Obama Blew All Opportunities with China and N. Korea

Obama along with Hillary and John gave us trade deals and climate change stuff….Obama did not understand Thucydides Trap and chose to ignore it. Steve Bannon and H.R, McMaster along with General Mattis are experts on it and President Trump is confused. Trump tells President Xi, he will honor the one China policy.
Obama launched an Asia Pivot, remember that? Others called it a ‘re-balance’. Well…..
The “rebalance” policy not only aims to protect the region from unwanted security threats, but also to secure commercial sea lanes for American imports and exports flowing in and out of the region.
It is increasingly important for the U.S. to maintain freedom for navigation from the
Arabian Sea to the Pacific Ocean. The economic aspects of the “rebalance” under the Obama Administration have been largely shaped by U.S. participation in the TPP talks aimed at institutionalizing regional free trade practices. The vision of the U.S. Trade Representative for the TPP is an FTA for the twelve negotiating parties –Australia, Brunei, Chile, Canada, Japan, Malaysia, Mexico, New Zealand, Peru, Singapore, the U.S., and Vietnam –
which will form the basis for a broader agreement that eventually could eventually include all the economies of the Asia -Pacific region, including China.
If successful, the TPP could provide the US with a number of benefits. It would include U.S. access to growing markets in Asia, help stimulate the growth in U.S. exports, generate export – related jobs, and foster an economic recovery, while enhancing measures to protect U.S. intellectual property rights, and ensuring that business competition occurs in a fair regional market.
The third major component of the U.S. “rebalance” policy falls in the “dignity basket”
that seeks to uphold democratic and human rights and the rule of law. The Obama
Administration’s emphasis on universal rights targets the credibility of the Chinese
government in the midst of its rapid growth and intends to apply pressure on Beijing to
adhere to right practices as a responsible stakeholder. In this way, China’s rise would be
perceived as less of a threat to regional and global powers and more as a constructive
member of the international community. The Administration’s “rebalance” to the Asia-
Pacific region is in essence a hedging strategy towards China, one that combines engagement
with Beijing with the creation of a network of bilateral military partnerships and alliances in the Asia-Pacific as a potential counterweight against the rise of China.
The U.S. “rebalance” has endowed smaller nations who are claimants of the South China
Sea territories with more political capital without becoming directly involved in such territorial disputes.
As a result, Chinese and western analysts are concerned about the “rebalance” being an actual policy of containment against China. Obama Administration officials, in response, repeatedly
make clear that “rebalance” to Asia is not a containment strategy, but a policy aimed at strategically placing the U.S. in a favorable position as the Asia-Pacific becomes one of

the major centers of global activity. More here.
*** So, with all that early on, the Obama administration got a TPP agreement…okay swell…what came next…
Well after all the Obama administration personnel changes and additional changes in region leaders including Japan, China and S. Korea….and the rise of Islamic State, the best then Obama and John Kerry could do was a Paris Agreement.

The United States and China announced Saturday that they are formally joining the Paris Agreement to combat climate change, significantly increasing the likelihood that the accord will take effect this year.

The announcement, made by U.S. President Barack Obama and Chinese President Xi Jinping before the start of the G20 summit in Hangzhou, China, adds momentum to ongoing international discussions surrounding climate change. The accord requires 55 countries to join, representing 55% of the world’s greenhouse gas emissions, before it enters into force. Together the U.S. and China represent nearly 39% of the world’s emissions. They join 24 other countries that have already signed on to the agreement, according to a count from the World Resources Institute.

The announcement is the latest in an unlikely partnership on climate change between the two countries. Chinese opposition to strong global warming measures, at least in part, prevented efforts to reach a strong climate deal in Copenhagen in 2009. But climate became an area of cooperation when Xi took office in 2013. The alignment between Obama and Xi has been credited with building support from other countries in advance of the Paris conference in 2015 that yielded the world’s strongest agreement on climate change. More here.

Where the hell were those consequences Obama talked about in September of 2016?

In part from ABC: North Korea confirmed its fifth nuclear test explosion early Friday, its largest yet. The provocation brought instant condemnation from the country’s neighbors and a call from President Obama for “serious consequences.”

Pyongyang also said it has made strides that could bring it closer to mounting a warhead on one of its ballistic missiles and launching a long-distance nuclear strike.

“We successfully conducted a nuclear explosion test to determine the power of [the] nuclear warhead,” a female anchor announced on North Korea’s state television. “We will continue to strengthen our nuclear capabilities to protect our sovereignty. We have now standardized and minimized nuclear warheads … We can now produce small nuclear warheads any time we desire.”

“Today’s nuclear test by the Democratic People’s Republic of Korea, if confirmed, is its second this year and the fifth since 2006,” said International Atomic Energy Agency Director General Yukiya Amano. “This is in clear violation of numerous UN Security Council resolutions and in complete disregard of the repeated demands of the international community. It is a deeply troubling and regrettable act.”

North Korea previously conducted nuclear tests in 2006, 2009, 2013, and most recently in January 2016.

South Korean President Park Geun-hye called the explosion an act of “fanatic recklessness.”

The White House said National Security Adviser Susan Rice briefed Obama on the incident.

“The president also consulted with President Park of the Republic of Korea and Prime Minister Abe of Japan in separate phone calls,” White House press secretary Josh Earnest told ABC News. “The president reiterated the unbreakable U.S. commitment to the security of our allies in Asia and around the world. The president indicated he would continue to consult our allies and partners in the days ahead to ensure provocative actions from North Korea are met with serious consequences.”

The U.S. State Department also told ABC News it was aware of the explosion.

“We are aware of seismic activity on the Korean Peninsula in the vicinity of a known North Korean nuclear test site,” State Department spokesman John Kirby said. “We are monitoring and continuing to assess the situation in close coordination with our regional partners. The Secretary has been briefed on this incident.”

China’s foreign ministry condemned North Korea’s nuclear test and said it will lodge a diplomatic protest with Pyongyang’s ambassador in Beijing. The foreign ministry issued a statement saying it “resolutely opposes” the test and “intensely urges” Pyongyang to abide by its non-proliferation promises.

Japanese Prime Minister Shinzo Abe said the test explosion “could not be tolerated.”

So now Guam is a target of North Korea due to fear of Thucydides Trap, there are 60 nuclear weapons in play, there are 10 hour trilateral air missions daily, and the U.S. nuclear triad is in active deployment.

For a list of what the United States has at the ready, go here. It all sounds good and comforting until someone asks what is on the menu of strategies going forward….the time for talk is over or is it?

 

Blame for NoKo Nuclear Program Goes Beyond China

Photo.2012

Stop just blaming China for being the sole enabler for North Korea’s nuclear and missile program. It is beyond dispute that the moment of reckoning is here for Donald Trump, for he is having a Kennedy/Cuban Missile crisis point in history. But there are other countries that should be blamed and they include Pakistan, Iran and Russia.

When Putin traveled to North Korea for talks with Kim:

Interfax news agency quoted Putin as saying Kim had assured him Pyongyang’s rocket program was entirely peaceful.

Asked if Russia was prepared to offer its rockets for Korean space exploration, Putin said, “Why should only Russia pay? One should expect other countries, if they assert that the DPRK [North Korea] poses a threat for them, would support this project,” Interfax reported.

“One can minimize the threat by supplying the DPRK with its rocket boosters,” it quoted him as saying.

He also said Russia was prepared to do its utmost to improve the situation on the Korean peninsula, and expected other countries to do their part.

“We suggest that the efforts of the Russian Federation alone are not sufficient. We should all — the DPRK, South Korea, as well as the United States, China and Japan — support that process.”

***

Historically, Iran has bought a lot with its money. Mohsen Fakhrizadeh, thought to be Tehran’s chief nuclear scientist, was almost certainly in North Korea at Punggye-ri in February 2013 to witness Pyongyang’s third atomic test. Reports put Iranian technicians on hand at the site for the first two detonations as well.

Then there was a remarkable confession of Dr A Q Khan, Pakistan’s infamous ‘nuclear’ scientist. It was on 4 February 2004 when Khan appeared on the television and confessed to having supplied nuclear technology and components to North Korea, Iran and Libya. Khan accepted his crimes in English and not in Urdu, which is the language understood by most Pakistanis.

That telecast was actually for the international audience, especially the United States and the European intelligence agencies. Khan explicitly mentioned that this proliferation network was entirely his own and the Pakistani government or authorities were never involved. North Korea’s nuclear ambition started in the late 1950s and early 1960s. Erstwhile Union of Soviet Socialist Republics (USSR) agreed to set up their first plutonium-based nuclear reactor at Yongbyon-Kun for peaceful use of nuclear technology. Later, North Korea set up more reactors, signed Non-Proliferation Treaty (NPT) to get access to the latest technology and allowed International Atomic Energy Agency (IAEA) inspectors to inspect its nuclear facilities, but never gave up its desire to have ‘the bomb’.

Apart from China, Pakistan was the only major country in the world who not only maintained diplomatic relations with North Korea but received weaponry from them.

But the cooperation in nuclear and missile field started in the late 1980s. More here.

***

North Korea’s unprecedented level of testing and displays of strategic weapons in 2016 indicate that Kim is intent on proving he has the capability to strike the U.S. mainland with nuclear weapons. In 2016, the regime conducted two nuclear tests—including one that was claimed to be of a standardized warhead design—and an unprecedented number of missile launches, including a space launch that put a satellite into orbit. These ballistic missile tests probably shortened North Korea’s pathway toward a reliable ICBM, which largely uses the same technology. Kim was also photographed beside a nuclear warhead design and missile airframes to show that North Korea has warheads small enough to fit on a missile, examining a reentry-vehicle nose cone after a simulated reentry, and overseeing launches from a submarine and from mobile launchers in the field, purportedly simulating nuclear use in warfighting scenarios. North Korea is poised to conduct its first ICBM flight test in 2017 based on public comments that preparations to do so are almost complete and would serve as a milestone toward a more reliable threat to the U.S. mainland. Pyongyang’s enshrinement of the possession of nuclear weapons in its constitution, while repeatedly stating that nuclear weapons are the basis for its survival, suggests that Kim does not intend to negotiate them away at any price.

David Albright—a widely respected expert on proliferation and president and founder of the Institute for Science and International Security—estimated at the end of 2016 that North Korea’s nuclear programs had reached the following status:

• 33 kilograms of separated plutonium (median value of a distribution).

• 175-645 kilograms of weapon-grade uranium, where 175 kilograms corresponds to a median estimate for the case of one centrifuge plant and 645 kilograms corresponds to the median estimate for the case of two centrifuge plants.

• 13 to 30 nuclear weapons, where these values reflect the utilization of 70 percent of the available, estimated stocks of plutonium and weapon-grade uranium. The limits correspond to the median values for the cases of one or two centrifuge plants and each weapon contains either plutonium or weapon-grade uranium.

• Based on this cumulative estimate, North Korea is currently expanding its nuclear weapons at a rate of about three-five weapons per year.

• 30 percent of North Korea’s total stocks of plutonium and weapon-grade uranium are assessed as in production pipelines, lost during processing, or held in a reserve. More here.

***

Tillerson has pointed the finger of blame at Beijing and Moscow.

“As the principal economic enablers of North Korea’s nuclear weapon and ballistic missile development program, China and Russia bear unique and special responsibility for this growing threat to regional and global stability,” he said in a statement.

Tillerson’s comments are sure to anger Russia and China. Earlier this month Beijing rejected claims from US president Donald Trump that it had a responsibility to do more to rein in its ally. “I think this either shows lack of a full, correct knowledge of the issue, or there are ulterior motives for it, trying to shift responsibility,” Geng Shuang, a foreign ministry spokesman, told reporters.

***

Certain weapons, however, stand in stark contrast to the rest of North Korea’s aging weapons collection. One is what appears to be a copy of the Russian Kh-35 antiship cruise missile. Known in Russia as the Kh-35 Uran and to NATO as the SS-N-25 “Switchblade,” the Kh-35 has a range of seventy nautical miles and a 320-pound high-explosive warhead, flying above the wavetops to stay undetected as long as possible. Guided by active radar, the subsonic missile is roughly comparable to the American Harpoon antiship missile, earning it the nickname “Harpoonski.”

Although the Uran’s development predated the end of the Cold War, the missile never entered Soviet service, joining the Russian Navy only in 2003. The missile first surfaced in North Korea in June 2014, when it briefly appeared in a North Korean propaganda video. The missile, which appeared to be launched from a ship, was identical to the Uran, although the shipboard mounting hardware appeared different from Russian hardware. North Korea launched a volley of four Kh-35s on June 7 from the vicinity of Wonsan into the Sea of Japan.

A new rocket artillery system recently emerged in North Korea. Known as the KN-09 multiple-rocket launcher, the system consists of eight three-hundred-millimeter rocket-launcher tubes on a 6×6 HOWO 6×6 All-wheel Drive Cargo Truck chassis. The presence of fins on the rocket’s nose suggests each rocket is precision-guided, using either China’s Baidu or Russia’s GLONASS satellite-based global positioning systems. More here.

NoKo Crossed the Nuclear Power Threshold, 60?

The best defense is to take them out before they are fired…..we can and we know where they are.

We Know the Locations of N Korea Nuclear Sites

Primer: North Korean delegation wraps up Iran visit

Trip included opening of new embassy and meetings with foreign representatives
 

North Korea’s newly built embassy in Tehran opened Wednesday, according to the North’s state-run KCNA news agency. It said the new embassy was “built to boost exchanges, contacts and cooperation between the two countries for world peace and security and international justice.”

After the second ICBM test last month, defense experts said it appeared North Korea’s long-range ballistic missile had the range to reach half, if not most, of the continental United States. Iran could have an ICBM capability similar to North Korea within a few years, as just last week it successfully launched a satellite-carrying rocket that some see as a precursor to long-range ballistic missile weapon capability.

‘Extensive’ missile cooperation

“There’s been fairly extensive cooperation on missiles,” said Bunn. “And in fact, early generations of Iranian missiles were thought to be basically modestly adapted North Korean missiles.” More here.

North Korea now making missile-ready nuclear weapons, U.S. analysts say

North Korea has successfully produced a miniaturized nuclear warhead that can fit inside its missiles, crossing a key threshold on the path to becoming a full-fledged nuclear power, U.S. intelligence officials have concluded in a confidential assessment.

The new analysis completed last month by the Defense Intelligence Agency comes on the heels of another intelligence assessment that sharply raises the official estimate for the total number of bombs in the communist country’s atomic arsenal. The U.S. calculated last month that up to 60 nuclear weapons are now controlled by North Korean leader Kim Jong Un. Some independent experts believe the number of bombs is much smaller.

The findings are likely to deepen concerns about an evolving North Korean military threat that appears to be advancing far more rapidly than many experts had predicted. U.S. officials last month concluded that Pyongyang is also outpacing expectations in its effort to build an intercontinental ballistic missile capable of striking cities on the American mainland.

While more than a decade has passed since North Korea’s first nuclear detonation, many analysts believed it would be years before the country’s weapons scientists could design a compact warhead that could be delivered by missile to distant targets. But the new assessment, a summary document dated July 28, concludes that this critical milestone has already been reached.

“The IC [intelligence community] assesses North Korea has produced nuclear weapons for ballistic missile delivery, to include delivery by ICBM-class missiles,” the assessment states, in an excerpt read to The Washington Post. The assessment’s broad conclusions were verified by two U.S. officials familiar with the document. It is not yet known whether the reclusive regime has successfully tested the smaller design, although North Korean officially last year claimed to have done so.

The DIA and the Office of the Director of National Intelligence declined to comment.

An assessment this week by the Japanese Ministry of Defense also concludes there is evidence to suggest that North Korea has achieved miniaturization.

Kim Jong Un is becoming increasingly confident in the reliability of his nuclear arsenal, analysts have concluded, explaining perhaps the dictator’s willingness to engage in defiant behavior, including missile tests that have drawn criticism even from North Korea’s closest ally, China. On Saturday, both China and Russia joined other members of the U.N. Security Council in approving punishing new economic sanctions, including a ban on exports that supply up to a third of North Korea’s annual $3 billion earnings.

The nuclear progress further raises the stakes for President Trump, who has vowed that North Korea will never be allowed to threaten the United States with nuclear weapons. In an interview broadcast Saturday on MSNBC’s Hugh Hewitt Show, national security adviser H.R. McMaster said the prospect of a North Korea armed with nuclear-tipped ICBMs would be “intolerable, from the president’s perspective.”

“We have to provide all options . . . and that includes a military option,” he said. But McMaster said the administration would do everything short of war to “pressure Kim Jong Un and those around him, such that they conclude it is in their interest to denuclearize.” The options said to be under discussion ranged from new multilateral negotiations to reintroducing U.S. battlefield nuclear weapons to the Korean Peninsula, officials familiar with internal discussions said.

Determining the precise makeup of North Korea’s nuclear arsenal has long been a difficult challenge for intelligence professionals because of the regime’s culture of extreme secrecy and insularity. The country’s weapons scientists have conducted five nuclear tests since 2006, the latest being a 20- to 30-kiloton detonation on Sept. 9, 2016, that produced a blast estimated to be up to twice that of the bomb dropped on Hiroshima, Japan, in 1945.

But producing a compact nuclear warhead that can fit inside a missile is a technically demanding feat, one that many analysts believed was still beyond North Korea’s grasp. Last year, state-run media in Pyongyang displayed a spherical device that government spokesmen described as a miniaturized nuclear warhead, but whether it was a real bomb remained unclear. North Korean officials described the September detonation as a successful test of a small warhead designed to fit on a missile, though many experts were skeptical of the claim.

Kim has repeatedly proclaimed his intention to field a fleet of nuclear-tipped ICBMs as a guarantor of his regime’s survival. His regime took a major step toward that goal last month with the first successful tests of a missile with intercontinental range. Video analysis of the latest test revealed that the missile caught fire and apparently disintegrated as it plunged back toward Earth’s surface, suggesting North Korea’s engineers are not yet capable of building a reentry vehicle that can carry the warhead safely through the upper atmosphere. But U.S. analysts and many independent experts believe that this hurdle will be overcome by late next year.

“What initially looked like a slow-motion Cuban missile crisis is now looking more like the Manhattan Project, just barreling along,” said Robert Litwak, a nonproliferation expert at the Woodrow Wilson International Center for Scholars and author of “Preventing North Korea’s Nuclear Breakout,” published by the center this year. “There’s a sense of urgency behind the program that is new to the Kim Jong Un era.”

While few discount North Korea’s progress, some prominent U.S. experts warned against the danger of overestimating the threat. Siegfried Hecker, director emeritus of the Los Alamos National Laboratory and the last known U.S. official to personally inspect North Korea’s nuclear facilities, has calculated the size of North Korea’s arsenal at no more than 20 to 25 bombs. Hecker warned of potential risks that can come from making Kim into a bigger menace than he actually is.

“Overselling is particularly dangerous,” said Hecker, who visited North Korea seven times between 2004 and 2010 and met with key leaders of the country’s weapons programs. “Some like to depict Kim as being crazy – a madman – and that makes the public believe that the guy is undeterrable. He’s not crazy and he’s not suicidal. And he’s not even unpredictable.”

“The real threat,” Hecker said, “is we’re going to stumble into a nuclear war on the Korean Peninsula.”

In the past, U.S. intelligence agencies have occasionally overestimated the North Korean threat. In the early 2000s, the George W. Bush administration assessed that Pyongyang was close to developing an ICBM that could strike the U.S. mainland – a prediction that missed the mark by more than a decade. More recently, however, analysts and policymakers have been taken repeatedly by surprise as North Korea achieved key milestones months or years ahead of schedule, noted Jeffrey Lewis, director of the Center for Nonproliferation Studies’ East Asia Nonproliferation Program. There was similar skepticism about China’s capabilities in the early 1960s, said Lewis, who has studied that country’s pathway to a successful nuclear test in 1964.

“There is no reason to think that the North Koreans aren’t making the same progress after so many successful nuclear explosions,” Lewis said. “The big question is why do we hold the North Koreans to a different standard than we held [Joseph] Stalin’s Soviet Union or Mao Zedong’s China? North Korea is testing underground, so we’re always going to lack a lot of details. But it seems to me a lot of people are insisting on impossible levels of proof because they simply don’t want to accept what should be pretty obvious.”

 

We Know the Locations of N Korea Nuclear Sites

Within a measure of feet…..

The United States has likely deployed the Global Hawk. An RQ-4 Global Hawk soars through the sky to record intelligence, surveillence and reconnaissance data. Air Force and Navy officials met to discuss joint training with the RQ-4. (Courtesy photo)

Mission 
The RQ-4 Global Hawk is a high-altitude, long-endurance, remotely piloted aircraft with an integrated sensor suite that provides global all-weather, day or night intelligence, surveillance and reconnaissance (ISR) capability. Global Hawk’s mission is to provide a broad spectrum of ISR collection capability to support joint combatant forces in worldwide peacetime, contingency and wartime operations. The Global Hawk provides persistent near-real-time coverage using imagery intelligence (IMINT), signals intelligence (SIGINT) and moving target indicator (MTI) sensors.

Features 
Global Hawk is currently fielded in three distinct blocks. Seven Block 10 aircraft were procured, but were retired from the Air Force inventory in 2011. Block 20s were initially fielded with IMINT-only capabilities, but three Block 20s have been converted to an EQ-4 communication relay configuration, carrying the Battlefield Airborne Communication Node (BACN) payload. Block 30 is a multi-intelligence platform that simultaneously carries electro-optical, infrared, synthetic aperture radar (SAR), and high and low band SIGINT sensors. Block 30 Initial Operating Capability (IOC) was declared in August 2011. Eighteen Block 30s are currently fielded, supporting every geographic combatant command as well as combat missions in Operations Enduring Freedom and Iraqi Freedom/ New Dawn. Block 30s also supported Operation Odyssey Dawn in Libya and humanitarian relief efforts during Operation Tomodachi in Japan. Block 40 carries the Radar Technology Insertion Program (RTIP) active electronically scanned array radar which provides MTI and SAR data. Block 40 Early Operating Capability (EOC) was declared in Sep 2013 and eleven Block 40s are currently fielded, supporting operations in four combatant commands.

Add other resources already in theater including the THAAD systems and we can determine the locations at least within a differential of feet and we can likely predict the location of the next launch. When it comes to cyber activity and the NSA, be assured those systems are in full use as well.

THAAD Terminal High-Altitude Area Defence

Thanks to dedicated scientists in the United States in key locations, they work wonders by reading waves and ripples and testing air.

How earthquake scientists eavesdrop on North Korea’s nuclear blasts

Waves and ripples in the Earth can reveal the location and depth of an explosion

illustration of seismic waves under a mountain

NUCLEAR SHAKEDOWN  Rumblings of seismic waves reveal clues about North Korea’s nuclear weapons tests, detonated in a mountain. Nicolle Rager Fuller

On September 9 of last year, in the middle of the morning, seismometers began lighting up around East Asia. From South Korea to Russia to Japan, geophysical instruments recorded squiggles as seismic waves passed through and shook the ground. It looked as if an earthquake with a magnitude of 5.2 had just happened. But the ground shaking had originated at North Korea’s nuclear weapons test site.

It was the fifth confirmed nuclear test in North Korea, and it opened the latest chapter in a long-running geologic detective story. Like a police examiner scrutinizing skid marks to figure out who was at fault in a car crash, researchers analyze seismic waves to determine if they come from a natural earthquake or an artificial explosion. If the latter, then scientists can also tease out details such as whether the blast was nuclear and how big it was. Test after test, seismologists are improving their understanding of North Korea’s nuclear weapons program.

The work feeds into international efforts to monitor the Comprehensive Nuclear-Test-Ban Treaty, which since 1996 has banned nuclear weapons testing. More than 180 countries have signed the treaty. But 44 countries that hold nuclear technology must both sign and ratify the treaty for it to have the force of law. Eight, including the United States and North Korea, have not.

To track potential violations, the treaty calls for a four-pronged international monitoring system, which is currently about 90 percent complete. Hydroacoustic stations can detect sound waves from underwater explosions. Infrasound stations listen for low-frequency sound waves rumbling through the atmosphere. Radio­nuclide stations sniff the air for the radioactive by-products of an atmospheric test. And seismic stations pick up the ground shaking, which is usually the fastest and most reliable method for confirming an underground explosion.

Seismic waves offer extra information about an explosion, new studies show. One research group is exploring how local topography, like the rugged mountain where the North Korean government conducts its tests, puts its imprint on the seismic signals. Knowing that, scientists can better pinpoint where the explosions are happening within the mountain — thus improving understanding of how deep and powerful the blasts are. A deep explosion is more likely to mask the power of the bomb.

Story continues after map

map of North Korea

EARS TO THE GROUND Using seismic wave data, researchers calculated the likely locations of five nuclear tests in North Korea’s Mount Mantap (satellite image shown).

  S.J. GIBBONS ET AL/GEOPHYS. J. INT. 2017, GOOGLE EARTH

Separately, physicists have conducted an unprecedented set of six explosions at the U.S. nuclear test site in Nevada. The aim was to mimic the physics of a nuclear explosion by detonating chemical explosives and watching how the seismic waves radiate outward. It’s like a miniature, nonnuclear version of a nuclear weapons test. Already, the scientists have made some key discoveries, such as understanding how a deeply buried blast shows up in the seismic detectors.

The more researchers can learn about the seismic calling card of each blast, the more they can understand international developments. That’s particularly true for North Korea, where leaders have been ramping up the pace of military testing since the first nuclear detonation in 2006. On July 4, the country launched its first confirmed ballistic missile — with no nuclear payload — that could reach as far as Alaska.

“There’s this building of knowledge that helps you understand the capabilities of a country like North Korea,” says Delaine Reiter, a geophysicist with Weston Geophysical Corp. in Lexington, Mass. “They’re not shy about broadcasting their testing, but they claim things Western scientists aren’t sure about. Was it as big as they claimed? We’re really interested in understanding that.”

Natural or not

Seismometers detect ground shaking from all sorts of events. In a typical year, anywhere from 1,200 to 2,200 earthquakes of magnitude 5 and greater set off the machines worldwide. On top of that is the unnatural shaking: from quarry blasts, mine collapses and other causes. The art of using seismic waves to tell one type of event from the others is known as forensic seismology.

Forensic seismologists work to distinguish a natural earthquake from what could be a clandestine nuclear test. In March 2003, for instance, seismometers detected a disturbance coming from near Lop Nor, a dried-up lake in western China that the Chinese government, which signed but hasn’t ratified the test ban treaty, has used for nuclear tests. Seismologists needed to figure out immediately what had happened.

One test for telling the difference between an earthquake and an explosion is how deep it is. Anything deeper than about 10 kilometers is almost certain to be natural. In the case of Lop Nor, the source of the waves seemed to be located about six kilometers down — difficult to tunnel to, but not impossible. Researchers also used a second test, which compares the amplitudes of two different kinds of seismic waves.

Earthquakes and explosions generate several types of seismic waves, starting with P, or primary, waves. These waves are the first to arrive at a distant station. Next come S, or secondary, waves, which travel through the ground in a shearing motion, taking longer to arrive. Finally come waves that ripple across the surface, including those called Rayleigh waves.

In an explosion as compared with an earthquake, the amplitudes of Rayleigh waves are smaller than those of the P waves. By looking at those two types of waves, scientists determined the Lop Nor incident was a natural earthquake, not a secretive explosion. (Seismology cannot reveal the entire picture. Had the Lop Nor event actually been an explosion, researchers would have needed data from the radionuclide monitoring network to confirm the blast came from nuclear and not chemical explosives.)

For North Korea, the question is not so much whether the government is setting off nuclear tests, but how powerful and destructive those blasts might be. In 2003, the country withdrew from the Treaty on the Nonproliferation of Nuclear Weapons, an international agreement distinct from the testing ban that aims to prevent the spread of nuclear weapons and related technology. Three years later, North Korea announced it had conducted an underground nuclear test in Mount Mantap at a site called Punggye-ri, in the northeastern part of the country. It was the first nuclear weapons test since India and Pakistan each set one off in 1998.

By analyzing seismic wave data from monitoring stations around the region, seismologists concluded the North Korean blast had come from shallow depths, no more than a few kilometers within the mountain. That supported the North Korean government’s claim of an intentional test. Two weeks later, a radionuclide monitoring station in Yellowknife, Canada, detected increases in radioactive xenon, which presumably had leaked out of the underground test site and drifted eastward. The blast was nuclear.

But the 2006 test raised fresh questions for seismologists. The ratio of amplitudes of the Rayleigh and P waves was not as distinctive as it usually is for an explosion. And other aspects of the seismic signature were also not as clear-cut as scientists had expected.

Researchers got some answers as North Korea’s testing continued. In 2009, 2013 and twice in 2016, the government set off more underground nuclear explosions at Punggye-ri. Each time, researchers outside the country compared the seismic data with the record of past nuclear blasts. Automated computer programs “compare the wiggles you see on the screen ripple for ripple,” says Steven Gibbons, a seismologist with the NORSAR monitoring organization in Kjeller, Norway. When the patterns match, scientists know it is another test. “A seismic signal generated by an explosion is like a fingerprint for that particular region,” he says.

With each test, researchers learned more about North Korea’s capabilities. By analyzing the magnitude of the ground shaking, experts could roughly calculate the power of each test. The 2006 explosion was relatively small, releasing energy equivalent to about 1,000 tons of TNT — a fraction of the 15-kiloton bomb dropped by the United States on Hiroshima, Japan, in 1945. But the yield of North Korea’s nuclear tests crept up each time, and the most recent test, in September 2016, may have exceeded the size of the Hiroshima bomb.

This U.S. atmospheric nuclear test took place in April 1953 in Nevada. No surprise, North Korea’s buried tests are harder to spot.

CTBTO/FLICKR (CC BY 2.0)

Digging deep

For an event of a particular seismic magnitude, the deeper the explosion, the more energetic the blast. A shallow, less energetic test can look a lot like a deeply buried, powerful blast. Scientists need to figure out precisely where each explosion occurred.

Mount Mantap is a rugged granite mountain with geology that complicates the physics of how seismic waves spread. Western experts do not know exactly how the nuclear bombs are placed inside the mountain before being detonated. But satellite imagery shows activity that looks like tunnels being dug into the mountainside. The tunnels could be dug two ways: straight into the granite or spiraled around in a fishhook pattern to collapse and seal the site after a test, Frank Pabian, a nonproliferation expert at Los Alamos National Laboratory in New Mexico, said in April in Denver at a meeting of the Seismological Society of America.

Researchers have been trying to figure out the relative locations of each of the five tests. By comparing the amplitudes of the P, S and Rayleigh waves, and calculating how long each would have taken to travel through the ground, researchers can plot the likely sites of the five blasts. That allows them to better tie the explosions to the infrastructure on the surface, like the tunnels spotted in satellite imagery.

One big puzzle arose after the 2009 test. Analyzing the times that seismic waves arrived at various measuring stations, one group calculated that the test occurred 2.2 kilometers west of the first blast. Another scientist found it only 1.8 kilometers away. The difference may not sound like a lot, Gibbons says, but it “is huge if you’re trying to place these relative locations within the terrain.” Move a couple of hundred meters to the east or west, and the explosion could have happened beneath a valley as opposed to a ridge — radically changing the depth estimates, along with estimates of the blast’s power.

Gibbons and colleagues think they may be able to reconcile these different location estimates. The answer lies in which station the seismic data come from. Studies that rely on data from stations within about 1,500 kilometers of Punggye-ri — as in eastern China — tend to estimate bigger distances between the locations of the five tests when compared with studies that use data from more distant seismic stations in Europe and elsewhere. Seismic waves must be leaving the test site in a more complicated way than scientists had thought, or else all the measurements would agree.

When Gibbons’ team corrected for the varying distances of the seismic data, the scientists came up with a distance of 1.9 kilometers between the 2006 and 2009 blasts. The team also pinpointed the other explosions as well. The September 2016 test turned out to be almost directly beneath the 2,205-meter summit of Mount Mantap, the group reported in January in Geophysical Journal International. That means the blast was, indeed, deeply buried and hence probably at least as powerful as the Hiroshima bomb for it to register as a magnitude 5.2 earthquake.

Other seismologists have been squeezing information out of the seismic data in a different way — not in how far the signals are from the test blast, but what they traveled through before being detected. Reiter and Seung-Hoon Yoo, also of Weston Geophysical, recently analyzed data from two seismic stations, one 370 kilometers to the north in China and the other 306 kilometers to the south in South Korea.

The scientists scrutinized the moments when the seismic waves arrived at the stations, in the first second of the initial P waves, and found slight differences between the wiggles recorded in China and South Korea, Reiter reported at the Denver conference. Those in the north showed a more energetic pulse rising from the wiggles in the first second; the southern seismic records did not. Reiter and Yoo think this pattern represents an imprint of the topography at Mount Mantap.

“One side of the mountain is much steeper,” Reiter explains. “The station in China was sampling the signal coming through the steep side of the mountain, while the southern station was seeing the more shallowly dipping face.” This difference may also help explain why data from seismic stations spanning the breadth of Japan show a slight difference from north to south. Those differences may reflect the changing topography as the seismic waves exited Mount Mantap during the test.

Four ways to verify a nuclear weapons test

Seismic: 170 stations worldwide monitor ground shaking to identify the location, strength and nature of a seismic event.

Hydroacoustic: 11 stations listen in the oceans, where sound waves can propagate far.

Infrasound: 60 stations detect low-frequency sound waves inaudible to humans.

Radionuclide: 80 stations sniff for radioactive particles dispersed in the wind after a test.

Learning from simulations

But there is only so much scientists can do to understand explosions they can’t get near. That’s where the test blasts in Nevada come in.

The tests were part of phase one of the Source Physics Experiment, a $40-million project run by the U.S. Department of Energy’s National Nuclear Security Administration. The goal was to set off a series of chemical explosions of different sizes and at different depths in the same borehole and then record the seismic signals on a battery of instruments. The detonations took place at the nuclear test site in southern Nevada, where between 1951 and 1992 the U.S. government set off 828 underground nuclear tests and 100 atmospheric ones, whose mushroom clouds were seen from Las Vegas, 100 kilometers away.

For the Source Physics Experiment, six chemical explosions were set off between 2011 and 2016, ranging up to 5,000 kilograms of TNT equivalent and down to 87 meters deep. The biggest required high-energy–density explosives packed into a cylinder nearly a meter across and 6.7 meters long, says Beth Dzenitis, an engineer at Lawrence Livermore National Laboratory in California who oversaw part of the field campaign. Yet for all that firepower, the detonation barely registered on anything other than the instruments peppering the ground. “I wish I could tell you all these cool fireworks go off, but you don’t even know it’s happening,” she says.

The explosives were set inside granite rock, a material very similar to the granite at Mount Mantap. So the seismic waves racing outward behaved very much as they might at the North Korean nuclear test site, says William Walter, head of geophysical monitoring at Livermore. The underlying physics, describing how seismic energy travels through the ground, is virtually the same for both chemical and nuclear blasts.

Technicians lower an enormous canister of explosives into the ground in southern Nevada for a chemical explosion — part of the Source Physics Experiment series — to mimic the physics of nuclear blasts.

GARY STRIKER/LAWRENCE LIVERMORE NATIONAL LAB

The results revealed flaws in the models that researchers have been using for decades to describe how seismic waves travel outward from explosions. These models were developed to describe how the P waves compress rock as they propagate from large nuclear blasts like those set off starting in the 1950s by the United States and the Soviet Union. “That worked very well in the days when the tests were large,” Walter says. But for much smaller blasts, like those North Korea has been detonating, “the models didn’t work that well at all.”

Walter and Livermore colleague Sean Ford have started to develop new models that better capture the physics involved in small explosions. Those models should be able to describe the depth and energy release of North Korea’s tests more accurately, Walter reported at the Denver meeting.

A second phase of the Source Physics Experiment is set to begin next year at the test site, in a much more rubbly type of rock called alluvium. Scientists will use that series of tests to see how seismic waves are affected when they travel through fragmented rock as opposed to more coherent granite. That information could be useful if North Korea begins testing in another location, or if another country detonates an atomic bomb in fragmented rock.

For now, the world’s seismologists continue to watch and wait, to see what the North Korean government might do next. Some experts think the next nuclear test will come at a different location within Mount Mantap, to the south of the most recent tests. If so, that will provide a fresh challenge to the researchers waiting to unravel the story the seismic waves will tell.

“It’s a little creepy what we do,” Reiter admits. “We wait for these explosions to happen, and then we race each other to find the location, see how big it was, that kind of thing. But it has really given us a good look as to how [North Korea’s] nuclear program is progressing.” Useful information as the world’s nations decide what to do about North Korea’s rogue testing.

But, President Trump Hosted Saad Hariri at the White House

So…surely President Trump knew who Hezbollah was and their history right? Oh..perhaps Hariri brought it up in the conversation that the ordnance for the next major battle against Israel has 150,000 missiles under ground in Lebanon, right?

Okay, how about how Iran and Hezbollah are one in the same in Lebanon..surely this was covered in that meeting….uh?

Did President Trump ask Prime Minister Hariri about what he knew regarding Iran’s missile launch and that satellite that failed? Did he ask Hariri why Iran needed a space program?

Anything? Well yes, Hariri asked the President Trump for money to control Hezbollah. The whole country is controlled by Hezbollah…what the heck?

Alright, more facts here.

Iran’s space program has emerged from a three-year dormancy initiated by Rouhani but probably issuing from technical and budgetary constraints as well. Further launches can be expected in the near future, likely renewing concerns over the nature of Iran’s missile and SLV programs. The scenario is especially worrisome when considering assessments that a ballistic-missile derivative of the Simorgh could potentially achieve intercontinental range. Iran insists its inherently military-run space program is for peaceful purposes only and that its ballistic missiles are for conventional deterrence at a range no greater than 2,000 kilometers. Such rhetoric and Iran’s technical limitations notwithstanding, the mere possibility of diverted know-how from an SLV to an ICBM program will unsettle many Western capitals. Previous close cooperation between Tehran and Pyongyang will provide no further solace. Detailed summary here.

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Then we have those pesky missiles that seem to get ignored until the WSJ posted a chilling summary:

In a rare moment of disagreement between Benjamin Netanyahu and Donald Trump, Israel’s prime minister last month rejected a U.S.-Russia cease-fire agreement that he said could cement the buildup of Hezbollah and Iranian forces along Israel’s border with Syria.

Mr. Netanyahu has good reason to be concerned. Israel’s head of military intelligence, Maj. Gen. Herzl Halevi, confirmed in June a Kuwaiti newspaper report that largely went unnoticed: Iran’s Islamic Revolutionary Guard Corps, in cooperation with Hezbollah, has been constructing missile-production facilities in Lebanon.

Buried more than 50 meters below ground and protected from aerial attack, these facilities could produce highly sophisticated rockets with ranges of more than 300 miles and equipped with advanced guidance systems.

Israeli officials now say that pre-emptive strikes may be necessary to destroy these missile capabilities before they’re operational. The result could be a bloody war that would see thousands of Hezbollah missiles hurled into Israeli airspace, with punishing Israeli reprisals and hundreds—if not thousands—of civilian deaths on both sides. It would be more chaos for Washington policy makers scrambling to manage a region already in flames.

Iran has long transferred missiles by ground and air through Syria to Hezbollah in Lebanon. In recent years, Israel repeatedly struck these transfers of what their officials call “game-changing” weaponry—weapons that could challenge Israel’s military superiority and pose severe threats to its civilians.

Despite significant success against many of these transfers, Hezbollah’s inventory has expanded to more than 150,000 missiles today from an estimated 50,000 missiles at the beginning of the second Lebanon War in 2006. And while many of these projectiles are crude, an increasing number are highly accurate, capable of delivering a massive payload to anywhere in Israel.

Israel, of course, has advanced short-, medium- and long-range missile defenses: the Iron Dome, David’s Sling and Arrow systems. But Iran and Hezbollah are now seeking an arsenal that can overwhelm these systems. More of the story here.

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A top North Korean politician recently left Pyongyang for a 10-day trip to Iran, a country that may still be cooperating militarily with the Kim Jong Un regime.

Workers’ Party newspaper Rodong Sinmun reported Tuesday chairman of the Presidium of the Supreme Assembly of North Korea Kim Yong Nam left Pyongyang on Monday to attend the inauguration ceremony for President Hassan Rouhani.

Lastly, the U.S. is detecting significant North Korean submarine activity. And from The U.S. Air Force was preparing Tuesday to test an unarmed Minuteman 3 intercontinental ballistic missile with a launch from California, the fourth such test this year.

The 30th Space Wing says the missile was to be launched between 12:01 a.m. and 6:01 a.m. Wednesday from Vandenberg Air Force Base, about 130 miles (209 kilometers) northwest of Los Angeles.

An Air Force statement said the test would show the effectiveness, readiness, and accuracy of the weapon system.

Minuteman missiles are regularly tested with launches from Vandenberg that send unarmed re-entry vehicles 4,200 miles (6,800 kilometers) across the Pacific to a target area at Kwajalein Atoll.