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While the outcome of the current currency war is not yet certain, some version of the worst-case scenario is almost inevitable if U.S. and world economic leaders fail to learn from the mistakes of their predecessors. This book examines our current currency war through the lens of economic policy, national security and historical precedent. It untangles the web of failed paradigms, wishful thinking and arrogance driving current public policy and points the way toward a more informed and effective course of action. In the end, the reader will understand why the new currency war is the most meaningful struggle in the world today—the one struggle that determines the outcome of all others.

PART ONE

WAR GAMES

CHAPTER 1

Prewar

“The current international currency system is the product of the past.”

Hu Jintao,

General Secretary of the Communist Party of China,

January 16, 2011

The Applied Physics Laboratory, located on four hundred acres of former farmland about halfway between Baltimore and Washington, D.C., is one of the crown jewels of America’s system of top secret, high-tech applied physics and weapons research facilities. It operates in close coordination with the Department of Defense, and its specialties include advanced weaponry and deep space exploration. Lab officials are proud to tell visitors that the earth’s moon and every planet in the solar system has a device developed at APL either on its surface or passing nearby.

The Applied Physics Lab was set up in haste in 1942, shortly after the Pearl Harbor attack, to bring applied science to the problem of improving weaponry. Much of what the U.S. military was using in the early days of World War II was either obsolete or ineffective. The lab was originally housed in a former used-car dealership, requisitioned by the War Department, on Georgia Avenue in Silver Spring, Maryland. It operated in secrecy from the start, although in the early days the secrecy was enforced with just a few armed guards rather than the elaborate sensors and multiple security perimeters used today. APL’s first mission was to develop the variable time, or VT, proximity fuse, an antiaircraft fuse used to defend naval vessels from air attack, later regarded, along with the atomic bomb and radar, as one of the three greatest technology contributions to U.S. victory in World War II. Based on this initial success, APL’s programs, budget and facilities have been expanding ever since. The Tomahawk cruise missile, Aegis missile defense and one-of-a-kind spacecraft are among the many advanced weapons and space systems developed for the Defense Department and NASA by APL in recent decades.

In addition to weapons and space exploration, there has always been a strong intellectual and strategic side to what the Applied Physics Laboratory does for the military. Preeminent among these more abstract functions is the lab’s Warfare Analysis Laboratory, one of the leading venues for war games and strategic planning in the country. The lab’s proximity to Washington, D.C., makes it a favorite for war-fighting simulations and it has played host to many such games over the decades. It was for this purpose, the conduct of a war game sponsored by the Pentagon, that about sixty experts from the military, intelligence and academic communities arrived at APL on a rainy morning in the late winter of 2009. This war game was to be different from any other that had ever been conducted by the military. The rules of engagement prohibited what the military calls kinetic methods—things that shoot or explode. There would be no amphibious invasions, no special forces, no armored flanking maneuvers. Instead the only weapons allowed would be financial—currencies, stocks, bonds and derivatives. The Pentagon was about to launch a global financial war using currencies and capital markets instead of ships and planes.

At the dawn of the twenty-first century, U.S. military dominance in conventional and advanced high-tech weapons systems and in what the military calls 4CI, for command, control, communications,