In response to Andrew Jarosh's post on Sept. 25th, of how Bin Laden (or others) will have to make sure that the U.S. is INCAPABLE of ever retaliating when they do strike again... I would like to offer up this scenario from a speech delivered on May 24, 2005 by Frank Gaffney Jr. at a Hillsdale College National Leadership Seminar on the topic, "America's War Against Islamic Terrorism.""Watch ye therefore, and pray always, that ye may be accounted worthy to escape all these things that shall come to pass, and to stand before the Son of man" (Luke 21:36).
EMP: America’s Achilles’ Heel
Frank J. Gaffney, Jr.
President, Center for Security PolicyIf Osama bin Laden—or the dictators of North Korea or Iran—could destroy America as a twenty-first century society and superpower, would they be tempted to try? Given their track records and stated hostility to the United States, we have to operate on the assumption that they would. That assumption would be especially frightening if this destruction could be accomplished with a single attack involving just one relatively small-yield nuclear weapon—and if the nature of the attack would mean that its perpetrator might not be immediately or easily identified.
Unfortunately, such a scenario is not far-fetched. According to a report issued last summer by a blue-ribbon, Congressionally-mandated commission, a single specialized nuclear weapon delivered to an altitude of a few hundred miles over the United States by a ballistic missile would be “capable of causing catastrophe for the nation.” The source of such a cataclysm might be considered the ultimate “weapon of mass destruction” (WMD)—yet it is hardly ever mentioned in the litany of dangerous WMDs we face today. It is known as electromagnetic pulse (EMP).
How EMP Works
A nuclear weapon produces several different effects. The best known, of course, are the intense heat and over pressures associated with the fireball and accompanying blast. But a nuclear explosion also generates intense outputs of energy in the form of x- and gamma-rays. If the latter are unleashed outside the Earth’s atmosphere, some portion of them will interact with the upper atmosphere’s air molecules. This in turn will generate an enormous pulsed current of high-energy electrons that will interact with the Earth’s magnetic field. The result is the instantaneous creation of an invisible radio-frequency wave of uniquely great intensity —roughly a million-fold greater than that of the most powerful radio station.
The energy of this pulse would reach everything in line-of-sight of the explosion’s center point at the speed of light. The higher the altitude of the weapon’s detonation, the larger the affected terrestrial area would be. For example, at a height of 300 miles, the entire continental United States, some of its offshore areas and parts of Canada and Mexico would be affected. What is more, as the nuclear explosion’s fireball expands in space, it would generate additional electrical currents in the Earth below and in extended electrical conductors, such as electricity transmission lines. If the electrical wiring of things like computers, microchips and power grids is exposed to these effects, they may be temporarily or permanently disabled.
Estimates of the combined direct and indirect effects of an EMP attack prompted the Commission to Assess the Threat to the United States from Electromagnetic Pulse Attack to state the following in its report to Congress1:
The electromagnetic fields produced by weapons designed and deployed with the intent to produce EMP have a high likelihood of damaging electrical power systems, electronics, and information systems upon which American society depends. Their effects on dependent systems and infrastructures could be sufficient to qualify as catastrophic to the nation.
If it seems incredible that a single weapon could have such an extraordinarily destructive effect, consider the nature and repercussions of the three distinct components of an electromagnetic pulse: fast, medium and slow. The “fast component” is essentially an “electromagnetic shock-wave” that can temporarily or permanently disrupt the functioning of electronic devices. In twenty-first century America, such devices are virtually everywhere, including in controls, sensors, communications equipment, protective systems, computers, cell phones, cars and airplanes. The extent of the damage induced by this component of EMP, which occurs virtually simultaneously over a very large area, is determined by the altitude of the explosion.
The “medium-speed component” of EMP covers roughly the same geographic area as the “fast” one, although the peak power level of its electrical shock would be far lower. Since it follows the “fast component” by a small fraction of a second, however, the medium-speed component has the potential to do extensive damage to systems whose protective and control features have been impaired or destroyed by the first onslaught.
If the first two EMP components were not bad enough, there is a third one—a “slow component” resulting from the expansion of the explosion’s fireball in the Earth’s magnetic field. It is this “slow component”—a pulse that lasts tens of seconds to minutes—which creates disruptive currents in electricity transmission lines, resulting in damage to electrical supply and distribution systems connected to such lines. Just as the second component compounds the destructive impact of the first, the fact that the third follows on the first two ensures significantly greater damage to power grids and related infrastructure.
The EMP Threat Commission estimates that, all other things being equal, it may take “months to years” to bring such systems fully back online. Here is how it depicts the horrifying ripple effect of the sustained loss of electricity on contemporary American society:
Depending on the specific characteristics of the attacks, unprecedented cascading failures of our major infrastructures could result. In that event, a regional or national recovery would be long and difficult and would seriously degrade the safety and overall viability of our nation. The primary avenues for catastrophic damage to the nation are through our electric power infrastructure and thence into our telecommunications, energy, and other infrastructures. These, in turn, can seriously impact other important aspects of our nation’s life, including the financial system; means of getting food, water, and medical care to the citizenry; trade; and production of goods and services.
The recovery of any one of the key national infrastructures is dependent on the recovery of others. The longer the outage, the more problematic and uncertain the recovery will be. It is possible for the functional outages to become mutually reinforcing until at some point the degradation of infrastructure could have irreversible effects on the country’s ability to support its population.
Today’s strategic environment has changed dramatically from that of the Cold War, when only the Soviet Union and Communist China could realistically threaten an EMP attack on the United States. In particular, as the EMP Threat Commission put it:
The emerging threat environment, characterized by a wide spectrum of actors that include near-peers, established nuclear powers, rogue nations, sub-national groups, and terrorist organizations that either now have access to nuclear weapons and ballistic missiles or may have such access over the next 15 years, have combined to raise the risk of EMP attack and adverse consequences on the U.S. to a level that is not acceptable.
Worse yet, the Commission observed that “some potential sources of EMP threats are difficult to deter.” This is particularly true of “terrorist groups that have no state identity, have only one or a few weapons, and are motivated to attack the U.S. without regard for their own safety.” The same might be said of rogue states, such as North Korea and Iran. They “may also be developing the capability to pose an EMP threat to the United States, and may also be unpredictable and difficult to deter.” Indeed, professionals associated with the former Soviet nuclear weapons complex are said to have told the Commission that some of their ex-colleagues who worked on advanced nuclear weaponry programs for the USSR are now working in North Korea.
Even more troubling, the Iranian military has reportedly tested its Shahab-3 medium-range ballistic missile in a manner consistent with an EMP attack scenario. The launches are said to have taken place from aboard a ship—an approach that would enable even short-range missiles to be employed in a strike against “the Great Satan.” Ship-launched ballistic missiles have another advantage: The “return address” of the attacker may not be confidently fixed, especially if the missile is a generic Scud-type weapon available in many arsenals around the world. As just one example, in December 2002, North Korea got away with delivering twelve such missiles to Osama bin Laden’s native Yemen. And Al Qaeda is estimated to have a score or more of sea-going vessels, any of which could readily be fitted with a Scud launcher and could try to steam undetected within range of our shores.
The EMP Threat Commission found that even nations with whom the United States is supposed to have friendly relations, China and Russia, are said to have considered limited nuclear attack options that, unlike their Cold War plans, employ EMP as the primary or sole means of attack. Indeed, as recently as May 1999, during the NATO bombing of the former Yugoslavia, high-ranking members of the Russian Duma, meeting with a U.S. congressional delegation to discuss the Balkans conflict, raised the specter of a Russian EMP attack that would paralyze the United States.
America the Vulnerable
What makes the growing EMP attack capabilities of hostile (and potentially hostile) nations a particular problem for America is that, in the words of the EMP Threat Commission, “the U.S. has developed more than most other nations as a modern society heavily dependent on electronics, telecommunications, energy, information networks, and a rich set of financial and transportation systems that leverage modern technology.” Given our acute national dependence on such technologies, it is astonishing—and alarming—to realize that:
· Very little redundancy has been built into America’s critical infrastructure. There is, for example, no parallel “national security power grid” built to enjoy greater resiliency than the civilian grid.
· America’s critical infrastructure has scarcely any capacity to spare in the event of disruption—even in one part of the country (recall the electrical blackout that crippled the northeastern U.S. for just a few days in 2003), let alone nationwide.
· America is generally ill-prepared to reconstitute damaged or destroyed electrical and electricity-dependent systems upon which we rely so heavily.
These conditions are not entirely surprising. America in peacetime has not traditionally given thought to military preparedness, given our highly efficient economy and its ability to respond quickly when a threat or attack arises. But EMP threatens to strip our economy of that ability, by rendering the infrastructure on which it relies impotent.
In short, the attributes that make us a military and economic superpower without peer are also our potential Achilles’ heel. In today’s world, wracked by terrorists and their state sponsors, it must be asked: Might not the opportunity to exploit the essence of America’s strength—the managed flow of electrons and all they make possible—in order to undo that strength prove irresistible to our foes? This line of thinking seems especially likely among our Islamofascist enemies, who disdain such man-made sources of power and the sorts of democratic, humane and secular societies which they help make possible. These enemies believe it to be their God-given responsibility to wage jihad against Western societies in general and the United States in particular.
Calculations that might lead some to contemplate an EMP attack on the United States can only be further encouraged by the fact that our ability to retaliate could be severely degraded by such a strike. In all likelihood, so would our ability to assess against whom to retaliate. Even if forward-deployed U.S. forces were unaffected by the devastation wrought on the homeland by such an attack, many of the systems that transmit their orders and the industrial base necessary to sustain their operations would almost certainly be seriously disrupted.
The impact on the American military’s offensive operations would be even further diminished should units based outside the continental United States also be subjected to EMP. Particularly with the end of the Cold War, the Pentagon has been reluctant to pay the costs associated with shielding much of its equipment from electromagnetic pulses. Even if it had been more willing to do so, the end of underground nuclear testing in 1992 denied our armed forces their most reliable means of assessing and correcting the EMP vulnerabilities of weapon systems, sensors, telecommunications gear and satellites.
The military should also be concerned that although the sorts of shielding it has done in the past may be sufficient to protect against the EMP effects of traditional nuclear weapons designs, weapons optimized for such effects may well be able to defeat those measures. Without a robust program for assessing and testing advanced designs, we are unlikely to be able to quantify such threats—let alone protect our military hardware and capabilities against them.