> [xenon is] great for in-space propulsion because it’s fairly heavy (so you get more ooomph per atom)
More specifically, for a given exhaust velocity and grid spacing, the space charge limited thrust density (thrust/area) of an ion engine scales as the square of the mass/charge ratio of the ions. So you really want heavy singly charged ions. This is completely unlike thermal rockets, where you want low molecular weight exhaust gases.
Plasma engines that accelerate a quasi-neutral plasma aren't subject to space charge limits, but even there heavy ions help because they reduce the energy used in ionizing the propellant per unit propellant mass.
With Radon it might even be conceivably possible (not sure how hard it is to get and if any restrictions apply because of its radioactivity), and it would work for a few years, because it has a half-life of 3.825 days (EDIT: this is of course complete nonsense, the "." is a decimal point, so it will only work for a few days). In the quantities needed for a gas tube (and as long as it stays in the tube!), I guess it should also be relatively safe, but I'm not an expert. Apparently it produces red light when used in a tube. Oganesson however has a half-life of 0.7 ms, so, aside from how expensive it would be to synthesize enough of it, it's doesn't stay around long enough for any experiments...
A few years with a half-life of less than four days? I doubt you could perceive any glow after more than a few weeks.
In a year the radon would've undergone about a hundred halvings, so around one 10^30th of the original radon nuclei would be left. Which is to say, almost certainly zero. One mole worth of radon would've decayed down to the last atom after less than 300 days (mostly to lead-210, which would then comparatively slowly decay to stable lead-206 with a half-life of about 22 years).
> [xenon is] great for in-space propulsion because it’s fairly heavy (so you get more ooomph per atom)
More specifically, for a given exhaust velocity and grid spacing, the space charge limited thrust density (thrust/area) of an ion engine scales as the square of the mass/charge ratio of the ions. So you really want heavy singly charged ions. This is completely unlike thermal rockets, where you want low molecular weight exhaust gases.
Plasma engines that accelerate a quasi-neutral plasma aren't subject to space charge limits, but even there heavy ions help because they reduce the energy used in ionizing the propellant per unit propellant mass.
If you're into gas displays, there's also the plasma toroid (not globe).
People have be filling it with different gasses to get different colors.
https://www.youtube.com/watch?v=iXqbCmTt1Yg
https://www.aliexpress.com/item/1005007446864488.html
> (sorry Radon and Oganesson)
With Radon it might even be conceivably possible (not sure how hard it is to get and if any restrictions apply because of its radioactivity), and it would work for a few years, because it has a half-life of 3.825 days (EDIT: this is of course complete nonsense, the "." is a decimal point, so it will only work for a few days). In the quantities needed for a gas tube (and as long as it stays in the tube!), I guess it should also be relatively safe, but I'm not an expert. Apparently it produces red light when used in a tube. Oganesson however has a half-life of 0.7 ms, so, aside from how expensive it would be to synthesize enough of it, it's doesn't stay around long enough for any experiments...
https://en.wikipedia.org/wiki/Radon
https://en.wikipedia.org/wiki/Oganesson
A few years with a half-life of less than four days? I doubt you could perceive any glow after more than a few weeks.
In a year the radon would've undergone about a hundred halvings, so around one 10^30th of the original radon nuclei would be left. Which is to say, almost certainly zero. One mole worth of radon would've decayed down to the last atom after less than 300 days (mostly to lead-210, which would then comparatively slowly decay to stable lead-206 with a half-life of about 22 years).
Ah, sorry, I'm actually from Germany, so I interpreted the "." followed by three digits as a thousands separator. My bad...
Ah, yeah, if it were 3800 days it would work fine for a few decades =D
Beautiful. Noble gases are so cool.