The Fist of God Read online

  He had worked for Israel before, liked the country and the people, had many friends in the Israeli Army, and could not keep his mouth shut. Challenged with a phrase like: “Gerry, I bet you’ll never get those rockets at Saad 16 to work,” Bull would leap into a three-hour monologue describing exactly what he was doing, how far the project had got, what were the problems, and how he hoped to solve them—the lot. For an intelligence service, he was a dream of indiscretion. Even in the last week of his life he was entertaining two Israeli generals at his office, giving them a complete up-to-the-minute picture, all tape-recorded by the devices in their briefcases. Why would they destroy such a cornucopia of inside information?

  Finally, the Mossad has one other habit when dealing with a scientist or industrialist, but never with a terrorist. A final warning is always given; not a weird break-in aimed at moving glasses or rewinding videotapes, but an actual verbal warning. Even with Dr. Yahia El Meshad, the Egyptian nuclear physicist who worked on the first Iraqi nuclear reactor and was assassinated in his room at the Meridien Hotel in Paris on June 13, 1980, the procedure was observed. An Arabic-speaking katsa went to his room and told him bluntly what would happen to him if he did not desist. The Egyptian told the stranger at his door to get lost—not a wise move. Telling a Mossad kidon team to perform an impractical act upon themselves is not a tactic approved by the insurance industry. Two hours later, Meshad was dead. But he had had his chance. A year later, the whole French-supplied nuclear complex at Osirak 1 and 2 was blown away by an Israeli air strike.

  Bull was different—a Canadian-born American citizen, genial, approachable, and a whiskey drinker of awesome talent. The Israelis could talk to him as a friend, and did constantly. It would have been the easiest thing in the world to send a friend to tell him bluntly that he had got to stop or the hard squad would come after him—nothing personal, Gerry, just the way things are.

  Bull was not in the business of winning a posthumous Congressional Medal. Moreover, he had already told the Israelis and his close friend George Wong that he wanted out of Iraq—physically and contractually. He had had enough. What happened to Dr. Gerry Bull was something quite different.

  Gerald Vincent Bull was born in 1928 at North Bay, Ontario. At school he was clever and driven by an urge to succeed and earn the world’s approval. At sixteen he graduated from high school, but because he was so young the only college that would accept him was the University of Toronto Engineering Faculty.

  Here he showed he was not just clever but brilliant. At twenty-two he became the youngest-ever Ph.D. It was aeronautical engineering that seized his imagination, specifically ballistics—the study of bodies, whether projectiles or rockets, in flight. It was this that led him down the road to artillery.

  After Toronto, he joined the Canadian Armament and Research Development Establishment, CARDE, at Valcartier, a then quiet little township outside Quebec City. In the early 1950s man was turning his face not only toward the skies but beyond them to space itself. The buzzword was rockets . It was then that Bull showed he was something apart from technically brilliant. He was a maverick—inventive, unconventional, and imaginative. It was during his ten years at CARDE that he developed his idea, which would become his life’s dream for the rest of his days.

  Like all new ideas, Bull’s appeared quite simple. When he looked at the emerging range of American rockets in the late 1950s, he realized that nine-tenths of these then impressive-looking rockets were only the first stage. Sitting right on top, only a fraction of the size, were the second and third stages and, even smaller, the tiny nipple of the payload.

  The giant first stage was intended to lift the rocket up through the first 150 kilometers of air, where the atmosphere was thickest and gravity strongest. After the 150-kilometer mark, it needed much less power to drive the satellite on into space itself, and into orbit at between 400 and 500 kilometers above the earth. Every time a rocket went up, the whole of that bulky and very expensive first stage was destroyed—burned out, to fall forever into the oceans.

  Supposing, Bull mused, you could punch your second and third stages, plus the payload, up those first ISO kilometers from the barrel of a giant gun? In theory, he pleaded with the money men, it was possible, easier, and cheaper, and the gun could be used over and over again.

  It was his first real brush with politicians and bureaucrats, and he failed, mainly because of his personality. He hated them, and they hated him. But in 1961 he got lucky. McGill University came in because it foresaw some interesting publicity. The U.S. Army came in for reasons of its own; guardian of American artillery, the Army was in a power play with the Air Force, which was battling for control over all rockets or projectiles going above 100 kilometers. With their combined funds, Bull was able to set up a small research establishment on the island of Barbados. The Army let him have a package of one out-of-storage sixteen-inch Navy gun (the biggest caliber in the world), one spare barrel, one small radar tracking unit, a crane, and some trucks. McGill set up a metal workshop. It was like trying to take on the Grand Prix racing industry with the facilities of a back-street garage. But Bull did it. His career of amazing inventions had begun, and he was thirty-three years old: shy, diffident, untidy, inventive, and still a maverick.

  He called his research in Barbados the High Altitude Research Project, or HARP. The old Navy gun was duly erected, and Bull began work on projectiles. He called them Martlet, after the heraldic bird that appears on the insignia of McGill University.

  Bull wanted to put a payload of instruments into earth orbit cheaper and faster than anyone else. He knew perfectly well that no human could withstand the pressures of being fired from a gun, but he figured rightly that in the future ninety percent of scientific research and work in space would be done by machines, not men. America under Kennedy, goaded by the flight of the Russian Yuri Gagarin, pursued from Cape Canaveral the more glamorous but ultimately rather pointless exercise of putting mice, dogs, monkeys, and eventually men up there.

  Down in Barbados, Bull soldiered on with his single gun and his Martlet projectiles. In 1964 he blew a Martlet 92 kilometers high, then added an extra 16 meters of barrel to his gun (it cost just $41,000), making the new 36-meter barrel the longest in the world. With this, he reached the magic 150 kilometers with a 180-kilogram payload.

  He solved the problems as they arose. A major one was the propellant. In a small gun the charge gives the projectile a single hard smack as it expands from solid to gas in a microsecond. The gas tries to escape its compression and has nowhere to go but out of the barrel, pushing the shell ahead of it as it does so. But with a barrel as long as Bull’s, a special, slower-burning propellant was needed not to split the barrel wide open. He needed a powder that would send his projectile up this enormous barrel in a long, steadily accelerating whoosh . So he designed it.

  In 1966, Bull’s old adversaries among the Canadian Defense Ministry bureaucrats got him by urging their minister to pull his financing. Bull protested that he could put a payload of instruments into space for a fraction of what it cost Cape Canaveral. To no avail. To protect its interest, the U.S. Army transferred Bull from Barbados to Yuma, Arizona.

  Here, in November of that year, he put a payload 180 kilometers up, a record that stood for twenty-five years. But in 1967, Canada pulled out completely, both the government and McGill University. The U.S.

  Army followed suit. The HARP project closed down. Bull set himself up on a purely consultative basis at an estate he had bought at Highwater that straddled the border of northern Vermont and his native Canada. He called his company Space Research Corporation.

  There were two postscripts to the HARP affair. By 1990, it was costing ten thousand dollars to put every kilogram of instruments into space in the Space Shuttle program out of Cape Canaveral. To his dying day, Bull knew he could do it for six hundred dollars per kilo. And in 1988 work began on a new project at Lawrence Livermore National Laboratory in California. The project involved a giant gun, but so fa
r with a barrel only four inches in caliber and a barrel only fifty meters long. Eventually, and at a cost of hundreds of millions of dollars, it is hoped that a much, much bigger one will be built, with a view to firing payloads into space. The project’s name is Super-High Altitude Research Project, or SHARP.

  Gerry Bull lived in and ran his complex at Highwater on the border for ten years. In that time he dropped his unfulfilled dream of a gun that would fire payloads into space and concentrated on his second area of expertise—the more profitable one of conventional artillery.

  He began with the major problem: Almost all the world’s armies based their artillery on the universal 155-mm. howitzer field gun. Bull knew that in an artillery exchange, the man with the longer range is king.

  He can sit back and blow the enemy away while remaining inviolate. Bull was determined to extend the range and increase the accuracy of the 155-mm. field gun. He started with the ammunition. It had been tried before, but no one had succeeded. In four years Bull cracked it.

  In control tests the Bull shell went one and a half times the distance as the same 155-mm. standard gun, was more accurate, and exploded with the same force into 4,700 fragments, as opposed to 1,350 for a NATO shell. NATO was not interested. By the grace of God, neither was the Soviet Union.

  Undeterred, Bull plowed on, producing a new full-bore extended-range shell. Still NATO was not interested, preferring to stay with its traditional suppliers and the short-range shell.

  But if the powers would not look, the rest of the world did. Military delegations swarmed to Highwater to consult Gerry Bull. They included Israel (this was when he cemented friendships begun with observers in Barbados), Egypt, Venezuela, Chile, and Iran. He also acted as a consultant on other artillery matters to Britain, Holland, Italy, Canada, and the United States, whose military scientists (if not the Pentagon) continued to study with some awe what he was up to.

  In 1972, Bull was quietly made a U.S. citizen. The next year, he began work on the actual 155-caliber field gun itself. Within two years he had made another breakthrough, discovering that the perfect length for a cannon barrel is neither more nor less than forty-five times its caliber. He perfected a new redesign of the standard 155-mm. field gun and called it the GC (for gun caliber) 45. The new gun, with his extended-range shells, would outgun any artillery in the entire Communist arsenal. But if he expected contracts, he was disappointed. Again, the Pentagon stayed with the gun lobby and its new idea for rocket-assisted shells at eight times the price per shell. The performance of both shells was identical.

  Bull’s fall from grace, when it came, started innocently enough in 1976, when he was invited with CIA connivance to help improve the artillery and shells of South Africa, which was then fighting the Moscow-backed Cubans in Angola.

  Bull was nothing if not politically naive—to an amazing degree. He went, found he liked the South Africans, and got on well with them. The fact that South Africa was an international outcast for its apartheid policies did not worry him. He helped them redesign their artillery along the lines of his increasingly sought-after GC-45 long-barreled long-range howitzer. Later, the South Africans produced their own version, and it was these cannon that smashed the Soviet artillery, rolling back the Russians and Cubans.

  Returning to the United States, Bull continued to ship his shells. In 1977, however, the United Nations imposed an arms embargo on South Africa, and when Jimmy Carter became president, Bull was arrested and charged with illegal exports to a forbidden regime. The CIA dropped him like a hot potato. He was persuaded to stay silent and plead guilty. It was a formality, he was told; he would get a slap on the wrist for a technical breach.

  On June 16, 1980, a U.S. judge sentenced Bull to a year in prison, with six months suspended, and a fine of $105,000. He actually served four months and seventeen days at Allenwood prison in Pennsylvania. But for Bull that was not the point.

  It was the shame and the disgrace that got to him, plus the sense of betrayal. How could they have done this to him? he asked reasonably. He had helped the United States wherever he could, taken her citizenship, gone along with the CIA appeal. While he was in Allenwood, his company, Space Research Corporation, went bankrupt and closed down. He was ruined.

  On emerging from jail he quit the United States and Canada forever, emigrating to Brussels and starting all over again in a one-room walk-up with a kitchenette. Friends said later that he was changed after the trial, was never the same man again. He never forgave the CIA, and he never forgave America; yet he struggled for years for a rehearing and a pardon.

  He returned to consultancy and took up an offer that had been made to him before his trial: to work for China on the improvement of its artillery. Through the early and mid-1980s Bull worked mainly for Beijing and redesigned their artillery along the lines of his GC-4S cannon, which was now being sold under world license by Voest-Alpine of Austria, which had bought the patents from Bull for a one-time payment of two million dollars. Bull always was a terrible businessman, or he would have been a multimillionaire.

  While Bull had been away in China, things had happened elsewhere. The South Africans had taken his designs and improved greatly upon them, creating a towed howitzer called the G-5 from his GC-45 and a self-propelled cannon, the G-6. Both had a range with extended shells of forty kilometers. South Africa was selling them around the world. Because of his poor deal with the South Africans, Bull got not a penny in royalties.

  Among the clients for these guns was a certain Saddam Hussein of Iraq. It was these cannon that broke the human waves of Iranian fanatics in the eight-year Iran-Iraq war, finally defeating them in the Fao marshes. But Saddam Hussein had added a new twist, especially at the battle of Fao. He had put poison gas in the shells.

  Bull then worked for Spain and Yugoslavia, converting the old Yugoslav Army’s Soviet-made 130-mm.

  artillery to the new 155-mm. cannon with the extended-range shells. Though he would never live to see it, these were the guns, inherited by the Serbs on the collapse of Yugoslavia, that were to pulverize the cities of the Croats and Muslims in the civil war. And in 1987 he learned that the United States would, after all, research the payloads-into-space cannon—but with Gerry Bull firmly cut out of the deal.

  That winter he received a strange phone call from the Iraqi embassy in Bonn: Would Dr. Bull like to visit Baghdad as Iraq’s guest?

  What he did not know was that in the mid-1980s, Iraq had witnessed Operation Staunch, a concerted American effort to shut off all sources of weapons imports destined for Iran. This followed the carnage among American Marines in Beirut when Iranian-backed Hezbollah fanatics attacked their barracks.

  Iraq’s reaction, although they benefited in their war with Iran from Operation Staunch, was: If the Americans can do that to Iran, they can do it to us. From then on, Iraq determined to import not the arms but wherever possible the technology to make their own. Bull was first and foremost a designer; he interested them.

  The mission to recruit him went to Amer Saadi, who was number two at the Ministry of Industry and Military Industrialization, known as MIMI. When Bull arrived in Baghdad in January 1988, Amer Saadi, a smooth, cosmopolitan diplomat/scientist speaking English, French, and German as well as Arabic, played him beautifully.

  The Iraqis, he said, wanted Bull’s help with their dream of putting peaceful satellites into space. To do this, they had to design a rocket that could put the payload up there. Their Egyptian and Brazilian scientists had suggested that the first step would be to tie together five Scud missiles, of which Iraq had bought nine hundred from the Soviet Union. But there were technical problems, many problems. They needed access to a supercomputer. Could Bull help them?

  Bull loved problems—they were his raison d’être. He did not have access to a supercomputer, but on two legs he himself was the nearest thing. Besides, he told Amer Saadi, if Iraq really wanted to be the first Arab nation to put satellites into space, there was another way—cheaper, simpler, faster than rockets s
tarting from scratch. Tell me all, said the Iraqi. So Bull did.

  For just three million dollars, he said, he could produce a giant gun that would do the job. It would be a five-year program. He could beat the Americans at Livermore to the punch. It would be an Arab triumph. Dr. Saadi glowed with admiration. He would put the idea to his government and recommend it strongly. In the meantime, would Dr. Bull look at the Iraqi artillery?

  By the end of his one-week visit, Bull had agreed to crack the problems of tying five Scuds together to form the first stage of a rocket of intercontinental or space-reaching performance; to design two new artillery pieces for the Army; and to put a formal proposal for his payload-into-orbit Supergun.

  As with South Africa, he was able to block his mind to the nature of the regime he was about to serve.

  Friends had told him of Saddam Hussein’s record as the man with the bloodiest hands in the Middle East. But in 1988 there were thousands of respectable companies and dozens of governments clamoring to do business with big-spending Iraq.

  For Bull, the bait was his gun, his beloved gun, his life’s dream, at last with a backer who was prepared to help him bring it to fulfillment and join the pantheon of scientists.

  In March 1988, Amer Saadi sent a diplomat to Brussels to talk to Bull. Yes, said the gun designer, he had made progress on the technical problems of the first stage of the Iraqi rocket. He would be glad to hand them over on signature of a contract with his company, once again the Space Research Corporation. The deal was done. The Iraqis realized that his offer of a gun for only three million dollars was silly; they raised it to ten million but asked for more speed.

  When Bull worked fast, he worked amazingly fast. In one month he put together a team of the best available free-lancers he could find. Heading the Supergun team in Iraq was a British projects engineer called Christopher Cowley. Bull himself christened the rocket program, based at Saad 16 in northern Iraq, Project Bird. The Supergun task was named Project Babylon.