Add to ORKG\u3cp\u3eAn electrically isolated particle on a substrate surface will be electrically charged when a plasma is applied above it. We show that the magnitude of this charge is determined by a balance of the impeding ion and electron fluxes that are strongly influenced by the nearby substrate. By simulating this process, we find that the charge density of the particle can be much higher than that of the substrate. This is due to the height of the particle, which causes additional electron collection.\u3c/p\u3
It is common knowledge that a floating surface will charge negative when a plasma is applied over it...
It is common knowledge that a floating surface will charge negative when a plasma is applied over it...
This contribution focusses on the seemingly easy problem of the charging of micrometer sized particl...
An electrically isolated particle on a substrate surface will be electrically charged when a plasma ...
An electrically isolated particle on a substrate surface will be electrically charged when a plasma ...
An electrically isolated particle on a substrate surface will be electrically charged when a plasma ...
An electrically isolated particle on a substrate surface will be electrically charged when a plasma ...
An electrically isolated particle on a substrate surface will be electrically charged when a plasma ...
A dust particle on a surface will be electrically charged when a plasma is applied above it. This wi...
A dust particle on a surface will be electrically charged when a plasma is applied above it. This wi...
It is common knowledge that a floating surface will charge negative when a plasma is applied over it...
It is common knowledge that a floating surface will charge negative when a plasma is applied over it...
It is general knowledge that a substrate will charge to the floating potential when a plasma is appl...
It is general knowledge that a substrate will charge to the floating potential when a plasma is appl...
It is general knowledge that a substrate will charge to the floating potential when a plasma is appl...
It is common knowledge that a floating surface will charge negative when a plasma is applied over it...
It is common knowledge that a floating surface will charge negative when a plasma is applied over it...
This contribution focusses on the seemingly easy problem of the charging of micrometer sized particl...
An electrically isolated particle on a substrate surface will be electrically charged when a plasma ...
An electrically isolated particle on a substrate surface will be electrically charged when a plasma ...
An electrically isolated particle on a substrate surface will be electrically charged when a plasma ...
An electrically isolated particle on a substrate surface will be electrically charged when a plasma ...
An electrically isolated particle on a substrate surface will be electrically charged when a plasma ...
A dust particle on a surface will be electrically charged when a plasma is applied above it. This wi...
A dust particle on a surface will be electrically charged when a plasma is applied above it. This wi...
It is common knowledge that a floating surface will charge negative when a plasma is applied over it...
It is common knowledge that a floating surface will charge negative when a plasma is applied over it...
It is general knowledge that a substrate will charge to the floating potential when a plasma is appl...
It is general knowledge that a substrate will charge to the floating potential when a plasma is appl...
It is general knowledge that a substrate will charge to the floating potential when a plasma is appl...
It is common knowledge that a floating surface will charge negative when a plasma is applied over it...
It is common knowledge that a floating surface will charge negative when a plasma is applied over it...
This contribution focusses on the seemingly easy problem of the charging of micrometer sized particl...