Synopsis

Neutron Bursts in Lab Lightning

The first lab-based observation of neutron emission from a voltage discharge provides new insight into neutron bursts that accompany lightning storms.

Lightning is more than just an impressive electric display. Observations indicate that bursts of neutrons are emitted during thunderstorms, implying nuclear reactions occur in lightning. However, physicists have been unable to identify which reactions. To better understand neutron bursts, a team of Russian researchers has created lightninglike discharges in a laboratory setting. In Physical Review Letters, they report the first detection of neutron emission from a controlled discharge. The results suggest that most burst neutrons are “fast” with initial energies around 10 mega-electron-volts.

Lightning occurs when strong electric fields build up in a cloud (as Benjamin Franklin’s famous kite-flying experiment demonstrated), but which process initiates the discharge is still a matter of debate. Other lightning mysteries concern the generation of high-energy radiation and particles, such as x rays, gamma rays, positrons, and neutrons. The neutrons could arise from reactions between accelerated ions or from photonuclear interactions, but current empirical data is not sufficient to pinpoint the mechanism.