electron current

But they performed it at very low electron currents, which drives home an important point I'll discuss shortly.

Acceleration also increases the electron current flowing between the atmosphere and magnetosphere.

If one runs the experiment at a high electron current, then one sees the classics 2-slit interference pattern.

Electron current is inherent to the microbial metabolism.

For many years the photocathode was the only practical method for converting light to an electron current.

A regulated electron current (typically 10 mA) is emitted from a heated filament.

She had a plain round face with dark enriched eyes; the skin on her cheeks was red raw from the crackling electron currents.

The total current, of course, is the sum of the ion and electron currents:

The advantage of our approach is that it is free of energy loss because the modes are not related to real electron currents.

In this situation, a leftward electron current is possible despite an electric field pushing electrons in the opposite direction.

The form of the time dependence of the electron current has been shown to vary with dose per pulse and is analysed accordingly.

A complex dependence of both ion and electron current on time is observed on time scales ranging from ms to days.

The high electron velocities lead to electron currents much greater than xenon ion currents.

Because the heavy electron current in such tubes damaged the dynode surface rapidly, their lifetime tended to be very short compared to conventional tubes.

For this double layer (in a hydrogen plasma) the electron current dominates the ion current by a factor of .

If one runs the experiment at low electron current, then one detects the impact of individual electrons at well-localized locations on the detector.

Unlike semiconductor-based devices, smaller spinplasmonics devices are expected to be more efficient in transporting the spin-polarized electron current.

Solar wind energy is stored in this long tail and released unpredictably in bursts of accelerated particles and electron currents.

Irving Langmuir published the application to electron currents in 1913, and extended it to the case of cylindrical cathodes and anodes.

One advantage of the double probe is that neither electrode is ever very far above floating, so the theoretical uncertainties at large electron currents are avoided.

Although Child's Law is usually used to describe electron currents, Child actually derived the equation in order to estimate the current of positively charged atomic ions.

The electron current in neopentane–n-hexane mixtures, produced by a few nanoseconds X-ray pulse in the presence of external electric field, has been observed in the nanosecond–microsecond range.

Above the critical gate voltage in the ON state, the electron current prevails and reaches a maximum at and the curve will roughly have a V-shape.

A low energy "pretzel" magnet placed between sections makes available the full electron current at energies between 5 MeV and 12 MeV.

The addition of H2 or CO to the Ar/N2O solution results in a fast and slower component in the decay of the electron current.