Published daily by the Lowy Institute

North Korea's nuclear test: Initial analysis

North Korea's nuclear test: Initial analysis
Published 6 Jan 2016 

North Korea claims it has successfully tested a hydrogen (thermonuclear) bomb today. Seismic readings show there was a non-natural seismic event consistent with an explosion near Sungjibaegam, North Korea's nuclear test site. The seismic readings are of similar magnitude to those from North Korea's last nuclear test in February 2013. That test is thought to have had a yield equivalent to several thousand tons of TNT (say 7 kilotons; by comparison, the Hiroshima bomb had a yield of 16 kilotons).


Commuters at Seoul Railway Station watch a TV broadcast announcing Pyongyang's nuclear test. (Getty/Chung Sung-Jun.)

At this stage it is not possible to confirm whether this was a thermonuclear explosion. It might be possible to confirm this by sophisticated seismic analysis, but more likely it will require analysis of atmospheric emissions, if there are any leaks from the test tunnel. Any emissions could take several days to detect and analyse. But no emissions were found from the 2013 test, so there is no certainty emissions will be found this time.

A thermonuclear weapon uses an 'atomic bomb' (a fission explosion, splitting plutonium or uranium atoms) as a 'primary'* to produce the high temperatures required for fusion of hydrogen atoms (typically deuterium and tritium) incorporated in the weapon assembly. As the hydrogen atoms fuse together they release enormous energy (explosive force and heat) and also neutrons, which results in more complete fissioning of the nuclear material in the initiator. Hence a thermonuclear weapon results in very high explosive yields (in the hundreds of kilotons, or even megatons, compared with a basic fission weapon which would usually be less than 50 kilotons).

Successfully producing a thermonuclear weapon is a major technical challenge, and most experts doubt North Korea has this capability. Possibly North Korea has succeeded in developing a 'boosted' fission explosive, where the fission yield is increased through injecting tritium into the weapon's core. Boosted weapons are described as 'second generation' nuclear weapons, so would represent some technical advance by North Korea. This would be well short of a thermonuclear weapon but could enable North Korea to claim it had achieved a fusion device.

Conducting nuclear tests is one thing. Producing compact and reliable warheads able to be fitted on missiles and to withstand the stresses of launch and re-entry is quite another. North Korea's nuclear tests raise the level of international tensions but the country has a long way to go to establish a credible nuclear weapon capability. There is still time for the international community to dissuade North Korea from proceeding further down this path.

* Corrected: previously said 'initiator'.



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