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U.S. think tank: N. Korea operating lithium-6 plant for hydrogen bombs
Yonhap News ^ | 2017/03/18 | Chang Jae-soon

Posted on 03/25/2017 4:19:35 PM PDT by TigerLikesRooster

U.S. think tank: N. Korea operating lithium-6 plant for hydrogen bombs

By Chang Jae-soon

WASHINGTON, March 17 (Yonhap) -- North Korea is believed to have built and is operating a plant to produce lithium 6, a key ingredient for hydrogen bombs that are much more powerful than conventional nuclear weapons, a U.S. think tank claimed Friday.

The Institute for Science and International Security (ISIS) said the plant appears be located at the Hungnam Chemical Complex near Hamhung on the North's east coast. It cited a 2012 order the North placed in China to purchase large quantities of mercury and lithium hydroxide, key materials to produce lithium 6.

"Lithium 6 is a critical raw material needed for the production of single-stage thermonuclear and boosted fission weapons. These findings add credibility to North Korea’s claims that it has been developing thermonuclear or boosted fission weapons, regardless of the actual status of those efforts," ISIS said in a report.

Lithium 6 reacts with a neutron to produce tritium, the most important thermonuclear material for weapons. When tritium fuses with deuterium (D) it releases relatively large amounts of energy and neutrons, becoming a key reaction driving a thermonuclear explosion and leading to more efficient fissioning of the plutonium or weapon-grade uranium in a weapon, the report said.

Earlier this month, the U.N. Security Council's Panel of Experts monitoring sanctions on North Korea also said that the regime attempted to sell lithium 6, an indication that the North is making more lithium 6 than it needs in its nuclear weapons program, according to ISIS.

ISIS said it believes the Hungnam Chemical Complex is the site for the lithium 6 plant because the procurement contract had handwritten notes stating that the goods were needed urgently and the procurements involved the Hungnam complex.

"The Hungnam complex makes sense for a lithium 6 production plant. This site is involved in ammonia processing and fertilizer production, and has electrolysis facilities," ISIS said.

It also said the North's plant is believed to be able to produce at least 10 kg of lithium 6 per year, an amount that would allow both the use of lithium 6 in nuclear weapons and the production of many grams of tritium per year.

"These findings add credibility to North Korea’s claims that it has been developing thermonuclear or boosted fission weapons, albeit likely crude ones that may still not work. But with more nuclear testing and time, North Korea is likely to succeed," it said.


TOPICS: Extended News; Foreign Affairs; News/Current Events
KEYWORDS: 115th; first100days; hydrogenbomb; lithium6; nknukes; nkorea; nuke; trumpasia
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1 posted on 03/25/2017 4:19:35 PM PDT by TigerLikesRooster
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To: TigerLikesRooster

Is there a NorK or Korean Peninsula ping list?


2 posted on 03/25/2017 4:21:05 PM PDT by Dr. Pritchett
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To: TigerLikesRooster; AmericanInTokyo; Steel Wolf; nuconvert; MizSterious; endthematrix; ...
North Korea’s Lithium 6 Production for Nuclear Weapons

by David Albright, Sarah Burkhard, Mark Gorwitz, and Allison Lach

March 17, 2017

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Available information strongly indicates that North Korea has built and is operating a lithium 6 production plant that is part of its nuclear weapons effort. The plant is suspected to be located at the Hungnam Chemical Complex near Hamhung on North Korea’s east coast. Lithium 6 is a critical raw material needed for the production of single-stage thermonuclear and boosted fission weapons. These findings add credibility to North Korea’s claims that it has been developing thermonuclear or boosted fission weapons, regardless of the actual status of those efforts. These findings also demonstrate long term planning and commitment to such weapons.

For several years, North Korea has been concentrating on expanding and refurbishing its nuclear complex with the oft-stated goal of expanding the quantity and quality of its nuclear weapons. One aspect of that expansion has been its development of the capability to make thermonuclear materials. These materials when used in a fission-based nuclear weapon allow for much greater explosive yields and further miniaturization of nuclear weapons.

A fundamental thermonuclear material for nuclear weapons is lithium 6, a soft, silver-white metal. When used as a target element in a reactor or a nuclear weapon, lithium 6 reacts with a neutron to produce tritium (T), the most important thermonuclear material for weapons. When tritium fuses with deuterium (D) it releases relatively large amounts of energy and neutrons, becoming a key reaction driving a thermonuclear explosion and leading to more efficient fissioning of the plutonium or weapon-grade uranium in a weapon.

Based primarily on procurement data, North Korea appears to have built a lithium 6 production plant near the city of Hamhung on the east coast of North Korea. The existence of this plant adds credibility to North Korea’s claims that it has been working on thermonuclear weapons for several years. Armed with this plant, North Korea is in a far better position to deliver on its ability to improve the quality of its nuclear weapons by making crude types of thermonuclear or boosted fission weapons.

One recent data point that supports that North Korea may have finished its lithium 6 production plant is the 2016 attempted online sale of lithium metal by North Korea.1 This attempted sale was discovered by Project Alpha at Kings College and, subsequently, investigated by the United Nations Panel on North Korea. It concluded: “This sales attempt suggests that the Democratic People’s Republic of Korea has access to remaining quantities of the material.”2

Lithium 6 and Nuclear Weapons

Lithium 6 is used in two main ways in thermonuclear weapons. It is irradiated in a reactor to make tritium, which is then separated and used directly in a nuclear weapon. In the case of North Korea, tritium is believed to be produced in either the 5 megawatt-electric (MWe) reactor or the IRT reactor at the Yongbyon site. Separation of the tritium from the lithium could occur at the Isotope Production Laboratory near the IRT reactor or in a new, larger facility being built in the Yongbyon fuel fabrication complex.3

Lithium 6 can also be combined with deuterium and sometimes also tritium into weapon components for thermonuclear weapons. When fashioned into components of nuclear weapons, the lithium 6 creates a method using neutrons from the nuclear explosion to greatly magnify the number of D-T reactions. In essence, using an abundant background of neutrons, lithium 6 produces a copious supply of tritium that then fuses with deuterium, adding greatly to the explosive yield through its own reaction and more efficient fissioning of the plutonium or weapon-grade uranium in the weapon. Lithium in combination with deuterium and/or tritium can be used in either one or two stage nuclear weapons; a two stage weapon is the traditional H bomb, and a single stage weapon can have multiple designs, which have been called an onion or a layer cake design. North Korea is likely unable to produce two-stage thermonuclear weapons, but it may be developing single stage weapons. This design is easier to achieve than a two-stage weapon but can achieve very high explosive yields.

In the case of North Korea, a single-stage thermonuclear device could use a plutonium core with lithium 6-deuterium and/or lithium 6-deuterium-tritium solid components. The device would also be expected to have shells of weapon-grade uranium. A British one-stage thermonuclear device tested in mid-1950s with a plutonium core had 100 kg of weapon-grade uranium in multiple shells and achieved an explosive yield of several hundred kilotons.

Lithium 6, deuterium, and tritium have been combined into a solid tablet which is placed at the center of a fission weapon and used to amplify or boost the explosive yield of the weapon. South Africa researched this design in the 1980s during its nuclear weapons program. It involved a fission weapon with a lithium, deuterium, tritium solid tablet placed at its center. With this method, the yield can be boosted many-fold. South Africa investigated boosting the yield of its weapons in this manner from about 10-15 kilotons to about 60-100 kilotons.4

Production of Lithium 6

Lithium 6 is a stable isotope that exists in nature. However, it has a relatively low natural abundance of 7.56 percent in natural lithium, for the bulk of lithium is lithium 7. For use in nuclear weapons or tritium production, the lithium 6 fraction must be typically increased to 40-95 percent of the lithium via a chemical enrichment process. If the lithium 6 is for tritium production in a reactor, the fraction of the lithium 6 in the targets placed in the reactor is limited to about 40 percent to prevent failure of the targets. For use in nuclear weapons, a 95 percent fraction of lithium 6 is desirable.

Based on a 2012 procurement order, according to government sources, North Korea is assessed to have procured the wherewithal to build a lithium 6 enrichment plant based on mercury-based lithium exchange, shortened here to mercury exchange. This method of enrichment has been used by nuclear weapon states, including the United States. Almost all lithium 6 produced by the United States was enriched by the mercury-based column exchange process (COLEX) from 1954 to 1963.5 South Africa also built a pilot plant using this method to make lithium 6 for its nuclear weapons program in the 1970s.6

The mercury exchange process involves an amalgam of lithium and mercury which is made via electrolysis. Subsequently, the mercury lithium amalgam is mixed with an aqueous lithium hydroxide (LiOH) solution. Lithium 6 has a slightly higher affinity to mercury than lithium 7, so lithium 7 diffuses out of the amalgam more quickly than lithium 6, leaving the amalgam with increased, or enriched, concentration of lithium 6. The lithium 6 can be separated from the amalgam. The tailings fraction of Lithium 7 is electrolyzed from the aqueous solution of lithium hydroxide. Afterwards, the lithium hydroxide can be reused.

What was procured? Most of the procurements were for industrial-scale equipment. Included in the order was metric tonne quantities of mercury and tens of kilograms of lithium hydroxide.

Given the procurement of these two materials and the replacement of mercury with less harmful metals in many industrial processes, the purchase of mercury in combination with lithium hydroxide is a strong indicator that North Korea is using the chemicals in a mercury-dependent lithium 6 production process.

The procurement evidence is reportedly contained in a 2012 North Korean contract to arrange the purchase of a wide range of industrial and lab-scale equipment and materials abroad in China. The purpose of the contract is not included but the list of goods, including the mercury and lithium hydroxide, implies they are for a lithium 6 enrichment plant using the mercury exchange method.

The most likely site for the lithium 6 plant is the Hungnam Fertilizer Complex near the city of Hamhung in North Korea. The procurement contract had handwritten notes stating that the goods were needed urgently and the procurements involved the Hungnam complex. The Hungnam complex makes sense for a lithium 6 production plant. This site is involved in ammonia processing and fertilizer production, and has electrolysis facilities.

We were unable to locate a lithium 6 production site at the Hungnam complex using commercial satellite imagery. Such a facility is not very distinctive in such a large complex (see figures 1 and 2). Moreover, equipment, which includes tanks and columns, would be brought into the building after the roof is installed. Nonetheless, by using historical Google Earth imagery, we could identify new construction in the period of 2009, 2012-2014, and 2016, which is identified in figures 1 and 2. However, it should be noted that the equipment may have been put into a refurbished building.

We are unable to estimate lithium 6 output. But one would expect that North Korea would build a plant able to produce at least tens of kilograms of lithium 6 per year. This rate would allow both the use of lithium 6 in nuclear weapons and the production of many grams of tritium per year.

Research and Development of Lithium 6 Production

North Korea’s choice of the mercury exchange method is further supported by examining its scientific and engineering literature. North Korea has devoted considerable effort to the research and development of lithium 6.

Analysis of open source literature reveals that North Korea has conducted theoretical and experimental research on this and other lithium 6 production processes since the 1990s.7 The mercury-dependent process is based on immersing a lithium-mercury-amalgam in lithium-containing solution, such as aqueous lithium hydroxide.

Both cost and efficiency of the separation process depend on several factors, and many of them have been studied by North Korea. Among them are kinetic studies, which determine the speed of the process,9 and differences in experimental results and theoretical predictions.1 Except for the mercury and lithium components, the process includes many variables that North Korea can take advantage of to improve, re-scale, or disguise the enrichment.

First, there are variables in the synthesis of the lithium-mercury amalgam, then there are variables during the isotope separation. One study shows that North Korea has used electrolysis of aqueous lithium hydroxide for the preparation of lithium-mercury amalgam at least on the laboratory scale.10 The following are a few variables from North Korea’s isotope separation studies: amalgam composition,11 solvents,12 column length and design,13 and stirring systems.14 Two of these studies show the common use of aqueous lithium hydroxide in the process.15 All this research comes on top of more general fluid mechanics studies.

Studies on how these factors change when the individual process is repeated in an enrichment cascade have also been published. A 2004 journal article focused on the reasons why “concentrations of isotopes abnormally fluctuate with time in an […] enrichment cascade.”16 In this article, some references are made to unreported studies.

Conclusion

The length of time North Korea researched the mercury exchange process, combined with procurement data and the ease of making necessary sensitive procurements in China, provide strong evidence that North Korea has built a lithium 6 production plant. There is little reason to doubt that such a plant is operational. The recent attempt by North Korea to sell lithium 6 metal in China supports that conclusion and suggests that North Korea is making more lithium 6 than it needs in its nuclear weapons program. These findings add credibility to North Korea’s claims that it has been developing thermonuclear or boosted fission weapons, albeit likely crude ones that may still not work. But with more nuclear testing and time, North Korea is likely to succeed.  
3 posted on 03/25/2017 4:21:28 PM PDT by TigerLikesRooster (dead parakeet + lost fishing gear = freep all day)
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To: TigerLikesRooster

Destroy NK now. Yes I know the consequences.


4 posted on 03/25/2017 4:22:16 PM PDT by Williams (Stop tolerating the intolerant.)
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To: TigerLikesRooster

Sounds like an invitation for an industrial accident.


5 posted on 03/25/2017 4:22:52 PM PDT by biggerten (Love you, Mom.)
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To: TigerLikesRooster

Isn’t the trigger for an H-bomb an A-bomb?


6 posted on 03/25/2017 4:24:15 PM PDT by 2ndDivisionVet (You cannot invade the mainland US. There'd be a rifle behind every blade of grass.)
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To: TigerLikesRooster

“The Institute for Science and International Security (ISIS)”

They MAY want to re-brand themselves...


7 posted on 03/25/2017 4:29:37 PM PDT by Diana in Wisconsin (I don't have 'Hobbies.' I'm developing a robust Post-Apocalyptic skill set!)
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To: TigerLikesRooster

Do it Lil’ Kim. Blow a hydrogen bomb in your country and see what’s left; China might be a tad upset with you as well like where the toxic flume will be going.


8 posted on 03/25/2017 4:29:44 PM PDT by SkyDancer (Ambition Without Talent Is Sad, Talent Without Ambition Is Worse)
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To: 2ndDivisionVet
Isn’t the trigger for an H-bomb an A-bomb?

Yes. The discovery that lithium-6 boosted yield was by accident, but led to the production of the 'dry' bomb'. I still say 'glory be to the bomb'. The threat of its use is still our salvation.
9 posted on 03/25/2017 4:32:20 PM PDT by farming pharmer (www.sterlingheightsreport.com)
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To: All

“The procurement evidence is reportedly contained in a 2012 North Korean contract to arrange the purchase of a wide range of industrial and lab-scale equipment and materials abroad in China.”

Was China having an, ‘Overstock Sale’ WITH THE LEFTOVERS THAT HILLARY & BILL CLINTON SOLD TO THEM?!?!?

Lock. Them. Up!


10 posted on 03/25/2017 4:33:12 PM PDT by Diana in Wisconsin (I don't have 'Hobbies.' I'm developing a robust Post-Apocalyptic skill set!)
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To: Williams

“Yes I know the consequences.”

What would those be? That Democrats would cry when they lost an ally? ;)


11 posted on 03/25/2017 4:34:15 PM PDT by Diana in Wisconsin (I don't have 'Hobbies.' I'm developing a robust Post-Apocalyptic skill set!)
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To: akalinin

I meant lithium-6 deuteride.


12 posted on 03/25/2017 4:35:06 PM PDT by farming pharmer (www.sterlingheightsreport.com)
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To: Diana in Wisconsin

Massive destruction of South Korea, possible war with China.


13 posted on 03/25/2017 4:38:04 PM PDT by Williams (Stop tolerating the intolerant.)
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To: Diana in Wisconsin

This tends to prove that China wants North Korea to develop these weapons.


14 posted on 03/25/2017 4:39:13 PM PDT by maro (MAGA!)
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To: SkyDancer
They were recently seen digging a new tunnel which is supposed to run under a giant granite rock sitting at a mountain top. The rock is said to be 800m thick, which is said to be enough to contain up to 282 kt blast, which is 14 times more powerful than that of the last bomb they tested.
15 posted on 03/25/2017 4:40:01 PM PDT by TigerLikesRooster (dead parakeet + lost fishing gear = freep all day)
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To: akalinin

But we also learned that lithium-7 will do just about as well when it burned during the Castle Bravo test. Oops, that was supposed to be 6 megatons, not 15! Cleanup on aisle three!


16 posted on 03/25/2017 4:40:34 PM PDT by 17th Miss Regt
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To: TigerLikesRooster

Maybe they’ll miss figure and blow the top of that thing off sending it to China.


17 posted on 03/25/2017 4:51:54 PM PDT by SkyDancer (Ambition Without Talent Is Sad, Talent Without Ambition Is Worse)
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To: 17th Miss Regt
It was assumed that the lithium-7 would absorb one neutron, producing lithium-8, which decays (through beryllium-8) to a pair of alpha particles on a timescale of seconds, vastly longer than the timescale of nuclear detonation. However, when lithium-7 is bombarded with energetic neutrons, rather than simply absorbing a neutron, it captures the neutron and decays almost instantly into an alpha particle, a tritium nucleus, and another neutron. As a result, much more tritium was produced than expected, the extra tritium fusing with deuterium and producing an extra neutron. The extra neutron produced by fusion and the extra neutron released directly by lithium-7 decay produced a much larger neutron flux. The result was greatly increased fissioning of the uranium tamper and increased yield.

This resultant extra fuel (both lithium-6 and lithium-7) contributed greatly to the fusion reactions and neutron production and in this manner greatly increased the device's explosive output. The test used lithium with a high percentage of lithium-7 only because lithium-6 was then scarce and expensive; the later Castle Union test used almost pure lithium-6. Had sufficient lithium-6 been available, the usability of the common lithium-7 might not have been discovered.


Fascinating.
18 posted on 03/25/2017 4:54:10 PM PDT by farming pharmer (www.sterlingheightsreport.com)
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To: TigerLikesRooster

In other words, Obama knew about this 5 years ago and did nothing.


19 posted on 03/25/2017 4:56:41 PM PDT by Blood of Tyrants (Conservatives love America for what it is. Liberals hate America for the same reason.)
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To: Blood of Tyrants
Back then, people were laughed at by so-called experts for merely suggesting the possibility that NK is working on hydrogen bombs.
20 posted on 03/25/2017 5:04:24 PM PDT by TigerLikesRooster (dead parakeet + lost fishing gear = freep all day)
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