Late in 1944, as General George Patton's Third Army was moving toward Germany, he wrote a letter to the War Department describing the success his troops had experienced with a new artillery shell and fuze:

The new shell with the funny fuze is devastating. We caught a German battalion, which was trying to get across the Sauer River, with a battalion concentration and killed by actual count 702. I think that when all armies get this shell we will have to devise some new method of warfare. I am glad that you all thought of it first.1 The idea of a target-influenced fuze was not new; similar fuzes for bombs and rockets existed at the outbreak of World War II.2 But it was a fuze rugged enough to be fired from field artillery and antiaircraft weapons that had prompted Patton's letter. The fuze, developed largely by the Department of the Navy, has had significant effects on U.S. combat capabilities.

The proximity fuze functions as a small radio station in the shell's nose. The basic components are a vacuum tube (six inches long and three inches in diameter) a battery, and a radio transmitter and receiver; a small glass tube filled with electrolyte solution acts as the battery. After the shell is fired and begins rotating, centrifugal force pushes the solution to the outside of the tube, where a chemical reaction occurs with small pieces of metal surrounding the tube. This produces an electrical charge which in turn arms the shell and sends out a radio impulse traveling at the speed of light. The return signal, reflected from the target, detonates the shell prior to impact and produces the devastating effects.

Shells with proximity fuzes do not need to be set to a fixed time, which makes them far more effective than conventional time and contact fuzes.3

The Germans had been working on the concept as early as 1930; by 1939, the British were involved in research.4 It was the...