Add to ORKGGas breakdown in large scale systems has been widely studied and is reasonably well understood. Deviations from the well-known Paschen law, however, have been reported in microgaps. One possible mechanism responsible for these deviations is the increase of the secondary electron emission yield due to the quantum tunnelling of electrons from the metal electrodes to the gas phase. The high electric fields obtained in small gaps combined with the lowering of the potential barrier seen by the electrons in the cathode as an ion approaches lead to the onset of ion-enhanced field emissions. Particle-in-cell/Monte Carlo simulations including ion-enhanced field emission have been performed to evaluate the importance of these mechanisms in the discha...
We all experience the occasional electric shock when grabbing a doorknob. Similarly, such an electri...
The microwave induced breakdown of N-2 gas in microgaps was modeled using the collision frequency be...
While Paschen’s law is commonly used to predict breakdown voltage, it fails at microscale gaps when ...
In this paper, the failure of the breakdown voltage from the Paschens law at extremely small electro...
Devices with micrometer and submicrometer gaps can face a serious challenge due to electrical breakd...
This paper contains the results of the detailed simulation study of the role of ion-enhanced field e...
This paper explores the predominant mechanisms for the deviation of micro-gap dc gas breakdown and t...
The phenomenon of field emission plays a significant role in the deviation of the breakdown voltage ...
The individual contributions of various gas discharge mechanisms to total pre-breakdown current in m...
Understanding of ion generation in air provides insights to several applications, such as gas sensor...
The effects of field emission on direct current breakdown in microscale gaps filled with an ambient ...
In this paper results of the experimental and theoretical studies of the field emission driven direc...
One important mechanism in the prebreakdown phase is the quantum tunnelling of electrons from the me...
Understanding of ion generation in air provides insights to several applications, such as gas sensor...
For over half a century, it has been known that the onset of field emission can lead to anomalous br...
We all experience the occasional electric shock when grabbing a doorknob. Similarly, such an electri...
The microwave induced breakdown of N-2 gas in microgaps was modeled using the collision frequency be...
While Paschen’s law is commonly used to predict breakdown voltage, it fails at microscale gaps when ...
In this paper, the failure of the breakdown voltage from the Paschens law at extremely small electro...
Devices with micrometer and submicrometer gaps can face a serious challenge due to electrical breakd...
This paper contains the results of the detailed simulation study of the role of ion-enhanced field e...
This paper explores the predominant mechanisms for the deviation of micro-gap dc gas breakdown and t...
The phenomenon of field emission plays a significant role in the deviation of the breakdown voltage ...
The individual contributions of various gas discharge mechanisms to total pre-breakdown current in m...
Understanding of ion generation in air provides insights to several applications, such as gas sensor...
The effects of field emission on direct current breakdown in microscale gaps filled with an ambient ...
In this paper results of the experimental and theoretical studies of the field emission driven direc...
One important mechanism in the prebreakdown phase is the quantum tunnelling of electrons from the me...
Understanding of ion generation in air provides insights to several applications, such as gas sensor...
For over half a century, it has been known that the onset of field emission can lead to anomalous br...
We all experience the occasional electric shock when grabbing a doorknob. Similarly, such an electri...
The microwave induced breakdown of N-2 gas in microgaps was modeled using the collision frequency be...
While Paschen’s law is commonly used to predict breakdown voltage, it fails at microscale gaps when ...