First a definition for this question, because there are many kinds of sci-fi out there and they sometimes liberally use cool sounding words without explaining them:

A disruptor is a kind of weapon that weakens, or “disrupts”, either material bonds (breaking a material into molecules), molecular bonds (breaking a molecule into atoms), or atomic bonds (breaking an atomic nucleus into protons, netrons, and free electrons. Almost like instantly turning into plasma).

Temperature can do these things, but the idea behind a disruptor, specifically, is that it happens through some kind of catalyst, rather than brute-forcing with insane amounts of heat.

Would such a weapon physically be possible (even if we don’t know how to make them just yet)?

How would a target realistically behave when hit by a disruptor?

  • bizarroland
    link
    fedilink
    43 months ago

    Assuming that string theory is real, perhaps there would be a very specific wavelength of energy that could cause these strings to unravel.

    That would cause matter to dissipate at the ultra subatomic level and quite possibly simply convert into heat being the lowest entropy energy level available.

    If I wanted to kludge that into a Sci-Fi novel, I would say that it emits string particles that are orthogonal to the strings that they encounter, causing them to break the subatomic strings.

    Similar to how cern can create conditions existing closer to the Big bang, perhaps whatever reactor Powers the disruptor does the same thing when it interferes with solid matter.

    You would still have quite a bit of energy release when this goes off. Anything it hits should explode roughly with the same amount of energy as if it were exposed to antimatter, but if you need to ameliorate that for story purposes then you could say that those strings then wrap around the orthogonal strings and cancel out, I kind of like how if you have a 1 kilohertz sine wave flowing across the linear line you can cancel that out with a 1 kilohertz sine wave of opposite amplitude flowing along the same line.