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What you need to know about EMP weapons
6 June 2025
As we sit, possible poised on the verge of a nuclear conflict in the
Northern Hemisphere, maybe it's time to look at the damaging effects
of the electromagnetic pulse that follows a nuclear detonation.
Apparently, if a nuke is deployed at high altitude, the EMP produced
can have some rather nasty effects on our delicate electronics below.
You can also forget about the inverse-square law to protect you
because some components of the EMP are not "point source" but
actually generated by the interaction of gamma radiation with the
earth's magnetic field. That produces a very large area of EMP which
creates high flux-levels at ground-level, even though the detonation
may be tens or hundreds of Km away.
For this reason therefore, it strikes me that we should all know a
little more about EMPs and ways we could hopefully mitigate the
damage they cause.
Apparently there are three phases to the way a nuclear detonation
produces an EMP.
However, it's kind of reassuring to know that nukes detonated at or
near ground level don't produce nearly as much EMP as those detonated
at 30Km or so above the planet's surface. To be truly effective, a
nuke designed to disrupt or destroy infrastructure by way of EMP has
to be exploded pretty damned high so direct radiation and thermal
damage won't be much of a risk.
During the first phase (known as E1), the detonation creates massive
levels of gamma radiation which interacts with the upper level of
earth's atmosphere to strip electrons from the rarefied gasses there
and subsiquently induced massive currents (known as a Compton
current) that creates a magnetic pulse with an extremely fast
rise-time, typically 10nS or less.
The result is a burst of EM energy that spans the spectrum from
near-DC to tens of gigahertz and which induces currents in any
conducting material that gets in its way. The earth's magnetic field
also helps contain this burst of energy, meaning even more of it ends
up directed towards the surface of the planet.
This first phase is what'll fry your computer, your phone and any
other sensitive devices that are not adequately screened from the EMP
energy being produced.
After the first phase begins to subside, the second phase (E2)
becomes prevailent and that sees the spectral composition of the EMP
change markedly. Now most of the energy exists in the Khz to low Mhz
range. This is because the Compton current has now stabilised
somewhat and is changing less rapidly than in phase 1.
While the E1 phase lasts just microseconds, E2 lasts anywhere from
hundreds of mS to as long as several seconds. Fortunately the reduced
intensity and reduced spectral range of E2 means that it's easier to
protect against.
The third phase (E3) can last anywhere from several minutes to tens
of minutes and has a much lower average frequency, typically no more
than a few Khz.
This is the phase that is likely to cause issues with longer
conductors, such as power lines, pipelines and other long runs of
metal. This phase could cause damage to transformers, switching
equipment and other vital pieces of energy infrastructure. It can
also cause fires as a result of arcing and localised heating within
conductive structures.
So that's the bad news, what can we do to mitigate all this EMP
energy?
The primary tool is the Faraday cage -- or a variant thereof.
In its most effective form, this consists of placing the gear to be
protected inside several layers of conductive material, each
separated by an insulating layer. This works by converting the
magnetic fields generated by the EMP into currents within the
conductive layers and those currents automatically create a magnetic
field that opposes the EMP energy which creates them. Simple eh?
There are some caveats however.
Firstly, the conductive layers must be free from gaps or holes.
During E1 the frequencies are so high that even small gaps,cracks or
openings could allow enough energy through that the delicate
electronics inside might be fried. This is another reason to use
multiple layers -- so that any access holes can be staggered layer
upon layer such that there's no direct path for energy to slip
through.
Secondly, the devices being protected must be totally enclosed. No
power leads, antennas or other wiring must be left outside the
shielding.
Thirdly, the device being protected must not be in direct contact
with any of the shielding material or the currents that flow in that
material could also flow through the device itself.
So what happens if you're told there's going to be a nuke going off
next door and you want to protect your new Nintendo Switch2 so that
during the nuclear winter that follows, you'll at least be able to
play some games to while-away the time while your hair falls out?
Well wrap your Switch in plastic film or bubble wrap. Then wrap that
in aluminium foil, making sure that the ends are folded over and
pressed down hard to provide good inter-layer contact and so that
there are no gaps. Then... more plastic, more foil, more plastic...
etc... until you either get tired or run out of materials.
That's it.
Put your sunglasses on, apply some sunscreen, place your head between
your knees and relax until the debris has settled.
Mario... here we come!
Also, be annoyed that thanks to ever-shrinking fab technologies and
the fact that so much of our gear is now infested with
microprocessors, the damaging effects of an EMP will be far more
brutal than they would have been backin the 1950s or 60s.
If you've got an old Morris Minor then chances are that it'll still
run just fine as the ash is falling but that new Toyota Prius... not
so much.
If there's an old valve radio in the shed somewhere, it would also
keep running just fine (if there was any mains power) but without the
bubble-wrap and foil it's most unlikely that any of your modern
solid-state electronics will be anything other than ewaste.
Happy days!
Carpe Diem folks!
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Here is a PERMANENT link to this column
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