Editing Chain reaction (section)

==Electron avalanche in gases==
An [[electron avalanche]] happens between two unconnected electrodes in a gas when an electric field exceeds a certain threshold. Random thermal collisions of gas atoms may result in a few free electrons and positively charged gas ions, in a process called [[impact ionization]]. Acceleration of these free electrons in a strong [[electric field]] causes them to gain energy, and when they impact other atoms, the energy causes release of new free electrons and ions (ionization), which fuels the same process. If this process happens faster than it is naturally quenched by ions recombining, the new ions multiply in successive cycles until the gas breaks down into a plasma and current flows freely in a discharge.

Electron avalanches are essential to the [[dielectric breakdown]] process within gases. The process can culminate in [[corona discharge]]s, [[Streamer discharge|streamer]]s, [[leader (spark)|leader]]s, or in a [[electric spark|spark]] or continuous [[electric arc]] that completely bridges the gap. The process may extend huge sparks — streamers in [[lightning]] discharges propagate by formation of electron avalanches created in the high potential gradient ahead of the streamers' advancing tips. Once begun, avalanches are often intensified by the creation of [[photoelectron]]s as a result of ultraviolet radiation emitted by the excited medium's atoms in the aft-tip region. The extremely high temperature of the resulting plasma cracks the surrounding gas molecules and the free ions recombine to create new chemical compounds.<ref>{{cite web | title = Lab Note #106 ''Environmental Impact of Arc Suppression'' | publisher = Arc Suppression Technologies | date = April 2011 | url = http://www.arcsuppressiontechnologies.com/arc-suppression-facts/lab-app-notes/| access-date = March 15, 2012}}</ref>

The process can also be used to detect radiation that initiates the process, as the passage of a single particles can be amplified to large discharges. This is the mechanism of a [[Geiger counter]] and also the visualization possible with a [[spark chamber]] and other [[wire chamber]]s.