Watch those old videos of the Apollo missions (or movies about the Apollo missions), and the nail-biting, climactic moment is always spacecraft reentry, where the incoming craft comes screaming through the atmosphere in a burning ball of white-hot plasma resulting in a total radio blackout. But a team of Russian scientists say they've found a way to communicate through the plasma sheath that causes radio blackout by turning the sheath itself into a giant plasma antenna.
Reentry blackout occurs when the high speed of the spacecraft obliterates atmospheric molecules, developing a plasma envelope that absorbs electromagnetic waves that are close to a certain frequency called the plasma frequency. That plasma frequency in turn depends on the plasma itself, which can range in density. The resulting breakdown of radio communications is an annoyance for space mission crews and mission personnel, but for military space planes and ICBMs, it can block out navigation signals or even an abort command.
This plasma sheath both absorbs and reflects incoming signals close to the plasma frequency – in the case of a spacecraft, sending the reflected signal back to earth and absorbing the rest, which creates a resonating electric field within the plasma itself. This resonating field within the plasma is the key to the plasma antenna – it receives some of the incoming signal but holds it there just beyond the spacecraft, acting basically like a big antenna receiver.
To get the signal to make the short leap to the spacecraft, the Russian researchers propose blasting the resonating plasma layer with radio waves generated from the spacecraft. Like the signal from earth, some will be absorbed and some reflected back to the spacecraft. But the reflected waves should be modulated by changes in the electric field caused by the signal sent from earth. Meaning the signals returning to the spacecraft should carry a ghost of the signal sent form earth and absorbed by the plasma.
The same principle should work with transmissions going the other directions. That is, if it works at all. It certainly is a clever solution – take the object obscuring communications and turn it into a huge communications antenna – but so far it's a notion that works only on paper. If it works in practice, it could take that harrowing couple of minutes out of human spaceflight and mitigate military mistakes with disastrous consequences.
For the gritty details, check out the paper at arXiv.
Sounds like a clever idea, but before getting too excited, lets' see the results of a real world test. I think some signals will make it but it will be too distorted to be usable.
Why bother? These few minutes can not and have not cause any real problems in the space program so far.
if the plasma holds the radio signal's information won't the meaassge become more distorted as more communications are sent?
In the article they explain that for remotely controlled spacecraft it is very important to be able to communicate at all times.