This process, as with other stimulated emission processes, allows all-optical amplification.

This stimulated emission process leads to a dominant light field with a particular wavelength, direction, and phase.

The Hertzian oscillator loses mass in the emission process, and momentum is conserved in any frame.

Again, polarization and continuum spectrum are used to distinguish synchrotron radiation from other emission processes.

They also claim that most known coherent emission processes are unlikely explanations for the source.

The lifetime of a spontaneous emission process.

The emission process is highly random in space and time (see thermal light).

To help us detect sea ice more efficiently, we need to model these emission processes.

The duration of the collision is much shorter than the lifetime of the emission process.

The duration of the influence is much longer than the lifetime of the emission process.