The Dead Hand (68 page)

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Authors: David Hoffman

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On February 17, 1992, after a three-hour meeting in the Kremlin, Baker and Yeltsin announced formation of the International Science and Technology Center to help weapons scientists shift to civilian projects. The United States pledged $25 million.
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Germany also proposed to enlist aid from the European Union. Given the desperate straits of the Russian scientists, the money might have had an immediate impact had it been distributed to those who were surviving on $15 a month. But the center proved far more difficult to organize and launch than anyone expected. Soviet laws were still on the books, Soviet-era bureaucrats still in their offices and the weapons scientists were still shrouded in the secrecy and mistrust of the Cold War. The U.S. government could hardly begin distributing cash to Russian bomb designers. The State Department needed a coordinator in the Moscow embassy to work through all the bureaucratic obstacles. Harrington got the job.

As Harrington visited institutes around the capital in 1992, searching for office space to set up the new science center, she found the corridors dark for lack of lightbulbs, and stepped gingerly around gaps in the flooring. She toured the nuclear institute at Troitsk, south of the city, where Velikhov had once done pioneering laser work. “I have lots of people,” the institute director lamented. “Just no money.” Eventually, the science center offices were opened at the Scientific Research Institute of Pulse Technique.
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The science center was not ready to offer grants in 1992, nor in 1993, but as Harrington struggled with logistics and paperwork hassles, she listened patiently to the laments of the weaponeers who came to see her. “People would come in and just pour their hearts out to you about conditions in the laboratories, and what it was like trying to support their families and not knowing what they were going to do,” she recalled. “I remember one scientist, a Russian scientist, a prominent physicist, he had come to discuss a project and had to break off the meeting early. He had been paid in vacuum cleaners for that month and he had to go out and figure out how to sell the vacuum cleaners in order to get food for his family. He’s there, in his suit and tie.” Another time, at an elite aerospace institute, Harrington and a group of Americans were taken on a tour from building to building, and then to a yard full of what looked like rusting metal scrap, huge pipes and disks. The engineers explained, excitedly, that during the Persian Gulf War they had seen the Kuwaiti oil fields ablaze, and invented a way to douse the fires. They built an enormous
metal disk—like a Frisbee—that would be launched by an airplane into the sand and crimp the underground oil pipe. After many failed attempts, they had finally managed to make it work, and were very proud, but the war ended before they could market the idea. Harrington recalled she and her colleagues just looked at each other in amazement. “My God,” she thought, “these people just have no idea what to do with their intellect. They have no direction whatsoever. They spent thousands of hours trying to come up with this absolutely crazy scheme to crimp oil pipes.”
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By the time the International Science and Technology Center began funding projects in March 1994, the outlook for scientists was still bleak. The first wave of grants were aimed at those who could be the biggest proliferation risk: nuclear weapons and missile scientists and engineers.
12
Among them was Victor Vyshinsky, a specialist in fluid dynamics who worked at the Central Aerohydrodynamic Institute in Moscow, a world-renowned facility that carried out wind-tunnel tests on cruise missiles. Vyshinsky, head of a department at the institute, had been eager to make it in the new Russian economy. He searched for commercial applications for his team. “There was this feeling of huge freedom, sort of inspiration and searching. It was a wonderful time,” he recalled. They knew how to test a cruise missile in a wind tunnel, so they came up with an idea to use wind tunnels to dry timber. But they could not sell it. Then they proposed to use their mathematical models to predict the course of overflowing rivers. Again, a dead end. Soon they realized nothing was working. Vyshinsky turned to the science center, and his group of experts put together a proposal to study vortex wakes caused by airplanes at civilian airports, a project with widespread application that the science center supported. “I wanted to remain in Russia,” Vyshinsky said. But he knew others were tempted to leave, or to sell their knowledge to the highest bidder. He was aware of contracts with Iran inside his own institute. “The only thing that keeps you from doing things like that are scruples,” he said. “If someone takes it into their head to sell something, I don’t think there will be a problem.”
13

Proliferation was a shady business. The vultures from abroad moved in to pick over the carcass of the dying military-industrial complex in the early 1990s.
14
In one extraordinary case, North Korea attempted to recruit an entire missile design bureau: in 1993, the specialists at the V. P.
Makeyev Design Bureau in the city of Miass, near Chelyabinsk, were invited to travel to Pyongyang. The bureau designed submarine-launched missiles, but military orders had dried up. Through a middleman, North Korea recruited the designers, who were told they would be building rockets to send civilian satellites into space. One of them, Yuri Bessarabov, told the newspaper
Moscow News
that he earned less than workers at a local dairy, while the Koreans were offering $1,200 a month. About twenty of the designers and their families were preparing to fly out of Moscow’s international airport in December when they were stopped by the Russian authorities and sent home. “That was the first case when we noticed the North Korean attempts to steal missile technology,” a retired federal security agent said years later in an interview. If you look at a missile, the security agent said, the North Koreans recruited a specialist to help them with every section, from nose cone to engine.
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Agents for Iran and Iraq, warring rivals in the Persian Gulf, also scoured the former Soviet Union for scientists and military technology. Iran was especially active. A special office was opened in Tehran’s embassy in Moscow to search for and acquire weapons technology. The Iranians approached the prestigious Moscow Aviation Institute, a school for missile and rocket technology. One of the professors at the school was Vadim Vorobei, a department head and an engineer, a teacher with big workingman’s arms, solid fists and balding hair, who coauthored a textbook on how to build liquid-fueled rocket engines. In his classrooms, graduate students from Iran started to appear. They enrolled to study rocket engineering. Then the students pressed Vorobei to come lecture in Tehran. It was the beginning of a larger underground railroad of Russian rocket scientists who went to Iran in the 1990s. Vorobei was among the first to go. Although the Iranians made a show of keeping the scientists apart, Vorobei said, they frequently bumped into each other at hotels and restaurants. One day, he would spot a leading Russian missile guidance specialist; the next, a well-known missile engineer from Ukraine. All had been brought to Tehran on the pretext of giving lectures on rocket technology. Vorobei did deliver the lectures, but was also often asked to examine missile blueprints and help Iran spot flaws in their plans. Vorobei eventually made ten all-expense-paid trips to Tehran starting in 1996. He was paid $50 a lecture, compared to the $100 a month he received at home. According to Vorobei, the underground railroad was a
bit of a circus. The Iranians brought more scientists and engineers from the former Soviet Union than they knew what to do with. Tehran also suffered from a lack of critical raw materials and technology for rockets, which slowed their progress in building missiles. “It was a mess,” Vorobei recalled.
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Russia was a leaking sieve in these years. Iraq, seeking to build a more accurate long-range missile in defiance of the United Nations arms embargo, dispatched a thirty-two-year-old Palestinian-Jordanian hustler and middleman, Wiam Gharbiyeh, to Moscow.
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He managed to pass easily in and out of the secret military institutes, signing deals for a wide array of missile goods, technology and services. Gharbiyeh’s biggest triumph came in 1995 with the purchase of gyroscopes and missile guidance components extracted from SS-N-18 submarine-launched intercontinental ballistic missiles under the strategic arms control treaty. Gharbiyeh took ten of them as samples back to Baghdad, and had about eight hundred more packed up and delivered to Sheremetyevo, the main international airport in Moscow. The gyroscopes were then flown out of Russia on two Royal Jordanian flights to Amman. From there, at least half the gyroscopes made their way to Baghdad.
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On Wednesday evening, October 30, 1996, Vladimir Nechai returned to his office on the third floor at Chelyabinsk-70. He opened the door and locked it behind him. A square-jawed man who wore V-neck sweaters under his sport coat, Nechai was a theoretical physicist who arrived at the institute in 1959, just four years after it was founded, and became director three decades later. It had now been four years since Baker had visited the institute.

The mood inside was dark, and conditions were grim. Nechai kept notebooks on his desk with details of a desperate search for money to pay the nuclear weapons designers and keep the laboratory from falling apart. On September 9, 1996, Nechai wrote an appeal to Viktor Chernomyrdin, the Russian prime minister, saying, “At the present time, the state of the institute is catastrophic.” The government owed the facility the equivalent of $23 million for work it had already done, including $7 million for salaries, which had not been paid since May. The institute was
saddled with $36 million in debts for utilities and other needs. The nuclear bomb-builders were unable to carry out orders for the government, or convert to projects for peaceful purposes, Nechai wrote. Long-Distance phone lines were cut off for failure to pay the bills. Parents could not buy basic school supplies for their children. “There isn’t even enough money to buy food,” he said. In some of the smaller departments, he added, “Lists are being put together for the distribution of bread on credit, and the enterprise isn’t in a condition to provide even this for everyone.”
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Nechai informed Chernomyrdin that he had taken matters into his own hands. He could not bear to see what was happening to a laboratory that had once been among the most prestigious in the country. In a gamble, he started borrowing money from private banks. The laboratory owed $4.6 million on these loans but could not pay them back. Boris Murashkin, a colleague who had known Nechai since they both arrived at Chelyabinsk-70, said that Nechai’s appeal for help was met with silence by Chernomyrdin. On October 3, Murashkin and other employees of the Russian nuclear complex joined a protest for back wages in Moscow outside the Ministry of Finance. “Pay the Nuclear Center of Russia!” said one of their placards. “Don’t Trifle with Nuclear Weapons!” said another. The ministry agreed to pay some of the back wages later in the month, but by the end of October, far less than promised had trickled out. Nechai told Murashkin he was sympathetic, although as director he could not join the workers in street protests.

On that Wednesday night, Nechai went to a small study off to the side of his office, with chairs, a tea table and television. He wrote that he could no longer look his people in the eye, that he could no longer bear the strain. The last thing that Nechai wrote in his notes was that he wanted to be buried on Friday.

Then he shot himself with a pistol.

Nechai was remembered at a subdued funeral service two days later. Grigory Yavlinsky, leader of the Yabloko Party, one of the pioneers of Russian democracy whose bloc included many scientists and professionals, recalled the mourners had gathered in a cafeteria that looked more like a railroad station waiting room. Not a single official of the government came, not one sent telegrams or wreaths for a man who led the designers of the nuclear shield. On the tables were boiled potatoes, blini,
as well as
kutiya
, a traditional funeral dish of raisins and nuts, and a half-glass of vodka for each person. The scientists spoke softly, in bitterness at the hardships and the loss. “Someone else might take another way,” Yavlinsky recalled the scientists saying. “Everyone knew what that meant. It was clear to everyone what ‘another way’ could be. They were nuclear scientists, after all. Didn’t Moscow understand, they asked, how dangerous it is to drive people who hold the nuclear arsenal in their hands to this state?”

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REVELATIONS

I
n the dawn of a new Russia, people stood up without fear to confront the lies and disinformation of the past. In acts of conscience, curiosity and determination, they began to expose secrets of the arms race. It was a haphazard process of discovery, and often did not attract the public attention of the earlier years, when Gorbachev began to fill in the “blank spots” of history, admitting the truth about Stalin’s mass repressions. But the stories that surfaced in the early 1990s were no less startling to those who heard them: nuclear reactors dumped at sea, exotic nerve gas cocktails and a mysterious machine for retaliation in the event of nuclear attack.

These were exhilarating moments that no one ever expected to see in a lifetime. Siegfried S. Hecker, the director of Los Alamos National Laboratory, flew to Arzamas-16 in late February 1992 for his first trip ever to the Soviet Union.
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When he landed on the tarmac, a short, elderly man approached him. It was Yuli Khariton, who had designed the first Soviet atomic bomb under Igor Kurchatov, and who later became the first scientific director of Arzamas-16. Khariton extended his hand and said, “I’ve been waiting forty years for this.”

That night, at a dinner, Khariton delivered a remarkable lecture on the early days of the Soviet atom bomb. These were the deepest secrets of the Cold War, long protected by fear and hidden in vaults, now spilling
out over the banquet table. Speaking in his British-accented English, which he had learned while studying at the Cavendish Laboratory at Cambridge University before World War II, Khariton recounted in detail the story of how physicists had designed and built the weapon. He recalled how they worked on their own design but kept a stolen American blueprint in their safe, which they had been given by the spy Klaus Fuchs. Khariton claimed the Soviet scientists designed a device that was half the weight and twice the yield of the American bomb. Hecker asked Khariton—sitting directly across from him—why did they use the American design instead of their own? Khariton reminded Hecker that the Soviet program was run by Stalin’s ruthless security chief, Lavrenti Beria. “The reason we tested yours,” he said, “is that we knew yours worked—and we wanted to live.”
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