”, Belgrade, Serbia. Radiation source Co-60 was used for irradiation of the components, with the following portions of the absorbed dose (Si): 10 Gy, 10 Gy, 10 Gy, 20 Gy, 50 Gy, 400 Gy, 500 Gy, 4 mGy, 45 mGy, 50 mGy, respectively (absorbed dose was 100 mGy in total). All measurements were performed in a test fixture with triax cables by Keithley 2636A Source Measure Unit. During irradiation, all stacked transistors were zero-biased. Results. Observing the threshold voltage drift of the four stacked floating gate MOS transistors, we noticed that the stack of two transistors has the most stable reading values over time (smallest drift). Considering this, we analyzed only two stacked floating gate MOS transistors as a passive dosimeter for the low doses. The results show that it is possible to detect the first portion of 10 Gy at which the sensitivity of the two stacked transistors is 23 V/Gy. For the next same portion, the sensitivity is 17 V/Gy, while for the third, the value is 7 V/Gy. However, for the next 20 Gy, there is a tiny shift, and the sensitivity is only 1 V/Gy. Decreased sensitivity with absorbed dose is a feature of the floating gate MOSFET that has been observed before for much higher doses (S. Ilić et al., Sensors 20 (11), 2020). There is a large overlap in the threshold voltage drift values for the next four radiation portions. However, for the last two largest portions, 45 and 50 mGy, there is a significant threshold voltage shift with no overlapping, and thus it is possible to determine the sensitivity of 0.0226 and 0.0214 V/Gy, respectively. Conclusions. Using a floating gate MOSFET as a low-dose passive dosimeter is possible, but recharging the floating gate and reusing this device for higher total ionizing doses should be investigated.",
publisher = "RAD Centre, Niš, Serbia",
journal = "RAD 2022 : 10th Jubilee International Conference on Radiation in Various Fields of Research : book of abstracts; June 13-17; Herceg Novi, Montenegro",
title = "Stacked floating gate MOSFET as a passive dosimeter",
pages = "113",
doi = "10.21175/rad.spr.abstr.book.2022.26.12"
}

Ilić, S. D., Anđelković, M., Carvajal, M. Á., Duane, R., Sarajlić, M., Stanković, S.,& Ristić, G.. (2022). Stacked floating gate MOSFET as a passive dosimeter. in RAD 2022 : 10th Jubilee International Conference on Radiation in Various Fields of Research : book of abstracts; June 13-17; Herceg Novi, Montenegro
RAD Centre, Niš, Serbia., 113.
https://doi.org/10.21175/rad.spr.abstr.book.2022.26.12

Ilić SD, Anđelković M, Carvajal MÁ, Duane R, Sarajlić M, Stanković S, Ristić G. Stacked floating gate MOSFET as a passive dosimeter. in RAD 2022 : 10th Jubilee International Conference on Radiation in Various Fields of Research : book of abstracts; June 13-17; Herceg Novi, Montenegro. 2022;:113.
doi:10.21175/rad.spr.abstr.book.2022.26.12 .

Ilić, Stefan D., Anđelković, Marko, Carvajal, Miguel Ángel, Duane, Russell, Sarajlić, Milija, Stanković, Srboljub, Ristić, Goran, "Stacked floating gate MOSFET as a passive dosimeter" in RAD 2022 : 10th Jubilee International Conference on Radiation in Various Fields of Research : book of abstracts; June 13-17; Herceg Novi, Montenegro (2022):113,
https://doi.org/10.21175/rad.spr.abstr.book.2022.26.12 . .

TY  - CONF
AU  - Duane, Russell
AU  - Vasović, Nikola
AU  - White, Mary
AU  - Blake, Alan
AU  - Marie McGarrigle, Anne
AU  - Stanković, Srboljub
AU  - Jakšić, Aleksandar
PY  - 2022
UR  - https://vinar.vin.bg.ac.rs/handle/123456789/11116
AB  - A Metal Oxide Semiconductor (MOS) ionizing radiation detector architecture which senses trapped charge in the dielectric due to incident ionizing radiation is presented. The detector architecture increases output voltage signal as a function of trapped charge in the sensing dielectric in comparison with state of the art MOSFET (RADFET) technology. Numerical simulations were employed to help develop the device concept. It is shown that an improved voltage sensitivity is possible due to a reduction in the sensing capacitance which, unlike RADFET technology, is decoupled from the dielectric capacitance. An initial prototype of the detector has been fabricated in the silicon fabrication facility of Tyndall National Institute and irradiation experiments have been performed which confirm the improved voltage sensitivity versus commercial RADFET detectors. It is envisaged that further sensitivity increases may be possible by integrating dielectrics other than silicon dioxide.
PB  - RAD Centre, Niš, Serbia
C3  - RAD 2022 : 10th Jubilee International Conference on Radiation in Various Fields of Research : book of abstracts; June 13-17; Herceg Novi, Montenegro
T1  - A Metal Oxide Semiconductor ionizing radiation detector architecture with increased voltage sensitivity
SP  - 109
DO  - 10.21175/rad.spr.abstr.book.2022.26.8
ER  - 

@conference{
author = "Duane, Russell and Vasović, Nikola and White, Mary and Blake, Alan and Marie McGarrigle, Anne and Stanković, Srboljub and Jakšić, Aleksandar",
year = "2022",
abstract = "A Metal Oxide Semiconductor (MOS) ionizing radiation detector architecture which senses trapped charge in the dielectric due to incident ionizing radiation is presented. The detector architecture increases output voltage signal as a function of trapped charge in the sensing dielectric in comparison with state of the art MOSFET (RADFET) technology. Numerical simulations were employed to help develop the device concept. It is shown that an improved voltage sensitivity is possible due to a reduction in the sensing capacitance which, unlike RADFET technology, is decoupled from the dielectric capacitance. An initial prototype of the detector has been fabricated in the silicon fabrication facility of Tyndall National Institute and irradiation experiments have been performed which confirm the improved voltage sensitivity versus commercial RADFET detectors. It is envisaged that further sensitivity increases may be possible by integrating dielectrics other than silicon dioxide.",
publisher = "RAD Centre, Niš, Serbia",
journal = "RAD 2022 : 10th Jubilee International Conference on Radiation in Various Fields of Research : book of abstracts; June 13-17; Herceg Novi, Montenegro",
title = "A Metal Oxide Semiconductor ionizing radiation detector architecture with increased voltage sensitivity",
pages = "109",
doi = "10.21175/rad.spr.abstr.book.2022.26.8"
}

Duane, R., Vasović, N., White, M., Blake, A., Marie McGarrigle, A., Stanković, S.,& Jakšić, A.. (2022). A Metal Oxide Semiconductor ionizing radiation detector architecture with increased voltage sensitivity. in RAD 2022 : 10th Jubilee International Conference on Radiation in Various Fields of Research : book of abstracts; June 13-17; Herceg Novi, Montenegro
RAD Centre, Niš, Serbia., 109.
https://doi.org/10.21175/rad.spr.abstr.book.2022.26.8

Duane R, Vasović N, White M, Blake A, Marie McGarrigle A, Stanković S, Jakšić A. A Metal Oxide Semiconductor ionizing radiation detector architecture with increased voltage sensitivity. in RAD 2022 : 10th Jubilee International Conference on Radiation in Various Fields of Research : book of abstracts; June 13-17; Herceg Novi, Montenegro. 2022;:109.
doi:10.21175/rad.spr.abstr.book.2022.26.8 .

Duane, Russell, Vasović, Nikola, White, Mary, Blake, Alan, Marie McGarrigle, Anne, Stanković, Srboljub, Jakšić, Aleksandar, "A Metal Oxide Semiconductor ionizing radiation detector architecture with increased voltage sensitivity" in RAD 2022 : 10th Jubilee International Conference on Radiation in Various Fields of Research : book of abstracts; June 13-17; Herceg Novi, Montenegro (2022):109,
https://doi.org/10.21175/rad.spr.abstr.book.2022.26.8 . .

TY  - JOUR
AU  - Ristić, Goran S.
AU  - Ilić, Stefan D.
AU  - Duane, Russell
AU  - Anđelković, Marko S.
AU  - Palma, Alberto J.
AU  - Lallena, Antonio M.
AU  - Krstić, Miloš D.
AU  - Stanković, Srboljub J.
AU  - Jakšić, Aleksandar B.
PY  - 2021
UR  - https://vinar.vin.bg.ac.rs/handle/123456789/12128
AB  - The RADiation sensitive metal-oxide-semiconductor field-effect-transistors (RADFETs) were irradiated with gamma rays up to absorbed dose of 110 Gy(H2O). The results of threshold voltage, VT, during irradiation with various positive gate biases showed the increase in VT with gate bias. The threshold voltage shift, ΔVT, during irradiation was fitted very well. The contributions of both the fixed traps (FTs) and switching traps (STs) during radiation on ΔVT were analyzed. The results show the significantly higher contribution of FTs than STs. A function that describes the dependence of threshold voltage shift and its components on gate bias was proposed, which fitted the experimental values very well. The annealing at the room temperature without gate bias of irradiated RADFETs was investigated. The recovery of threshold voltage, known as fading, slightly increase with the gate bias applied during radiation. The ΔVT shows the same changes as the threshold voltage component due to fixed states, ΔVft, while there is no change in the threshold voltage component due to switching traps, ΔVst.
T2  - Journal of Radiation Research and Applied Sciences
T1  - Radiation sensitive MOSFETs irradiated with various positive gate biases
VL  - 14
IS  - 1
SP  - 353
EP  - 357
DO  - 10.1080/16878507.2021.1970921
ER  - 

@article{
author = "Ristić, Goran S. and Ilić, Stefan D. and Duane, Russell and Anđelković, Marko S. and Palma, Alberto J. and Lallena, Antonio M. and Krstić, Miloš D. and Stanković, Srboljub J. and Jakšić, Aleksandar B.",
year = "2021",
abstract = "The RADiation sensitive metal-oxide-semiconductor field-effect-transistors (RADFETs) were irradiated with gamma rays up to absorbed dose of 110 Gy(H2O). The results of threshold voltage, VT, during irradiation with various positive gate biases showed the increase in VT with gate bias. The threshold voltage shift, ΔVT, during irradiation was fitted very well. The contributions of both the fixed traps (FTs) and switching traps (STs) during radiation on ΔVT were analyzed. The results show the significantly higher contribution of FTs than STs. A function that describes the dependence of threshold voltage shift and its components on gate bias was proposed, which fitted the experimental values very well. The annealing at the room temperature without gate bias of irradiated RADFETs was investigated. The recovery of threshold voltage, known as fading, slightly increase with the gate bias applied during radiation. The ΔVT shows the same changes as the threshold voltage component due to fixed states, ΔVft, while there is no change in the threshold voltage component due to switching traps, ΔVst.",
journal = "Journal of Radiation Research and Applied Sciences",
title = "Radiation sensitive MOSFETs irradiated with various positive gate biases",
volume = "14",
number = "1",
pages = "353-357",
doi = "10.1080/16878507.2021.1970921"
}

Ristić, G. S., Ilić, S. D., Duane, R., Anđelković, M. S., Palma, A. J., Lallena, A. M., Krstić, M. D., Stanković, S. J.,& Jakšić, A. B.. (2021). Radiation sensitive MOSFETs irradiated with various positive gate biases. in Journal of Radiation Research and Applied Sciences, 14(1), 353-357.
https://doi.org/10.1080/16878507.2021.1970921

Ristić GS, Ilić SD, Duane R, Anđelković MS, Palma AJ, Lallena AM, Krstić MD, Stanković SJ, Jakšić AB. Radiation sensitive MOSFETs irradiated with various positive gate biases. in Journal of Radiation Research and Applied Sciences. 2021;14(1):353-357.
doi:10.1080/16878507.2021.1970921 .

Ristić, Goran S., Ilić, Stefan D., Duane, Russell, Anđelković, Marko S., Palma, Alberto J., Lallena, Antonio M., Krstić, Miloš D., Stanković, Srboljub J., Jakšić, Aleksandar B., "Radiation sensitive MOSFETs irradiated with various positive gate biases" in Journal of Radiation Research and Applied Sciences, 14, no. 1 (2021):353-357,
https://doi.org/10.1080/16878507.2021.1970921 . .

TY  - JOUR
AU  - Ilić, Stefan
AU  - Anđelković, Marko S.
AU  - Duane, Russell
AU  - Palma, Alberto J.
AU  - Sarajlić, Milija
AU  - Stanković, Srboljub
AU  - Ristić, Goran S.
PY  - 2021
UR  - https://vinar.vin.bg.ac.rs/handle/123456789/10081
AB  - We investigated the recharging process of commercial floating gate device (EPAD) during the six different dose rates and ten irradiation cycles with the highest dose rate. Dose rate dependence of the floating gate dosimeter was observed from 1 Gy/h to 26 Gy/h (H2O). There is no change of the dosimetric characteristic with a constant dose rate of 26 Gy/h for ten cycles. The absorbed dose does not affect the drift of the threshold voltage readings after the irradiation steps. The reprogramming characteristic is not degrading with the absorbed dose for the ten irradiation cycles, giving the promising potential in the application for dosimetric purposes.
T2  - Microelectronics Reliability
T1  - Recharging process of commercial floating-gate MOS transistor in dosimetry application
VL  - 126
SP  - 114322
DO  - 10.1016/j.microrel.2021.114322
ER  - 

@article{
author = "Ilić, Stefan and Anđelković, Marko S. and Duane, Russell and Palma, Alberto J. and Sarajlić, Milija and Stanković, Srboljub and Ristić, Goran S.",
year = "2021",
abstract = "We investigated the recharging process of commercial floating gate device (EPAD) during the six different dose rates and ten irradiation cycles with the highest dose rate. Dose rate dependence of the floating gate dosimeter was observed from 1 Gy/h to 26 Gy/h (H2O). There is no change of the dosimetric characteristic with a constant dose rate of 26 Gy/h for ten cycles. The absorbed dose does not affect the drift of the threshold voltage readings after the irradiation steps. The reprogramming characteristic is not degrading with the absorbed dose for the ten irradiation cycles, giving the promising potential in the application for dosimetric purposes.",
journal = "Microelectronics Reliability",
title = "Recharging process of commercial floating-gate MOS transistor in dosimetry application",
volume = "126",
pages = "114322",
doi = "10.1016/j.microrel.2021.114322"
}

Ilić, S., Anđelković, M. S., Duane, R., Palma, A. J., Sarajlić, M., Stanković, S.,& Ristić, G. S.. (2021). Recharging process of commercial floating-gate MOS transistor in dosimetry application. in Microelectronics Reliability, 126, 114322.
https://doi.org/10.1016/j.microrel.2021.114322

Ilić S, Anđelković MS, Duane R, Palma AJ, Sarajlić M, Stanković S, Ristić GS. Recharging process of commercial floating-gate MOS transistor in dosimetry application. in Microelectronics Reliability. 2021;126:114322.
doi:10.1016/j.microrel.2021.114322 .

Ilić, Stefan, Anđelković, Marko S., Duane, Russell, Palma, Alberto J., Sarajlić, Milija, Stanković, Srboljub, Ristić, Goran S., "Recharging process of commercial floating-gate MOS transistor in dosimetry application" in Microelectronics Reliability, 126 (2021):114322,
https://doi.org/10.1016/j.microrel.2021.114322 . .

TY  - CONF
AU  - Jakšić, Aleksandar
AU  - Vasović, Nikola
AU  - Duane, Russell
AU  - Stanković, Srboljub
AU  - Martinez-Garcia, Maria Sofia
AU  - Palma, Alberto
AU  - Ristić, Goran
PY  - 2017
UR  - https://vinar.vin.bg.ac.rs/handle/123456789/11196
PB  - RAD Association, Niš, Serbia
C3  - RAD 2017 : 5th International Conference on Radiation in Various Fields of Research : book of abstracts; June 12-16, 2017; Budva, Montenegro
T1  - Radiation Response of Two Types of Commercial RADFETs
SP  - 179
UR  - https://hdl.handle.net/21.15107/rcub_vinar_11196
ER  - 

@conference{
author = "Jakšić, Aleksandar and Vasović, Nikola and Duane, Russell and Stanković, Srboljub and Martinez-Garcia, Maria Sofia and Palma, Alberto and Ristić, Goran",
year = "2017",
publisher = "RAD Association, Niš, Serbia",
journal = "RAD 2017 : 5th International Conference on Radiation in Various Fields of Research : book of abstracts; June 12-16, 2017; Budva, Montenegro",
title = "Radiation Response of Two Types of Commercial RADFETs",
pages = "179",
url = "https://hdl.handle.net/21.15107/rcub_vinar_11196"
}

Jakšić, A., Vasović, N., Duane, R., Stanković, S., Martinez-Garcia, M. S., Palma, A.,& Ristić, G.. (2017). Radiation Response of Two Types of Commercial RADFETs. in RAD 2017 : 5th International Conference on Radiation in Various Fields of Research : book of abstracts; June 12-16, 2017; Budva, Montenegro
RAD Association, Niš, Serbia., 179.
https://hdl.handle.net/21.15107/rcub_vinar_11196

Jakšić A, Vasović N, Duane R, Stanković S, Martinez-Garcia MS, Palma A, Ristić G. Radiation Response of Two Types of Commercial RADFETs. in RAD 2017 : 5th International Conference on Radiation in Various Fields of Research : book of abstracts; June 12-16, 2017; Budva, Montenegro. 2017;:179.
https://hdl.handle.net/21.15107/rcub_vinar_11196 .

Jakšić, Aleksandar, Vasović, Nikola, Duane, Russell, Stanković, Srboljub, Martinez-Garcia, Maria Sofia, Palma, Alberto, Ristić, Goran, "Radiation Response of Two Types of Commercial RADFETs" in RAD 2017 : 5th International Conference on Radiation in Various Fields of Research : book of abstracts; June 12-16, 2017; Budva, Montenegro (2017):179,
https://hdl.handle.net/21.15107/rcub_vinar_11196 .