Space

Simulating Meteors With ASMODEUS (All-Sky Meteor Optical Detection Efficiency Simulator)

Burst of 1999 Leonid Meteors

A burst of 1999 Leonid meteors as seen at 38,000 feet from Leonid Multi Instrument Aircraft Campaign. Astronomers have developed a meteor simulation tool to help assess selection biases and evaluate the populations of meteor showers. Credit: NASA/Ames Research Center/ISAS/Shinsuke Abe and Hajime Yano

A meteor is a rocky or metallic body that enters the Earth’s atmosphere (or the atmosphere of another planet) from space at high speed and burns up; meteors that mostly survive the trip and land on the ground are called meteorites.

Meteors have a wide range of sizes and compositions, and meteorites can land pretty much anyplace at any time. Moreover, individual events aren’t repeated. Meteor astronomers must therefore rely on accurate measurements of available observations or statistical processing of large data sets to formulate predictions and theories. The best current models, however, lack firm constraints on key variables like the luminosity of a trail versus the object’s loss of kinetic energy.

Performing experiments in meteor science has been considered, but is notoriously difficult. Launching artificial objects, accelerating them to speeds of thousands of miles per hour, recreating the various conditions of meteor entry, and then observing the process of ablation is hard and expensive.

CfA astronomer Peter Veres and his colleagues have developed a cost-effective intermediate solution: a computer simulation that creates virtual meteors based on equations of motion, ablation, and luminosity models whose results can then be examined. The suite of tools the team developed is called ASMODEUS (All-Sky Meteor Optical Detection Efficiency Simulator) and it emphasizes statistical processing of large meteor datasets rather than precision calculations for individual meteors.

Several attempts at such simulations had been made before but none included an adequate model of the atmosphere or had the goal of directly comparing the resulting data to observations. The new code includes parameters for the Earth and its atmosphere, meteor material properties, equations for trajectories including gravity and drag and for ablation and luminance; not least, the simulations consider the locations of virtual observers.

Of ten thousand simulated meteors, 1354 were “detected.” These included most bright ones, while others (particularly those passing near the horizon) were unlikely to be seen; the distribution of the properties of the simulated meteors was then compared with detection results.

The scientists are continuing to improve the code by including more advanced meteoroid dynamics and by addressing the fragmentation of meteors that have fragile compositions. Meanwhile, ASMODEUS can be used to assess selection biases in ground-based observing systems and help evaluate the mass and population character of meteor showers.

Reference: “ASMODEUS meteor simulation tool” by Martin Baláž, Juraj Tóth, Peter Vereš and Robert Jedicke, 4 June 2020, Planetary and Space Science.
DOI: 10.1016/j.pss.2020.104937

Share
By
Harvard-Smithsonian Center for Astrophysics

Recent Posts

Fatty Liver Disease: A Hidden Danger to Your Brain?

A study conducted by the Roger Williams Institute of Hepatology, affiliated with King's College London…

February 8, 2023

Space Mystery: Unexpected New Ring System Discovered in Our Own Solar System

ESA’s Cheops finds an unexpected ring around dwarf planet Quaoar During a break from looking…

February 8, 2023

Smart Energy Savings: Chameleon-Like Building Material Changes Its Infrared Color

To address the challenge of saving energy in the face of increasingly frequent extreme weather…

February 8, 2023

Cancer Conundrum Solved: Researchers Unravel a Population of ‘Cheating’ Cells

The study provides answers to multiple conundrums about cancer, while also uncovering new areas for…

February 8, 2023

Unlocking the Mystery of the Stellar Initial Mass Function: A New Breakthrough Discovery

The fate of galaxies is determined by the initial mass distribution at the birth of…

February 8, 2023

NASA Awards $11.7 Million to Historically Black Colleges and Universities

NASA is awarding $11.7 million to eight Historically Black Colleges and Universities (HBCUs) through the…

February 8, 2023