After a period of intense anticipation and meticulous planning, the US military began developing an anti-ballistic missile (ABM) intended to intercept Soviet re-entry vehicles (RVs). This missile, known as the “Sprint,” was used by the US Army from 1975 to 1976, demonstrating an exceptional ability to reach extreme speeds almost instantly.
Although it initially showed promise, the ABM system was in service for only a brief time, as changing policies eventually led to its cancellation.
Last-ditch defensive strategy
Since the 1940s, the U.S. military has concentrated on creating weapons to intercept theater ballistic missiles (TBMs). In 1955, Bell Telephone Laboratories undertook this task, concluding that with specific modifications, the Nike Hercules surface-to-air missile (SAM) could be converted into an anti-ballistic missile.
Under Bell’s direction, work on the Nike Zeus began in 1955. This initiative spurred important advancements, including the development of sophisticated radar systems capable of detecting intercontinental ballistic missiles (ICBMs) at long distances, allowing for fast defensive responses. Additionally, the project drove improvements in computing technology, resulting in faster, more efficient systems.
By 1959, Nike Zeus tests were underway, and in 1962, a specialized testing site was established on Kwajalein Island. These trials showcased the weapon’s ability to intercept incoming missiles and target low-orbit satellites with precision, validating its effectiveness and operational potential.
Issues with the Nike Zeus
During the development of the Nike Zeus, it quickly became clear that the ABM system had several weaknesses that made it susceptible to potential defeat.
The system depended on 1950s-era mechanical radar, which limited its ability to track multiple targets simultaneously. Reports from that time indicated that four warheads could give a 90 percent chance of destroying a Nike Zeus base. Although this initially seemed like a manageable risk, the falling cost of ICBM production made it increasingly probable that the Soviet Union would consider using them against the United States.
As time passed, more issues emerged. After nuclear tests in space in 1958, it was discovered that radiation from warhead detonations could spread over vast areas, disrupting radar signals at altitudes above 60 km. A high-altitude explosion triggered by the Soviets above a Nike Zeus site could interfere with detection capabilities, making it too late for a counterattack.
Furthermore, the Soviets could place radar reflectors on their warheads, creating multiple false targets.
The Nike-X replaced the Nike Zeus
Following then-Secretary of Defense Neil H. McElroy’s directive, the Advanced Research Projects Agency (ARPA) undertook an investigation into pertinent issues. Their findings indicated that both high-altitude nuclear explosions and radar decoys lost effectiveness in the lower atmosphere due to thickening. To tackle this issue, the recommendation was to wait until the warhead descended below 60 km, allowing radar detection to resume.
However, a new challenge arose. The warheads, moving at Mach 24 speeds, required the deployment of equally high-speed missiles to intercept them before reaching their targets.
Consequentially, Secretary of Defense Robert McNamara, who succeeded McElroy, suggested to President John F. Kennedy that funds designated for the Nike Zeus project be reallocated toward advancing the ARPA’s system. His argument persuaded JFK, leading to the establishment of Nike-X.
Introducing the Sprint missile
The Sprint missile took center stage in the Nike-X program. Armed with a W66 thermonuclear warhead, its mission was to intercept re-entry vehicles (RVs) at a distance of 60 km.
Measuring 27 feet in length and weighing 7,500 pounds, the Sprint relied on a precise launch sequence. Initially housed in a silo, the missile was launched when its cover was blown off by an explosive-driven piston. Once airborne, it would adjust its trajectory toward the target, guided by ground-based radio command guidance. This tracked incoming RVs via phased array radar and led the missile to its destination, where it annihilated its target through neutron flux.
The Sprint’s performance was nothing short of remarkable. Engineered to accelerate at a staggering 100 g and reach Mach 10 in a mere five seconds, it operated at low altitudes where its skin temperature soared to 6,200 degrees Fahrenheit. To counter this, an ablative shield was employed, creating a distinct white glow around the missile as it traversed the sky.
Navigating through such extreme conditions necessitated powerful radio signals capable of penetrating the plasma enveloping the missile, ensuring precise guidance toward its intended target.
HIBEX missile
The High Boost Experiment (HIBEX) missile is considered a kind of predecessor to the Sprint missile, as well as its competitor. It was another high-acceleration missile designed in the early 1960s, and it actually provided a technological transfer to the Sprint development program.
Unlike the Sprint missile, the HIBEX had a high initial acceleration rate of nearly 400 g. Its role was to intercept RVs at an even lower altitude – as low as 20,000 feet. Unlike the Sprint, it featured a star-grain “composite modified double-base propellant” that was created by combining zirconium staples with aluminium, double-base smokeless powder and ammonium perchlorate.
Sprint II missile and the end of the Nike-X program
Over time, the Nike-X evolved into the Safeguard Program, prompting the Los Alamos National Laboratory to explore alternative warheads for a fresh design. Subsequently, efforts were directed toward enhancing the Sprint II missile.
By 1971, the Sprint II became an integral part of the Safeguard Program, serving as a protective measure for Minuteman missile fields. Its interceptor boasted a slightly reduced launch dispersion, compared to its predecessor, which enhanced hardness and minimized miss distance for improved accuracy.
Despite ongoing optimization efforts by Los Alamos to refine the design, the operational lifespan of both missiles was relatively brief.
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During the 1970s, shifts in the ABM policies of both the US and the Soviet Union raised doubts about the effectiveness of the Safeguard Program. It was deemed unnecessary and expensive, leading to its cancellation. The official discontinuation date is unclear, but reports persisted until 1977.
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