New Spectroscope Perfect For Asteroid Mining, Planetary Research

Science_afficionado writes: Scientists at Fisk and Vanderbilt Universities are developing a new generation of gamma-ray spectroscope that is light weight, compact and don't require much power but have the capability for detecting veins of gold, platinum, rare earths and other valuable materials hidden within asteroids, comets, moons and other airless objects floating about the solar system. "A gamma-ray spectroscope records the intensity and wavelengths of the gamma rays coming from a surface. This spectrum can be analyzed to determine the concentration of a number of important, rock-forming elements ... The key to the new instrument is a recently discovered material, europium-doped strontium iodide (SrI2). This is a transparent crystal that can act as an extremely efficient gamma-ray detector. It registers the passage of gamma rays by giving off flashes of light that can be detected and recorded."

Re:Yeah, and?

[Rei]

Forget about veins - even in bulk some S-type meteorites have been measured at over 100ppm platinum-group metals, several times better than the best mine on Earth (last I checked, about 40ppm), let alone typical mines for platinum-group metals on Earth, which range from a couple hundred ppb to a few ppm. Concerning precious metals as a whole, even the *average* H-chondrite is 28ppm precious metals. L-chondrites can be up to 220 ppm precious metals. And there's no overburden - it's rich all the way through. "Veins" or other areas of unusually high concentration would just be an extra.

One could eject raw ore to Earth or concentrate it first, through any number of steps (particularly if the surface is pulverized to regolith - metallic grains can be extracted through electromagnetic processes). The key is that you should be able to eject a sintered or cast projectile on an Earth-intercept trajectory without the use of any consumables - via a coilgun. If your projectiles include sufficient metallic material to sustain an induced magnetic field than they don't need any sort of sabot. If they're shaped and sized properly you can have a stable reentry with minimal ablative burnoff and remain relatively intact after impact (too small and they'll burnup too much; too large and they'll explode too much on impact)