Project BAMBI is intended to be a subpage of "United States National Missile Defense".
At the end of the second world war, the United States and the Soviet Union began confiscating various German intellectual property for use by their own countries. Among these plans were the plans for intercontinental ballistic missiles that arrived in New York in 1946. The Pentagon spent the next several decades studying and developing both ICBM's and anti-ICBM technology. [1]
In the early 1950’s, both the United States and the Soviet Union were capable of waging nuclear war, but not without inviting retaliatory strikes. At the time, nuclear equipped aerial bombs carried by strategic bomber were the only means of deploying a nuclear strike on another country. In order to prevent nuclear attacks of this nature, the United States army developed Project Nike. The missiles designed by Project Nike were intended to intercept the nuclear armed enemy aircraft before they were able to drop their payload. [2]
On May 15 of 1957, the Soviet Union launched the world's first ICBM, the R-7. In response, the United States launched their test model ICBM, Atlas A, in June of the same year. Although both of these ICBM’s had less than stellar performances, the technology to wage war around the world using nuclear tipped warheads was now on the horizon. [1]
Two years after the start of the space race, the Soviet Union revolutionized the world of atomic defense with the successful launch of the world's first artificial satellite, Sputnik, on October 4, 1957. [1] The United States quickly realized that by employing this satellite technology, the Soviet Union could potentially deploy nuclear tipped ICBMs from orbit, where they would be poised to perform highly accurate nuclear strikes. A United States missile defense program, the Advanced Research Projects Agency (ARPA), was established in early 1958 in an effort to minimize this new threat. [1]
The first project undertaken by the ARPA was Project Defender, which had the primary goal of finding a defense against these ballistic missiles. Almost immediately, the ARPA retrofitted the now defunct Nike missiles into Nike-Zeus missiles that were meant to intercept incoming Soviet ICBMs as they reentered the atmosphere and before they could reach their intended targets. As testing of these Nike-Zeus missiles continued, those working on the Project Defender sought a simpler solution to the issue of these space-faring ICBMs. [2]
By 1960, the idea of space-based interceptors (SBI’s) seemed a far more practical solution. These SBI’s were envisioned to be capable of boost phase killing and became collectively known as the ballistic missile boost intercept (BAMBI) ABM systems. One of the most notable of the proposed BAMBI systems was the space patrol active defense (SPAD). This was a network of 500 satellites capable of detecting boost plumes with onboard infrared scanners that would then launch several interceptors along a track mapped by an onboard computer. These interceptors were designed to deploy a wire web with a radius ranging from 15 to 50 feet that were adorned with 1 gram pellets at each intersection of the net. These nets would then collide with the detected ICBM during its climb through the atmosphere, shred the fuel tanks of the booster and cause catastrophic damage to the ICBM. [1] BAMBI had a projected annual operational deployment and operation cost of 50 billion dollars. [3] Although sound in theory, the high price tag and a lack of the necessary technology in 1960 prevented this BAMBI system from being developed. Project BAMBI continued to explore other SBI options and workarounds for another 3 years before being cancelled in May 1963 under the Kennedy administration who wanted to avoid deploying a network of nuclear satellites in space after the Cuban Missile Crisis. [4]
In August 1963, the United States, the Soviet Union, and more than 100 other countries signed the Limited Test Ban Treaty which prohibited nuclear testing in space, the atmosphere, or underwater. In December of that same year, the UN adopted a resolution that established a set of general rules for the use of space. It required nations to receive approval from international consultants before they could interfere with the peaceful use of space but it did not ban the development and use of military satellites. Using this loophole, the United States and the Soviet Union were able to retain the bulk of their space programs that had been largely built around satellite deployments. [1] Four years later, in 1967, the Outer Space Treaty was signed by 66 nations and prohibited the passive orbiting of nuclear weapons. [3]
The United States missile defense program (and Project BAMBI) found new life in 1983 with the announcement of the Strategic Defense Initiative (SDI) by President Ronald Reagan during his “Star Wars” speech. [4] The SDI office was limited by the ABM Treaty and the 1974 protocol to a single, central, missile defense site with only 100 interceptors and were prevented from deploying space based missile defense systems. [1] To get around these restrictions, the SDI considered several options like a patrol of manned space fighters and a resurrection of project BAMBI. This new iteration of BAMBI (dubbed Smart Rocks was proposed by the military advisor to Ronald Reagan, Daniel Graham, and would utilize battle stations low in earth's orbit and air to air missiles. Similar to the SBI’s of the BAMBI project, these battle stations would also detect ICBMs by their infrared plume and intercept the ICBMs via collision. Other options of the time were the X-ray lasers of Project Excalibur. Although the Smart Rocks system was initially ignored, after the failed tests of Project Excalibur in 1986, the United States Secretary of Defense, Caspar Weinberger, requested an updated version of Smart Rocks. [5]
The new ballistic missile defense Brilliant Pebbles would eventually become the chief weapons system of the Strategic Defense System (SDS). [5] With the passing of the missile defense act of 1991 and the collapse of the Soviet Union at the end of that same year, it became apparent that SDI would not be able to demonstrate the effectiveness of the Brilliant Pebbles technology because the need for the SDS in general had passed. SDI became the Ballistic Missile Defense Organization (BMDO) in an attempt to salvage their usefulness, but President Bill Clinton cancelled the project in 1993 only for it to be revived by President Bush in 2002 under the new name, the Missile Defense Agency (MDA). [1]
Under the MDA, space probe Clementine was equipped with 23 of the missile defense technologies derived from the Brilliant Pebbles and ultimately from project BAMBI in order to protect the probe. All 23 of these missile defense technologies were found to be successful. Shortly after, the MDA was reorganized into the Ballistic Missile Defense System (BMDS) and President Bush withdrew the United States from the ABM treaty. [1] Despite this release from the ABM treaty, space-based missile defense programs have yet to be employed by any successive administration. The BAMBI technology was proven to be successful thanks to the Clementine probe but, for now, has been largely forgotten like much of the other space-based missile defense technology. [1]
An anti-ballistic missile (ABM) is a surface-to-air missile designed to counter ballistic missiles. Ballistic missiles are used to deliver nuclear, chemical, biological, or conventional warheads in a ballistic flight trajectory. The term "anti-ballistic missile" is a generic term conveying a system designed to intercept and destroy any type of ballistic threat; however, it is commonly used for systems specifically designed to counter intercontinental ballistic missiles (ICBMs).
The Anti-Ballistic Missile Treaty (1972—2002) was an arms control treaty between the United States and the Soviet Union on the limitation of the anti-ballistic missile (ABM) systems used in defending areas against ballistic missile-delivered nuclear weapons. Under the terms of the treaty, each party was limited to two ABM complexes, each of which was to be limited to 100 anti-ballistic missiles.
An intercontinental ballistic missile (ICBM) is a missile with a minimum range of 5,500 kilometres (3,400 mi) primarily designed for nuclear weapons delivery. Similarly, conventional, chemical, and biological weapons can also be delivered with varying effectiveness, but have never been deployed on ICBMs. Most modern designs support multiple independently targetable reentry vehicles (MIRVs), allowing a single missile to carry several warheads, each of which can strike a different target. Russia, the United States, China, France, India, the United Kingdom, and North Korea are the only countries that have operational ICBMs.
The Strategic Defense Initiative (SDI), derisively nicknamed the "Star Wars program", was a proposed missile defense system intended to protect the United States from attack by ballistic strategic nuclear weapons. The concept was announced on March 23, 1983 by President Ronald Reagan, a vocal critic of the doctrine of mutually assured destruction (MAD), which he described as a "suicide pact". Reagan called upon American scientists and engineers to develop a system that would render nuclear weapons obsolete.
Anti-satellite weapons (ASAT) are space weapons designed to incapacitate or destroy satellites for strategic or tactical purposes. Several nations possess operational ASAT systems. Although no ASAT system has yet been utilised in warfare, a few countries have successfully shot down their own satellites to demonstrate their ASAT capabilities in a show of force.
National missile defense (NMD) is a generic term for a type of missile defense intended to shield an entire country against incoming missiles, such as intercontinental ballistic missile (ICBMs) or other ballistic missiles.
Missile defense is a system, weapon, or technology involved in the detection, tracking, interception, and destruction of attacking missiles. Conceived as a defense against nuclear-armed intercontinental ballistic missiles (ICBMs), its application has broadened to include shorter-ranged non-nuclear tactical and theater missiles.
The Safeguard Program was a U.S. Army anti-ballistic missile (ABM) system designed to protect the U.S. Air Force's Minuteman ICBM silos from attack, thus preserving the US's nuclear deterrent fleet. It was intended primarily to protect against the very small Chinese ICBM fleet, limited Soviet attacks and various other limited-launch scenarios. A full-scale attack by the Soviets would easily overwhelm it. It was designed to allow gradual upgrades to provide similar lightweight coverage over the entire United States over time.
Brilliant Pebbles was a ballistic missile defense (BMD) system proposed by Lowell Wood and Edward Teller of the Lawrence Livermore National Laboratory (LLNL) in 1987, near the end of Cold War. The system would consist of thousands of small missiles, not unlike conventional heat seeking missiles, which would be placed in orbits so that hundreds would be above the Soviet Union at all times. If the Soviets launched its ICBM fleet, the pebbles would detect their rocket motors using infrared seekers and collide with them. Because the pebble strikes the ICBM before the latter could release its warheads, each pebble could destroy several warheads with one shot.
In anti-ballistic missile (ABM) defence the cost-exchange ratio is the ratio of the incremental cost to the aggressor of getting one additional warhead through the defence screen, divided by the incremental cost to the defender of offsetting the additional missile. For instance, a single new ICBM might require a single new ABM to counter it, and if they both cost the same, the cost-exchange ratio would be 1:1.
The Reykjavík Summit was a summit meeting between U.S. President Ronald Reagan and General Secretary of the Communist Party of the Soviet Union Mikhail Gorbachev, held in Reykjavík, Iceland, on 11–12 October 1986. The talks collapsed at the last minute, but the progress that had been achieved eventually resulted in the 1987 Intermediate-Range Nuclear Forces Treaty between the United States and the Soviet Union.
The militarisation of space involves the placement and development of weaponry and military technology in outer space. The early exploration of space in the mid-20th century had, in part, a military motivation, as the United States and the Soviet Union used it as an opportunity to demonstrate ballistic-missile technology and other technologies having the potential for military application. Outer space has since been used as an operating location for military spacecraft such as imaging and communications satellites, and some ballistic missiles pass through outer space during their flight. As of 2019 known deployments of weapons stationed in space include only the Almaz space-station armament and pistols such as the TP-82 Cosmonaut survival pistol.
Nuclear weapons delivery is the technology and systems used to place a nuclear weapon at the position of detonation, on or near its target. Several methods have been developed to carry out this task.
The LIM-49 Spartan was a United States Army anti-ballistic missile, designed to intercept attacking nuclear warheads from Intercontinental ballistic missiles at long range and while still outside the atmosphere. For actual deployment, a five-megaton thermonuclear warhead was planned to destroy the incoming ICBM warheads. It was part of the Safeguard Program.
The Sprint was a two-stage, solid-fuel anti-ballistic missile (ABM), armed with a W66 enhanced-radiation thermonuclear warhead used by the United States Army. It was designed to intercept incoming reentry vehicles (RV) after they had descended below an altitude of about 60 kilometers, where the thickening air stripped away any decoys or radar reflectors and exposed the RV to observation by radar. As the RV would be traveling at about 5 miles (8.0 km) per second, Sprint had to have phenomenal performance to achieve an interception in the few seconds before the RV reached its target.
Nike Zeus was an anti-ballistic missile (ABM) system developed by the US Army during the late 1950s and early 1960s that was designed to destroy incoming Soviet intercontinental ballistic missile warheads before they could hit their targets. It was designed by Bell Labs' Nike team, and was initially based on the earlier Nike Hercules anti-aircraft missile. The original, Zeus A, was designed to intercept warheads in the upper atmosphere, mounting a 25 kiloton W31 nuclear warhead. During development, the concept changed to protect a much larger area and intercept the warheads at higher altitudes. This required the missile to be greatly enlarged into the totally new design, Zeus B, given the tri-service identifier XLIM-49, mounting a 400 kiloton W50 warhead. In several successful tests, the B model proved itself able to intercept warheads, and even satellites.
Sentry, known for most of its lifetime as LoADS for Low Altitude Defense System, was a short-range anti-ballistic missile (ABM) design made by the US Army during the 1970s. It was proposed as a defensive weapon that would be used in concert with the MX missile, a US Air Force ICBM that was under development.
Swarmjet was an extremely short-range single-shot anti-ballistic missile (ABM) system proposed by the United States as a defensive measure during the development of the MX missile. It consisted of a launcher containing thousands of spin-stabilized unguided rockets that would be fired into the path of an enemy nuclear warhead, enough that it would be highly likely one of the rockets would hit the warhead and destroy it.
The Exoatmospheric Reentry-vehicle Interceptor Subsystem, or ERIS, program, was a component of the United States' Strategic Defense Initiative during the Cold War. The ERIS system was named after Eris, Greek goddess of strife. ERIS was a kinetic kill system, launched from a ground-based system, and impacting directly to destroy an incoming Intercontinental ballistic missile (ICBM) before the targeted ICBM re-entered the Earth's atmosphere.
Prim–Read theory, or Prim–Read defense, was an important development in game theory that led to radical changes in the United States' views on the value of anti-ballistic missile (ABM) systems. The theory assigns a certain cost to deploying defensive missiles and suggests a way to maximize their value in terms of the amount of damage they could reduce. By comparing the cost of various deployments, one can determine the relative amount of money needed to provide a defense against a certain number of ICBMs.