Temperatures of lunar impact flashes: Mass and size distribution of small impactors hitting the Moon

Abstract

Lunar impact flashes have been monitored over the last 20 yr for determining the mass frequency distribution of near-Earth objects in the cm-dm size range. In this work, using telescopic observations in R and I bands from the NELIOTA data base, impact flash temperatures are derived. They are found to range between approximately 1300 and 5800 K. In addition, it is also found that temperature values appear to have a distribution significantly broader than a Gaussian function, therefore making it difficult to estimate the impact flash luminous energy by assigning an average temperature. By measuring the flash temperatures and assuming a blackbody emission, here we derive the energy of the impacts. We also study the potential link of each event to individual meteoroid streams, which allows us to assign an impact velocity and therefore constrain the projectile mass. Impactor masses are found to range between a few to hundreds of grams, while their sizes are just of few centimetres following a size frequency distribution similar to other studies.