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Space Research Corporation - Gerald Bull

Gerald BullWernher von Braun "aimed for the Moon, and hit London." Gerald Vincent Bull was born in March 9, 1928, in Ontario, Canada. He died in 1990. Bull was the most brilliant artillery scientist of the twentieth century. A Canadian patriot, Bull found himself and his work increasingly marginalized. Even after the success of the HARP Project, a joint U.S.-Canadian project which sent a gun-launched projectile higher than any had ever gone before, Bull found himself out of place, a genius when it came to guns but living in a world where guided missiles seemed poised to take over the battlefield.

Bull's career in the defense industry can best be compared to a Greek tragedy. He was an absolute genius in the field of weapons' design. Products of his genius were the High Altirude Research Program (HARP) in which a gun he designed fired a projectile to an altitude of 112 miles; artillery pieces declared to be the best in the world; and unique concepts which have been incorporated into the Copperhead munition and Stategic Defens Initiative research. Despite his ability and genius, Bull ran into road blocks throughout his career.

Bull was a prodigiously gifted student, and earned a Ph.D. in aeronautical engineering at the age of 24, the youngest person ever to receive a doctorate from the University of Toronto. Bull spent the 1950s researching supersonic aerodynamics in Canada, personally handcrafting some of the most advanced wind- tunnels in the world.

Bull's work, like that of his predecessor von Braun, had military applications. Bull found patronage with the Canadian Armament Research and Development Establishment (CARDE) and the Canadian Defence Research Board. However, Canada's military-industrial complex lacked the panache, and the funding, of that of the United States. Bull, a visionary and energetic man, grew impatient with what he considered the pedestrian pace and limited imagination of the Canadians.

As an aerodynamics scientist for CARDE, Bull's salary in 1959 was only $17,000. In comparison, in 1961 Bull earned $100,000 by consulting for the Pentagon on nose-cone research. It was small wonder that by the early 1960s, Bull had established lively professional relationships with the US Army's Ballistics Research Laboratory (as well as the Army's Redstone Arsenal, Wernher von Braun's own postwar stomping grounds).

Project HARP (High Altitude Research Project)

It was the great dream of Gerald Bull's life to fire cannon projectiles from the earth's surface directly into outer space. Amazingly, Bull enjoyed considerable success in this endeavor. In 1961, Bull established Project HARP (High Altitude Research Project). HARP was an academic, nonmilitary research program, funded by McGill University in Montreal, where Bull had become a professor in the mechanical engineering department. The US Army's Ballistic Research Lab was a quiet but very useful co-sponsor of HARP; the US Army was especially generous in supplying Bull with obsolete military equipment, including cannon barrels and radar. One such monster gun was constructed at Yuma Proving Ground and, though it hasn't fired a projectile in decades, it remains today, slumbering in the desert.

Project HARP found a home on the island of Barbados, downrange of its much better-known (and vastly better-financed) rival, Cape Canaveral. In Barbados, Bull's gigantic space-cannon fired its projectiles out to an ocean splashdown, with little risk of public harm. Its terrific boom was audible all over Barbados, but the locals were much pleased at their glamorous link to the dawning Space Age. Bull designed a series of new supersonic shells known as the "Martlets." The Mark II Martlets were cylindrical finned projectiles, about eight inches in diameter and five feet six inches long. They weighed 475 pounds.

Inside the barrel of the space-cannon, a Martlet was surrounded by a precisely machined wooden casing known as a "sabot." The sabot absorbed propulsive energy as the projectile flew up the space-cannon's sixteen-inch, 118-ft long barrel. As it cleared the barrel, the sabot split and the precisely streamlined Martlet was off at over a mile per second. Each shot produced a huge explosion and a plume of fire gushing hundreds of feet into the sky.

The Martlets were scientific research craft. They were designed to carry payloads of metallic chaff, chemical smoke, or meteorological balloons. They sported telemetry antennas for tracing the flight. By the end of 1965, the HARP project had fired over a hundred such missiles over fifty miles high, into the ionosphere -- the airless fringes of space.

In November 19, 1966, the US Army's Ballistics Research Lab, using a HARP gun designed by Bull, fired a 185-lb Martlet missile one hundred and eleven miles high. This was, and remains, a world altitude record for any fired projectile. Though the bulk of the HARP project's well over 100 artillery firings took place on the island of Barbados, one of the most significant occurred at Yuma Proving Ground. At 118 feet in length, YPG's HARP gun was the largest artillery piece in the world and, in October 1966, it fired a 185 lb. payload 111 miles high, into the lower reaches of space. It was a world altitude record that still stands. A record was also set that day for the greatest amount of powder ever loaded into a gun -- 1225 lbs.

To achieve this success, engineers devised a number of technological innovations, one of which was a new ignition system. Instead of igniting the bottom of a 15-feet long stack of powder bags loaded into the gun's breech, the HARP gun ignited the charge at five separate points so the entire charge would ignite simultaneously. The projectile reached a maximum velocity of 6,800 feet per second upon leaving the barrel. When the gun fired, it produced a huge explosion and plume of fire that gushed hundreds of feet into the sky.

Bull now entertained ambitious plans for a Martlet Mark IV, a rocket-assisted projectile that would ignite in flight and drive itself into actual orbit. Ballistically speaking, space cannon offer distinct advantages over rockets. Rockets must lift, not only their own weight, but the weight of their fuel and oxidizer. Cannon "fuel," which is contained within the gunbarrel, offers far more explosive bang for the buck than rocket fuel. Cannon projectiles are very accurate, thanks to the fixed geometry of the gun-barrel. And cannon are far simpler and cheaper than rockets.

There are grave disadvantages, of course. First, the payload must be slender enough to fit into a gun-barrel. The most severe drawback is the huge acceleration force of a cannon blast, which in the case of Bull's exotic arsenal could top 10,000 Gs. This rules out manned flights from the mouth of space-cannon. Jules Verne overlooked this unpoetic detail when he wrote his prescient tale of space artillery, FROM THE EARTH TO THE MOON (1865). (Bull was fascinated by Verne, and often spoke of Verne's science fiction as one of the foremost inspirations of his youth.)

Bull was determined to put a cannon-round into orbit. This burning desire of his was something greater than any merely pragmatic or rational motive. The collapse of the HARP project in 1967 left Bull in command of his own fortunes. He reassembled the wreckage of his odd academic/military career, and started a commercial operation, "Space Research Corporation." When Canadian and US government support ended, he formed the Space Research Corp in 1971 to continue HARP, funded by offering scientific services to countries unable to afford national space programs and by selling the products of SRC's special workshops. In the years to follow, Bull would try hard to sell his space-cannon vision to a number of sponsors, including NATO, the Pentagon, Canada, China, Israel, and finally, Iraq.

US Navy

In the meantime, the Vietnam War was raging. Naval gunfire support (NGFS), also called Naval Surface Fire Support (NSFS), missions in South Vietnam during the Vietnam War and the shore bombardment of North Vietnam were part of Operation Sea Dragon and subsequent bombardments. Seventh Fleet's cruiser and destroyer units hunted the enemy's logistic craft along the North Vietnamese coast, bombarded targets ashore, and provided naval gunfire support to allied forces in South Vietnam.

The 1,200-mile coastline allowed the Navy to take advantage of the mobility and firepower of its surface ships. Because the waters off the northern and central regions of South Vietnam were deep, the guns on many Seventh Fleet cruisers and destroyers could reach targets in one-third of the land area of I Corps. Also covered were large segments of the coastal provinces of II and III Corps. Shallow-draft vessels bombarded many additional areas in the Mekong Delta. Relatively safe from the enemy, the gunfire support ships operated by day or night and often in the foul weather that swept the South China Sea.

Bull's researches on projectile aerodynamics had made him, and his company Space Reseach Corporation, into a hot military-industrial property. In pursuit of space research, Bull had invented techniques that lent much greater range and accuracy to conventional artillery rounds.

During WW II, the Nazis developed and fired the "Arrow" projectile from a 12.2" smoothbore variant of the K5E railroad gun. It weighed 300 lbs. and had a maximum range of over one hundred nautical miles. This was 1940's technology. During the 1960s, Gerald Bull's SRC organization and Naval Ordnance Station Indian Head successfully developed and fired a 745 pound sixteen-inch, eleven inch sabot projectile from gun # 275 (an ex U.S.S. Iowa Gun Tube) to a distance over forty nautical miles (NM). Using the test data, it proved that this projectile had a max range of over fifty nautical miles. All of these accomplishments were achieved on a shoestring budget and manufactured in laboratory conditions similar to a backyard garage.

With Bull's ammunition, for instance, US Naval destroyers and battleships could cruise miles off the shore of North Vietnam, destroying the best Russian-made shore batteries without any fear of artillery retaliation. Bull's Space Research Corporation was manufacturing the necessary long-range shells in Canada, but his lack of American citizenship was a hindrance in the Pentagon arms trade. Such was Bull's perceived strategic importance that this hindrance was neatly avoided; with the sponsorship of Senator Barry Goldwater, Bull became an American citizen by act of Congress [Private Law 92-152 21 October 1972]. This procedure was a rare honor, previously reserved for Winston Churchill and the Marquis de Lafayette. Despite this Senatorial fiat, however, the Navy arms deal eventually fell through.

Gerald Bull and Naval Ordnance Station Indian Head tested an 11 inch (280 mm) sub-caliber saboted long-range round in a stretched 16"/45 caliber Mark 6 gun in 1967. The 203 mm 8"/55 caliber Mark 71 gun was the US Navy's Major Caliber Lightweight Gun (MCLWG) program. The system was designed and tested in 1975 but the program was terminated in 1978.

Space Research Corporation

Although the US Navy scorned Bull's wares, others were not so short-sighted. Disappointed, Bull went on to establish his own company to sell artillery wares to nations around the globe -- Britain, Italy, Egypt, Israel, Australia, Angola, South Africa, and to both sides during the Iran-Iraq War of the 1980's.

SRC's first major sales success was the sale of 50,000 "Extended Range, Full Bore" (ERFB) shells to Israel in 1973 for use in American-supplied artillery pieces. Bull's extended-range ammunition, and the murderously brilliant cannon that he designed to fire it, found ready markets in Egypt, Israel, Holland, Italy, Britain, Canada, Venezuela, Chile, Thailand, Iran, South Africa, Austria and Somalia. Bull created a private reserve on the Canadian- American border; a private arms manufactury with its own US and Canadian customs units. This arrangement was very useful, since the arms-export laws of the two countries differed, and SRC's military products could be shipped-out over either national border at will. In this distant enclave on the rural northern border of Vermont, the arms genius built his own artillery range, his own telemetry towers and launch-control buildings, his own radar tracking station, workshops, and machine shops. At its height, the Space Research Corporation employed over three hundred people at this site, and boasted some $15 million worth of advanced equipment.

The downfall of HARP had left Bull disgusted with the government-supported military-scientific establishment. He referred to government researchers as "clowns" and "cocktail scientists," and decided that his own future must lay in the vigorous world of free enterprise. Instead of exploring the upper atmosphere, Bull dedicated his ready intelligence to the refining of lethal munitions. Bull would not sell to the Soviets or their client states, whom he loathed; but he would sell to most anyone else.

Starting in 1975, Bull designed a new gun based on the common US 155/39 M109 howitzer, extending it slightly to 45 calibre through modifications that could be applied to existing weapons, calling the resulting weapon the GC-45 howitzer. Bull's cannon are credited with being of great help to Jonas Savimbi's UNITA war in Angola; they were also extensively used by both sides in the Iran-Iraq war. Dr. Gerald V. Bull, Space Researcher, had become a professional arms dealer. Bull was not a stellar success as an arms dealer, because by all accounts he had no real head for business. Like many engineers, Bull was obsessed not by entrepreneurial drive, but by the exhilirating lure of technical achievement. The atmosphere at Space Research Corporation was, by all accounts, very collegial; Bull as professor, employees as cherished grad-students. Bull's employees were fiercely loyal to him and felt that he was brilliantly gifted and could accomplish anything. SRC was never as great a commercial success as Bull's technical genius merited.

Downfall

In the late 1970s, the CIA encouraged Bull to build a new gun for the South Africans, despite the U.S. arms embargo. U.S. policy on arms sales changed dramatically with the assumption of office of Jimmy Carter in 1977. Bull stumbled badly in 1980. As a result of a change in its foreign policy, the U.S. government took a second look at Bull's questionable business, declared it illegal, took him to court and sentenced him to jail. The Space Research Corporation, Dr. Gerald V. Bull, President, and Rogers L. Gregory, Vice President, of the corporation, pleaded guilty to an information charging them with the exportation of 155 MM artillery, 155 MM projectiles, and other weapons-related equipment from the United States to South Africa in violation of the Arms Export Control Act. The Carter Administration, annoyed by Bull's extensive deals with the South African military, put Bull in prison for customs violation. This punishment, rather than bringing Bull "to his senses," affected him traumatically.

The Department of Justice (DOJ) supervised aninvestigation by the U.S. Attorney in Vermont of alleged violations of the Arms Export Control Act by certain organizations and individuals. Bull had "substantial contact" with the CIA during the time the alleged offenses were committed. This case, in essence, involved the exportation by the Space Research Corporation, located in NorthTroy, Vermont, of approximately fifty thousand 155 mmartillery shells, two artillery control radar vans, eight 155 mm "Long Tom" artillery barrels, and related technicaldata, from the United States to Canada and then, by way ofAntigua or Spain, to South Africa, in 1976 through 1978.

It was alleged by the attorney for Dr. Gerald V. Bull and Rogers L. Gregory that both men have had contacts withthe CIA, and that some of these contacts were made during the period of the alleged illegal activities involved in this case. These contacts were supposedly with "high levelofficials and offices" within the CIA, and specifically the Directorate of Operations, and an individual named Richard Bissell. It is also alleged that at the time the violations wereoccurring Intelligence Community agencies were aware ofthem. The attorney Bull also claimed that in the period of these alleged violations, 1976-1978, Intelligence Community agencies were aware that Israel obtained artillery shells from Space Research Corporation and diverted these shells and related materials to South Africa.

Bullspent six months in the Federal Correctional Complex, Allenwood, PA. SRC was declared bankrupt and liquidated. He felt strongly that he had been singled out as a political scapegoat to satisfy the hypocritical, left-leaning, anti- apartheid bureaucrats in Washington. Bull spent seven months in an American prison, reading extensively, and, incidentally, successfully re-designing the prison's heating-plant. Nevertheless, the prison experience left Bull embittered and cynical. Bull considered this a betrayal. He then departed from the company of legitimate emerpri es and began ro work for anyone who would pay him.

While still in prison, Bull was already accepting commercial approaches from the Communist Chinese, who proved to be among his most avid customers. After his American prison sentence ended, Bull abandoned his strange enclave in the US-Canadian border to work full-time in Brussels, Belgium. After his release in 1981 he moved to Europe, where he re-established the company as a consulting firm. Space Research Corporation was welcomed there, in Europe's foremost nexus of the global arms trade, a city where almost anything goes in the way of merchandising war.

Alas, Babylon

Gerard Bull was first contracted by the Iraqi government in 1981. They desperately needed artillery to out-range the enemy in the protracted Iran-Iraq War. The association allowed Bull to yet again seek sponsorship of a space-launch supergun. Sadam Hussein liked the idea, and Project Babylon was born. Throughout the 1980's Bull's dealings with Iraq had the covert approval of Western governments, who saw Iraq as a counterweight to revolutionary Iran. He designed two artillery pieces for the Iraqis: the 155 mm Al-Majnoonan, an updated version of the G5, and a similar set of adaptations applied to the 203 mm US M110 howitzer to produce the 210 mm Al-Fao with a maximum range of 56 km (35 mi) without base bleed. It appears the Al-Fao was not put into production.

In November 1987, Bull was contacted in Brussels by the Iraqi Embassy, and offered an all-expenses paid trip to Bagdad. From 1980 to 1989, during their prolonged, lethal, and highly inconclusive war with Iran, Saddam Hussein's regime had spent some eighty billion dollars on weapons and weapons systems. Saddam Hussein was especially fond of his Soviet-supplied "Scud" missiles, which had shaken Iranian morale severely when fired into civilian centers during the so-called "War of the Cities." To Saddam's mind, the major trouble with his Scuds was their limited range and accuracy, and he had invested great effort in gathering the tools and manpower to improve the Iraqi art of rocketry. The Iraqis had already bought many of Bull's 155-millimeter cannon from the South Africans and the Austrians, and they were most impressed. Thanks to Bull's design genius, the Iraqis actually owned better, more accurate, and longer-range artillery than the United States Army did.

Bull did not want to go to jail again, and was reluctant to break the official embargo on arms shipments to Iraq. He told his would-be sponsors so, in Bagdad, and the Iraqis were considerate of their guest's qualms. To Bull's great joy, they took his idea of a peaceful space cannon very seriously. "Think of the prestige," Bull suggested to the Iraqi Minister of Industry, and the thought clearly intrigued the Iraqi official.

The Israelis, in September 1988, had successfully launched their own Shavit rocket into orbit, an event that had much impressed, and depressed, the Arab League. Bull promised the Iraqis a launch system that could place dozens, perhaps hundreds, of Arab satellites into orbit. *Small* satellites, granted, and unmanned ones; but their launches would cost as little as five thousand dollars each. Iraq would become a genuine space power; a minor one by superpower standards, but the only Arab space power. And even small satellites were not just for show. Even a minor space satellite could successfully perform certain surveillance activities.

The American military had proved the usefulness of spy satellites to Saddam Hussein by passing him spysat intelligence during worst heat of the Iran-Iraq war. The Iraqis felt they would gain a great deal of widely applicable, widely useful scientific knowledge from their association with Bull, whether his work was "peaceful" or not. After all, it was through peaceful research on Project HARP that Bull himself had learned techniques that he had later sold for profit on the arms market.

The design of a civilian nose-cone, aiming for the stars, is very little different from that of one descending with a supersonic screech upon sleeping civilians in London. For the first time in his life, Bull found himself the respected client of a generous patron with vast resources -- and with an imagination of a grandeur to match his own. By 1989, the Iraqis were paying Bull and his company five million dollars a year to redesign their field artillery, with much greater sums in the wings for "Project Babylon" -- the Iraqi space-cannon. Bull had the run of ominous weapons bunkers like the "Saad 16" missile-testing complex in north Iraq, built under contract by Germans, and stuffed with gray-market high-tech equipment from Tektronix, Scientific Atlanta and Hewlett- Packard. Project Babylon was Bull's grandest vision, now almost within his grasp. The Iraqi space-launcher was to have a barrel five hundred feet long, and would weigh 2,100 tons. It would be supported by a gigantic concrete tower with four recoil mechanisms, these shock- absorbers weighing sixty tons each. The vast, segmented cannon would fire rocket-assisted projectiles the size of a phone booth, into orbit around the Earth.

In August 1989, a smaller prototype, the so-called "Baby Babylon," was constructed at a secret site in Jabal Hamrayn, in central Iraq. "Baby Babylon" could not have put payloads into orbit, but it would have had an international, perhaps intercontinental range. The prototype blew up on its first test-firing. The Iraqis continued undaunted on another prototype super- gun, but their smuggling attempts were clumsy. Bull himself had little luck in maintaining the proper discretion for a professional arms dealer, as his own jailing had proved. When flattered, Bull talked; and when he talked, he boasted. Word began to leak out within the so-called "intelligence community" that Bull was involved in something big; something to do with Iraq and with missiles. Word also reached the Israelis, who were very aware of Bull's scientific gifts, having dealt with him themselves, extensively.

The Iraqi space cannon would have been nearly useless as a conventional weapon. Five hundred feet long and completely immobile, it would have been easy prey for any Israeli F-15. It would have been impossible to hide, for any launch would thrown a column of flame hundreds of feet into the air, a blazing signal for any spy satellite or surveillance aircraft. The Babylon space cannon, faced with determined enemies, could have been destroyed after a single launch. However, that single launch might well have served to dump a load of nerve gas, or a nuclear bomb, onto any capital in the world.

Possibly Bull wanted Project Babylon to be entirely peaceful; despite his rationalizations, he was never entirely at ease with military projects. What Bull truly wanted from his Project Babylon was *prestige.* He wanted the entire world to know that he, Jerry Bull, had created a working space program, more or less all by himself. He had never forgotten what it meant to world opinion to hear the Sputnik beeping overhead.

For Saddam Hussein, Project Babylon was more than any merely military weapon: it was a *political* weapon. The prestige Iraq might gain from the success of such a visionary leap was worth any number of mere cannon-fodder batallions. It was Hussein's ambition to lead the Arab world; Bull's cannon was to be a symbol of Iraqi national potency, a symbol that the long war with the Shi'ite mullahs had not destroyed Saddam's ambitions for transcendant greatness. The Israelis, however, had already proven their willingness to thwart Saddam Hussein's ambitions by whatever means necessary. In 1981, they had bombed his Osirak nuclear reactor into rubble. In 1980, a Mossad hit-team had cut the throat of Iraqi nuclear scientist Yayha El Meshad, in a Paris hotel room.

On 22 March 1990, Dr. Bull was surprised at the door of his Brussels apartment. He was shot five times, in the neck and in the back of the head, with a silenced 7.65 millimeter automatic pistol. Reuters reported that $20,000 in cash was left untouched in his pocket, leading investigators to believe that he was slain for reasons other than robbery. The fatal shooting was reminiscent of the 1980 killing of an Egyptian-born scientist in Iraq's nuclear program, Yahia Meshad, in a Paris hotel room. At the time, state-run Israel Radio said that his death would set back Iraq's nuclear program by two years.

His assassin has never been found. Some say it was an Israeli intelligence operative, but no one knows for sure. The Western world, at least publicly, appeared to have little interest in clearing up the mystery of his death.

It is commonly thought that he was killed by the Israelis, concerned not so much by the supergun work but rather dynamics research Bull was doing to improve Iraqi ballistic missiles. Three weeks later British Customs seized the final eight sections of the Babylon Gun. On August 2, 1990, Iraq invaded Kuwait, precipitating the Gulf War. This ended Western covert sponsorship of Iraq.

The Fist of God by Fredrick Forsyth is set in the days before the first Gulf War, and starts with the bizarre (mostly true) story of Gerald Bull, the artillery genius. Forsyth is an excellent craftsman, characters are drawn with a deft hand, the story is well plotted and fits history well. The background of this espionage thriller is eerily prescient, in light of current events.




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