Scientists demonstrate X-rays as a way to zap asteroids out of Earth's path
Lab-based proof-of-concept shows how radiation creates explosive plumes to deflect menacing space rocks
US scientists have demonstrated that potentially dangerous asteroids destined for Earth could be deflected from their trajectory using X-rays.
The researchers said the technique, which involves using a powerful X-ray pulse to vaporize a chunk of the asteroid's surface, could potentially be used for future planetary defense missions.
While the risk of asteroid strikes to life on Earth are well documented – RIP dinosaurs – the human race's ability to do anything about it is uncertain. Proposals such as NASA's Double Asteroid Redirection Test (DART) mission involve a spacecraft meeting and altering the trajectory of a threatening asteroid. The problem with that approach is the time taken to prepare such a mission, as well as the cost.
Led by Nathan Moore, a postdoctoral researcher at New Mexico's Sandia National Laboratories, the group figured out how they could mimic the techniques in laboratory experiments using an X-ray pulse to target two 12-millimeter-wide dummy asteroids in a vacuum tube. One of the experimental samples was made from quartz, while the other was made from fused silica. In the lab tests, X-ray pulses heated up the surface of the pretend asteroids to create a vapor plume that was significant enough to alter their speed by around 70 meters per second.
The data collected from the test provided input to numerical simulations designed to demonstrate how the X-ray pulse method might deflect and how the deflection might scale, suggesting that an asteroid close enough to Earth about four kilometers across could be shoved off its path using the strategy. "We demonstrate that scaled asteroid deflection experiments can be accurately performed and without space flight," the researchers said in a paper published in Nature Physics today.
The X-ray bubble was generated using a megajoule-class plasma driver at the Sandia National Laboratories' "Z machine."
The machine is the largest pulsed power device in the world today, the authors said, and was used to discharge up to 22 MJ of stored energy into an electric current pulse.
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The researchers said future experiments could investigate other target materials and structures and test different X-ray pulses since the vapor plume generated by the X-ray pulses is dependent on the chemical composition of the asteroid.
The research should be welcomed as a recent NASA tabletop game has demonstrated how poorly prepared Earth is to "quickly implement" any space missions needed to defend itself against a devastating asteroid strike, even with 14 years' notice. The exercise in April involving multiple US government agencies described a bewildering number of moving parts impeding a coordinated effort from space agencies.
There are other proposals for deflecting or destroying dangerous asteroids. In March last year, NASA's DART spacecraft smashed into the surface of asteroid Dimorphos, altering the space rock's orbit by more than the kinetic impact alone.
But before Team Earth can destroy or deflect asteroids, they have to find them. Thankfully, a new algorithm has been deployed in the under-construction Vera C Rubin Observatory in Chile to detect asteroids. ®