International audienceA new experimental setup used to perform non-destructive measurement of electrical quantities on semiconductor devices is described in this paper. The particular case of tunneling current measurement in n-type semiconductor–oxide–semiconductor (SOS) capacitors, whose dielectrics play a crucial role in non-volatile memories, has been investigated. When the gates of such devices are polarized with a sufficient bias voltage while the other terminals are grounded, tunnel conduction of electrons through the thin oxide layer is allowed. Typical tunneling current measurements obtained with this advanced setup are presented and compared to the results yielded by older standard experimental protocols. An application to the expe...
International audienceThis paper deals with new stochastic modeling of very low tunneling currents i...
We have deduced the analytical expression of the tunneling current across a thin oxide layer for a M...
We propose a computationally efficient, accurate and numerically stable quantum- mechanical techniqu...
International audienceA new experimental setup used to perform non-destructive measurement of electr...
In this paper we propose and develop a complete solution to measure very low tunneling currents in N...
We consider a tunnel junction between two arbitrary non-linear systems in any dimension, which can b...
The design, characterization and applications of a novel charge integrating pulsed current-voltage I...
Current conduction mechanisms through a metal-oxide semiconductor capacitor with a 9.6 nm thick SiO2...
Non-Volatile Memory (NVM) devices store data in floating gates in binary form with electrical charge...
A survey is given on the research activity and results concerning some new devices with thin ...
This paper provides an approach to monitor oscillation status in tunnel diode measurement circuits-b...
Abstract.- We consider a tunnel junction between two arbitrary non-linear systems in any dimension, ...
This paper deals with new stochastic modeling of very low tunneling currents in Non-Volatile Memorie...
Presented in this work is a measurement method to obtain the Equivalent Oxide Thickness (EOT) using ...
We demonstrate that a tunnel junction connected in series to the ferroelectric (FE) via a semiconduc...
International audienceThis paper deals with new stochastic modeling of very low tunneling currents i...
We have deduced the analytical expression of the tunneling current across a thin oxide layer for a M...
We propose a computationally efficient, accurate and numerically stable quantum- mechanical techniqu...
International audienceA new experimental setup used to perform non-destructive measurement of electr...
In this paper we propose and develop a complete solution to measure very low tunneling currents in N...
We consider a tunnel junction between two arbitrary non-linear systems in any dimension, which can b...
The design, characterization and applications of a novel charge integrating pulsed current-voltage I...
Current conduction mechanisms through a metal-oxide semiconductor capacitor with a 9.6 nm thick SiO2...
Non-Volatile Memory (NVM) devices store data in floating gates in binary form with electrical charge...
A survey is given on the research activity and results concerning some new devices with thin ...
This paper provides an approach to monitor oscillation status in tunnel diode measurement circuits-b...
Abstract.- We consider a tunnel junction between two arbitrary non-linear systems in any dimension, ...
This paper deals with new stochastic modeling of very low tunneling currents in Non-Volatile Memorie...
Presented in this work is a measurement method to obtain the Equivalent Oxide Thickness (EOT) using ...
We demonstrate that a tunnel junction connected in series to the ferroelectric (FE) via a semiconduc...
International audienceThis paper deals with new stochastic modeling of very low tunneling currents i...
We have deduced the analytical expression of the tunneling current across a thin oxide layer for a M...
We propose a computationally efficient, accurate and numerically stable quantum- mechanical techniqu...