I have a very noob question...
Can't nukes be tested guised as conventional weapons by scaling down proportionally all the components?
I mean, take a 400kg warhead, reduce the size of every component 10 times, and test it. The result can be extrapolated later to arrive at the performance of a full sized warhead.
Actually bombs are tested full size without the fissile material. In a nuclear bomb that contains Plutonium (Pu) the Pu core may be about the size of a tennis ball and weigh maybe 7 to 9 kg. That tennis ball has to be compressed to a ping-pong ball size using and explosion. When it gets compressed to ping pong ball size a nuclear chain reaction occurs causing a huge explosion.
If the explosion is efficient the yield may be about 20,000 tons of TNT - easily detectable
If the explosion is inefficient it may be just 2000 or 5000 tons of TNT (a fizzle) but also detectable
For simulation some other metal - like iron can be used instead of the Pu or Uranium core and then checked later to see if it has been accurately compressed to ping-pong ball size or smaller - which means that the rest of the bomb is working OK and will do the compression job as required.
But I don't think is possible to use a 900 gram mass of Pu instead of 9 kg. There is a lower limit below which a nuclear explosion will not occur. I believe the US has made bombs with as little as 2.5 kg of Pu. Less than that - you don't get an explosion and you will never know if the bomb will work when scaled up. Having said that another thing that can be done is to compress a small mass of some other material or a subcritical mass that will not explode. But as it gets compressed it will send out a shower of neutrons (subatomic particles) which as necessary for a nuclear explosion to occur. One can calculate and predict the efficiency of a real bomb by measuring how many neutrons are produced in a test explosion and extrapolating the results to a bomb that contains a much larger amount of Pu or Uranium.
Here is a simple explanation
Hydrodynamic Tests: Not to Scale - FAS Strategic Security Blog
Hydrodynamic Experiments
Every year, the United States conducts "hydrodynamic" experiments designed to mimic the first stages of a nuclear explosion. In tests, conventional high explosives are set off to study the effects of the explosion on specific materials. The term "hydrodynamic" is used because material is compressed and heated with such intensity that it begins to flow and mix like a fluid, and "hydrodynamic equations" are used to describe the behavior of fluids. In one type of hydrodynamic test, researchers build a full-scale primary—the first stage of a modern nuclear weapon—but the plutonium is replaced with a metal that has similar density and weight, but is not fissionable. The device is then fired, revealing information on the design's behavior from the high-explosive detonation to the beginning of the nuclear chain reaction.
You may find the following link useful but it's more technical
Nuclear Weapon Hydrodynamic Testing
