As North Korea Speeds Its Nuclear Program, U.S. Fears Time Will Run Out

April 25, 2017

By DAVID E. SANGER and WILLIAM J. BROAD New York Times

https://www.nytimes.com/2017/04/24/world/asia/north-korea-nuclear-missile-program.html?smprod=nytcore-iphone&smid=nytcore-iphone-share

 The North Korean leader, Kim Jong-un, with what the C.I.A. calls “the disco ball.” The sphere is supposedly a nuclear weapon, shrunken to fit inside the nose cone of a missile. Credit Korean Central News Agency

The North Korean leader, Kim Jong-un, with what the C.I.A. calls “the disco ball.” The sphere is supposedly a nuclear weapon, shrunken to fit inside the nose cone of a missile. Credit Korean Central News Agency

 

WASHINGTON — Behind the Trump administration’s sudden urgency in dealing with the North Korean nuclear crisis lies a stark calculus: a growing body of expert studies and classified intelligence reports that conclude the country is capable of producing a nuclear bomb every six or seven weeks.

That acceleration in pace — impossible to verify until experts get beyond the limited access to North Korean facilities that ended years ago — explains why President Trump and his aides fear they are running out of time. For years, American presidents decided that each incremental improvement in the North’s program — another nuclear test, a new variant of a missile — was worrisome, but not worth a confrontation that could spill into open conflict.

Now those step-by-step advances have resulted in North Korean warheads that in a few years could reach Seattle. “They’ve learned a lot,” said Siegfried S. Hecker, a Stanford professor who directed the Los Alamos weapons laboratory in New Mexico, the birthplace of the atomic bomb, from 1986 to 1997, and whom the North Koreans have let into their facilities seven times.

North Korea is now threatening another nuclear test, which would be its sixth in 11 years. The last three tests — the most recent was in September — generated Hiroshima-size explosions. It is unclear how Mr. Trump would react to a test, but he told representatives of the United Nations Security Council at the White House on Monday that they should be prepared to pass far more restrictive sanctions, which American officials say should include cutting off energy supplies.

Photo

The American physicist Norris Bradbury next to “Gadget,” the first atomic bomb, which was detonated in the desert near Alamogordo, N.M., in 1945. Credit United States Department of Energy

“People have put blindfolds on for decades, and now it’s time to solve the problem,” Mr. Trump said.

He made his remarks after a Sunday night phone call on North Korea with Xi Jinping, China’s president, who urged Mr. Trump to show “restraint” with North Korea, according to a Chinese television report. White House officials said little about the call, and aides are trying to use Mr. Trump’s unpredictability to the greatest advantage, hoping it will keep the Chinese off balance and deter the North Koreans.

A Growing Arsenal

Inside the C.I.A., they call it “the disco ball.”

It is a round, metallic sphere, covered by small circles, that the North Korean leader, Kim Jong-un, is shown caressing in official photographs as if it were his crown jewel. And it may be: The sphere is supposedly a nuclear weapon, shrunken to fit inside the nose cone of one of the country’s growing arsenal of missiles.

American intelligence officials still debate whether it is a real bomb or a mock-up that is part of the country’s vast propaganda effort. But it is intended to show where the country is headed.

Unless something changes, North Korea’s arsenal may well hit 50 weapons by the end of Mr. Trump’s term, about half the size of Pakistan’s. American officials say the North already knows how to shrink those weapons so they can fit atop one of its short- to medium-range missiles — putting South Korea and Japan, and the thousands of American troops deployed in those two nations, within range. The best estimates are that North Korea has roughly 1,000 ballistic missiles in eight or so varieties.

But fulfilling Mr. Kim’s dream — putting a nuclear weapon atop an intercontinental ballistic missile that can reach Seattle or Los Angeles, or one day New York — remains a more complex problem.

As Dr. Hecker, a man who has built his share of nuclear weapons, noted last week, any weapon that could travel that far would have to be “smaller, lighter and surmount the additional difficulties of the stresses and temperatures” of a fiery re-entry into the atmosphere.

By most estimates, that is four or five years away. Then again, many senior officials said the same four or five years ago.

Photo

At a train station in Seoul in 2006, South Koreans watched a broadcast of North Korea’s first nuclear weapons test. Credit Jung Yeon-je/Agence France-Presse — Getty Images

But the North has come farther than most experts expected since the infancy of its program in the 1950s, when the Soviet Union began training North Korean scientists in nuclear basics.

It took three decades for the North to assemble the technology it needed to make its own bomb fuel. Finally, from a reactor at Yongbyon, it succeeded in making plutonium: enough for about one atomic bomb a year.

The first North Korean nuclear crisis, in 1994, ended in an agreement with the Clinton administration to freeze the North’s production facilities in return for oil and peaceful reactors. It fell apart early in the George W. Bush administration. In 2006, the first test explosion, while unimpressive, entered North Korea into the club of nuclear powers. Analysts say the first blast was a plutonium bomb, as was a second detonation just months into the Obama administration in 2009.

Dr. Hecker visited Yongbyon in 2010, and the North Koreans showed him a complete uranium enrichment facility, which American intelligence agencies had missed. The message was clear: The North now had two pathways to a bomb, uranium and plutonium. Today, it has an arsenal made up of both, intelligence officials say.

And it is aiming for something much bigger: a hydrogen bomb, with a destructive force up to 1,000 times greater than ordinary nuclear weapons. That is exactly the path the United States took in the 1950s.

Recently, United Nations investigators found evidence that the North’s factories had succeeded in producing lithium 6, a rare ingredient needed to make thermonuclear fuel. Gregory S. Jones, a scientist at the RAND Corporation, said the North might have already used bits of thermonuclear fuel in its 2016 detonations.

A potential clue, analysts say, is that the North’s five blasts over the past decade have grown steadily more destructive.

Shrinking the Bomb

A bomb is useless to North Korea — as an offensive weapon or as a deterrent — unless the country can make a convincing case that it has a reliable delivery system. So when the North flaunts missiles at military parades, as it did on April 15, the stars of the show tend to be the big missiles that are designed to reach Washington and New York. While several intercontinental ballistic missiles rolled down the streets of Pyongyang, conducting a flight test that proves one could fly that far, and land with accuracy, is so far only an aspiration.

Missing from the parade were the short- and medium-range missiles that have been successfully flight tested. American intelligence agencies believe some of those can carry operational nuclear arms. The critical one is the Nodong, which has a range of about 800 miles.

But the North Koreans are discovering — as the United States, the Soviet Union and China did before them — that it is far more complicated to design an intercontinental missile. With that weapons system, a warhead would move at four miles a second and re-enter the atmosphere in fiery heat — so, if badly engineered, it would burn up long before hitting a target. To reach their goal, North Korean weapons designers are looking to miniaturize their warheads, making them far lighter and more powerful.

The big effort these days is to merge two technologies: Get a missile that can cross the Pacific, and marry it to a warhead that can survive the ride. And this is why the United States is so desperate to stop the cycle of testing.

The cyber- and electronic warfare attacks that President Barack Obama ordered against the country’s missile fleet were intended to slow North Korea’s learning curve. The Musudan, which can travel 2,200 miles, has racked up an embarrassing failure rate of 88 percent — although how much of that is due to incompetence or outside meddling is not known. Until the North Koreans figure out what is going wrong, and how to fix it, they appear hesitant to test the KN-14 and the KN-08, both of which are designed to hit the continental United States.

The diplomatic pressure from China to stop a sixth nuclear test at the Punggye-ri test site is intended to keep the North Koreans from making advances in warhead miniaturization and the design of a hydrogen bomb. As Mr. Obama noted before he left office, even failures are important learning tools for the North Koreans, aiding the trial-and-error process of making new warheads.

How long will it take for the North Koreans to solve those problems? The best guesswork is around 2020 — while Mr. Trump is still in his first term.

A Freeze, to What End?

The strategy emerging from Mr. Trump’s national security team comes down to this: Apply overwhelming pressure on the North, both military and economic, to freeze its testing and reduce its stockpile. Then use that opening to negotiate, with the ultimate goal of getting the North Koreans to give up all their weapons.

Many experts, however, believe that is a fantasy, because Mr. Kim regards even a small arsenal as critical to his survival. The upside of the strategy, if it works, is that the “nuclear freeze” would delay for years the day the North can fit a small, reliable, well-tested weapon atop a large, reliable, well-tested missile. The downside is that it would leave the North Koreans with a small, potent arsenal — one the United States would be essentially acknowledging, if not accepting.

That is why it will be hard for Mr. Trump to fulfill his vow to “solve this problem.” And every day, there is the chance of miscalculation, or an accident.

At any moment, Dr. Hecker said on a call to reporters organized by the Union of Concerned Scientists, a live weapon could turn into an accidental nuclear detonation or some other catastrophe.

“I happen to believe,” he said, “the crisis is here now.”

David E. Sanger reported from Washington, and William J. Broad from New York.

 

One Comment

  1. mobdro

    April 25, 2017 at 10:06 PM

    good to read

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