The
dynamics of the standoff between the US and North Korea have shifted
dramatically in the past week.
First,
the North started with an unexpectedly sharp provocation - launching
a missile over the Japanese island of Hokkaido - before following
that up with its sixth nuclear test. Also, judging by the size the
earthquake detected in the country’s mountainous North on Sunday
morning, North Korea may have been telling the truth when it said it
conducted what it described as its first hydrogen bomb test.
And
while the North bragged about the weapon’s “great destructive
power” in a TV broadcast, what caught analysts’ attention was a
mention of a different tactic: detonating an H-bomb at high altitude
to create an electromagnetic pulse that could knock out parts of the
US electrical grid.
“North
Korea’s threats against the U.S. now include a tactic long
discussed by some experts: an electromagnetic pulse, or EMP,
triggered by a nuclear weapon that would aim to shut down the U.S.
electricity grid.
North
Korea’s state news agency made a rare reference to the tactic in a
Sunday morning release in which the country said it was able to load
a hydrogen bomb onto a long-range missile. The bomb, North Korea
said, ‘is a multifunctional thermonuclear nuke with great
destructive power which can be detonated even at high altitudes for
super-powerful EMP attack.’”
Unlike
a conventional nuke, an EMP blast - think Oceans' 11 - is not
directly lethal, and serves mostly to knock out key infrastructure
(useful when robbing a casino).
However,
it would probably lead to an unknown number of indirect deaths as
hospitals and essential infrastructure lose power.
“The
idea of an EMP attack is to detonate a nuclear weapon tens or
hundreds of miles above the earth with the aim of knocking out power
in much of the U.S. Unlike the U.S. atomic bombs dropped over
Hiroshima and Nagasaki in 1945, such a weapon wouldn’t directly
destroy buildings or kill people. Instead, electromagnetic waves from
the nuclear explosion would generate pulses to overwhelm the electric
grid and electronic devices in the same way a lightning surge can
destroy equipment.”
In
the worst possible scenario, regional power grids could be offline
for months, potentially costing many deaths as people would
eventually start running out of necessities like food and medicine.
Lawmakers and the US military have been aware of the EMP threat for
many years, according to WSJ. IN a 2008 report commissioned by
Congress, the authors warned that an EMP attack would lead to
“widespread and long-lasting disruption and damage to the critical
infrastructures that underpin the fabric of US society.”
In
a report published last month, the Hill noted that the North could
choose to carry out an EMP attack on Japan or South Korea as a more
politically acceptable act of aggression. Such an attack could help
the North accomplish its three most-important political goals, the
Hill said.
“North
Korea has nuclear-armed missiles and satellites potentially capable
of electromagnetic pulse (EMP) attack. EMP is considered by many the
most politically acceptable use of a nuclear weapon, because the
high-altitude detonation (above 30 kilometers) produces no blast,
thermal, or radioactive fallout effects harmful to people.
EMP
itself is harmless to people, destroying only electronics. But by
destroying electric grids and other life-sustaining critical
infrastructures, the indirect effects of EMP can kill far more people
in the long-run than nuclear blasting a city. In this scenario, North
Korea makes an EMP attack on Japan and South Korea to achieve its
three most important foreign policy goals: reunification with South
Korea, revenge upon Japan for World War II, and recognition of North
Korea as a world power.”
Scientists
first discovered a hydrogen bomb’s ancillary EMP capabilities after
testing one in the Pacific in the early 1960s.
“When
the U.S. tested a hydrogen bomb in the Pacific in 1962, it resulted
in lights burning out in Honolulu, nearly 1,000 miles from the test
site. Naturally occurring electromagnetic events on the sun can also
disrupt power systems.
A
1989 blackout in Quebec that came days after powerful explosions on
the sun expelled a cloud of charged particles that struck earth’s
magnetic field.”
Some
experts who spoke with WSJ said it would be impossible to guarantee
success during an EMP attack, since the weapon would need to detonate
with near perfect accuracy.
“Skeptics
generally acknowledge that an EMP attack would be possible in theory,
but they say the danger is exaggerated because it would be difficult
for an enemy such as North Korea to calibrate the attack to deliver
maximum damage to the U.S. electrical grid. If it a North Korean bomb
exploded away from its target location, it might knock out only a few
devices or parts of the grid.”
The
North Korea said its hydrogen bomb had explosive power of tens of
kilotons to hundreds of kilotons – so of course if it landed to
close, or the attack was mishandled in other ways, what was meant to
be an EMP attack would result in a nuclear strike. At least one
expert said using an EMP attack would make little sense when the
North could cause much more destruction with a nuclear ground attack.
“Others
say that even if North Korea had the technical capability to deliver
a damaging electromagnetic pulse, it wouldn’t make strategic sense
to use it because Pyongyang could wreak more destruction with a
traditional nuclear attack directed at a large city.
A
rogue state would prefer a “spectacular and direct ground burst in
preference to a unreliable and uncertain EMP strike. A weapon of mass
destruction is preferable to a weapon of mass disruption,” wrote
physicist Yousaf M. Butt in a 2010 analysis.”
Luckily,
if US military authorities truly fear an attack, there are some
long-term steps the US could take to minimize the effectiveness of an
electromagnetic pulse attack. Defenses could be bolstered
inexpensively by designing electrical-grid components to withstand
sudden pulses, just as the grid already is protected against
lightning strikes. The US could also build backup systems that could
step in for the principal electrical grids in an emergency.
If
the North’s latest nuclear test, conducted early Sunday, didn’t
involve a hydrogen bomb, the weapon used was at least close to it
according to US officials. It was the North’s first nuclear test
since late last year, and also the first since tensions between Kim
Jong Un and President Donald Trump began escalating shortly after his
inauguration. China, Japan, South Korea and the US have already
condemned the attack, with China and South Korea threatening to work
with the Security Council to bring more onerous sanctions against the
defiant North.
Meanwhile,
President Donald Trump in a series of tweets hinted that he was
frustrated with diplomatic measures, which he referred to as
“appeasement.” We imagine there are more than a few generals
whispering in his ear about the potential success rate of a surgical
strike.
*
* *
Finally,
here is a repost from July 2014, in which hedge fund legend Paul
Singer, head of Elliott Management, said that "there is one risk
that stands way above the rest in terms of the scope of potential
damage adjusted for the likelihood of occurrence" - an
electromagnetic pulse (EMP). Three years he may be proven correct.
While
these pages are typically overflowing with scary or depressing
scenarios, there is one risk that stands way above the rest in terms
of the scope of potential damage adjusted for the likelihood of
occurrence. Even nuclear war is a relatively localized issue, except
in its most extreme form. And the threat from asteroids can
(possibly) be mitigated.
The
risks associated with electromagnetic pulse, or EMP, represent
another story entirely. It can occur naturally, from solar storms
that send “coronal mass ejections,” which are massive energetic
bursts of solar wind, tens of millions of miles in a mere few hours.
Or it can be artificial, produced by a high-altitude (at least 15
miles) explosion of relatively low-yield (even Hiroshima-strength)
nuclear weapons.
Different
initiators of EMP have different pulses and different effects. But
the bottom line is that EMP fries electronic devices, including parts
of electric grids. In 1859, a particularly strong solar disturbance
(the “Carrington Event”) caused disruption to the nascent
telegraph network. It happened again with similar disruptions in
1921, before our modern power grid came into existence. A NASA study
concluded these events have typically occurred around once per
century. A repeat of the Carrington Event today would cause a massive
disruption to the electric grid, possibly shutting it down entirely
for months or longer, with unimaginable consequences.
Only
two years ago, the sun let loose with a Carrington-magnitude burst,
but the position of the earth at the time prevented the burst from
hitting it. The chances of additional events of such magnitude may be
far greater than most people think.
The
artificial version of EMP, a kind of nuclear attack, would require
between one and three high-altitude nuclear explosions to create its
effect across all of North America. It would not cause any blast or
radiation damage, but such an attack would have consequences even
more catastrophic than a severe solar storm. It could not only bring
down the grid, but also lay down a very intense, very fast pulse
across the continent, damaging or destroying electronic switches,
devices, computers and transformers across America.
There
is no way to stop a naturally occurring EMP, and nuclear
proliferation, combined with advances in weapons delivery systems,
make the artificial version a distinct possibility, so the dangers
are very real.
What
can be done about this risk? Critical elements of the power grid and
essential electronic devices can be hardened. Spare parts can be
stockpiled for other, less critical hardware. Procedures can be
developed as part of emergency preparedness so that the relevant
government agencies and emergency response NGOs are ready to respond
quickly and effectively to an episode large or small.
Why
are we writing about EMP? Because in any analysis of societal risk,
EMP stands all by itself. Congressional committees are studying this
problem, and federal legislation is laboriously working its way
through the process. We think that raising people’s consciousness
about what should be an effort by both parties to make the country
(and the world) safer from this kind of event is a good thing to do.
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