Abstract The behavior of medium voltage commercial power MOSFETs, first degraded with increasing γ-rays doses and subsequently irradiated with heavy ions, is presented. It is shown that the degradation of the gate oxide caused by the γ irradiation severely corrupt the SEE robustness and drastically modify the physical behavior of the device under test after the impact of a heavy ion. A decrease of the critical voltages at which destructive burnouts and gate ruptures appear has been detected in all devices previously irradiated with γ-rays, the amount of the critical voltage reduction is strictly related to the amount of the absorbed γ-rays dose. Furthermore, at the failure voltage, the behavior of the device is affected by the conduction ...
The paper presents an experimental characterization of the damages induced by heavy ion irradiation ...
Spacecraft, military mission requires electronic devices that are radiation hardened to extend expos...
We have briefly reviewed the most important degradation mechanisms affecting ultra-thin gate oxides ...
Single-event effect (SEE) test results are presented for commercial grade, automotive grade, and rad...
L'objectif de cette thèse s'oriente principalement sur l'étude du de puisclaquage post-radiatif des ...
Heavy-ion induced degradation and catastrophic failure data for SiC power MOSFETs and Schottky diode...
An accelerated wear-out of ultra-thin gate oxides used in contemporary deep-submicron CMOS technolog...
Power electronic devices in spacecraft and military applications requires high radiation tolerant. T...
Almost every space mission uses vertical power metal-semiconductor-oxide field-effect transistors (M...
The radiation response of 90 nm bulk silicon MOS devices after heavy ion irradiation is experimental...
We investigated the combined effect of heavy-ion irradiation and large applied bias on the dielectri...
We present the first experimental data about the wear-out of a 0.1um partially depleted SOI CMOS tec...
N-channel MOSFETs were irradiated by 48MeV Li3+ ions, 100MeV F8+ ions and Co-60 gamma radiation with...
We present the first experimental data about the response of partially (PD) and fully (FD) depleted ...
N-channel depletion MOSFETs were irradiated with 4MeV Proton and Co-60 gamma radiation in the dose r...
The paper presents an experimental characterization of the damages induced by heavy ion irradiation ...
Spacecraft, military mission requires electronic devices that are radiation hardened to extend expos...
We have briefly reviewed the most important degradation mechanisms affecting ultra-thin gate oxides ...
Single-event effect (SEE) test results are presented for commercial grade, automotive grade, and rad...
L'objectif de cette thèse s'oriente principalement sur l'étude du de puisclaquage post-radiatif des ...
Heavy-ion induced degradation and catastrophic failure data for SiC power MOSFETs and Schottky diode...
An accelerated wear-out of ultra-thin gate oxides used in contemporary deep-submicron CMOS technolog...
Power electronic devices in spacecraft and military applications requires high radiation tolerant. T...
Almost every space mission uses vertical power metal-semiconductor-oxide field-effect transistors (M...
The radiation response of 90 nm bulk silicon MOS devices after heavy ion irradiation is experimental...
We investigated the combined effect of heavy-ion irradiation and large applied bias on the dielectri...
We present the first experimental data about the wear-out of a 0.1um partially depleted SOI CMOS tec...
N-channel MOSFETs were irradiated by 48MeV Li3+ ions, 100MeV F8+ ions and Co-60 gamma radiation with...
We present the first experimental data about the response of partially (PD) and fully (FD) depleted ...
N-channel depletion MOSFETs were irradiated with 4MeV Proton and Co-60 gamma radiation in the dose r...
The paper presents an experimental characterization of the damages induced by heavy ion irradiation ...
Spacecraft, military mission requires electronic devices that are radiation hardened to extend expos...
We have briefly reviewed the most important degradation mechanisms affecting ultra-thin gate oxides ...