tlb wrote:penny wrote:Because a reactor is not a bomb. It can be made to explode, eventually. But to be a trigger, a nuclear bomb needs to be able to explode on demand, not eventually. It is all about timing. And a nuclear reactor cannot go from stable to exploding at a moments notice. Hydrogen bombs are very complicated designs relying on symmetry and timing.
I agree that bombs are much cleaner, simpler and more powerful.
Saying that a reactor can be made to explode "eventually" would be comforting, if true. But how do we know that it is true? We know that human reactions are not good enough, so that computers are needed to monitor any reactor. So could "eventually" be a matter of microseconds (at most)?
Probably not. Not unless you wanted a pretty weak explosion.
A fusion reactor is carrying along at a steady state of fusion reaction -- meaning the pressure and fuel are carefully balanced to ensure that the rate of fusion events is steady (on average each fusion event causes just one additional fusion event to occur). In contrast a fusion bomb requires sufficient fuel and density for a runaway cascade of fusion reactions; each fusion event triggering at least two more.
Now an Honorverse fusion reactor holds a highly compressed and very hot plasma; restrained primarily by gravity and magnetic confinement. If those fields go down, or get overwhelmed, then that very hot plasma will rapidly vent and wreck anything around (including large parts of ships should a ship reactor fail while inside it). But that won't be a fusion explosion, and in fact the moment the plasma starts expanding the conditions necessary to sustain fusion are lost. The plasma is rapidly becoming cooler and less dense -- which means hydrogen is no longer hitting itself hard enough to fuse. This not only means it's far weaker than a fusion bomb using the same amount of fuel, but also that as fusion stops production of gamma rays stop -- the gamma rays a laserhead relies of to excite the lasing rods.
It's possible that you might be able to turn off those containment fields in a matter of microseconds (though I'd bet on enough "inertia" in their generators that they'd last for milliseconds if not entire seconds; even if power was cut. But that doesn't get you the thermonuclear explosion you need.
You could override the regulators and shove more fuel into the reactor -- which would increase temperature and pressure to the point the containment failed. But that takes time, probably a couple of minutes, and it's still very likely to cause containment failure before building up to the point it can cause a truly runaway fusion reaction and give you a thermonuclear explosion.
You
might be able to radically increase the grav compression -- that'd seem to be the best way to potentially get a thermonuclear explosion out of a fusion reactor. If you can force it to produce a similar grav pinch effect as the warhead uses you might be able to squeeze it into a supercritical state before the containment fails. (But that's seem to require a reactor whose containment was designed to specifically do that; of which had an extra grav pinch generator added to it. And even then I suspect trying to hyper-compress plasma that's already fusing is going to be less effective than compressing it before initiating fusion; that in the already fusing plasma you'd wouldn't be able to generate as great a compression before it all came apart)
