radar. The military wanted to learn whether long-range radar could be used to detect incoming ballistic missiles. Military planners were well aware of the damage the dreaded German V-1 and V-2 rockets had done to London during World War II and sought a way of preventing such destruction in the future. This was especially important since the military believed the former Soviet Union, an enemy of the U.S, would soon have long-range missiles and, possibly, nuclear weapons. The result was Project Diana, mankind’s first attempts at reaching beyond the ionosphere and the United State’s first foray into space.
The job was handed over to Colonel John DeWitt and his colleagues at the Evans Signal laboratory in Belmar, New Jersey. DeWitt was charged with the task of determining whether radar waves could penetrate the ionosphere. This was a crucial factor, because long-range missiles would arc into the ionosphere as they traveled toward their target. The best way to find out would be to bounce a signal off an object outside the earth’s ionosphere strong enough to return a signal back through it to the earth again. DeWitt, who had an interest in astronomy, chose the moon as the first distant target, and gave the program the name, Project Diana after the Greek goddess of the moon.
To address these challenges, DeWitt and his colleagues decided to generate a much longer radar pulse that lasted about a quarter of a second. This pulse was easier to detect than a shorter one. One of the few existing high-power radar sets capable of generating such a long pulse had been designed by Major Edwin H. Armstrong, a well-known radio researcher and developer of FM broadcasting. In fact, the radar frequency at which this set operated—111 MHz—was slightly higher than today’s FM broadcasting band in the U. S. (88-108 MHz). The researchers decided to use this set as the starting point for their project.
The first tests in December 1945 resulted in frustrating setbacks when vacuum tubes burned out, oscillator circuits refused to oscillate, and other equipment failed to work, or needed further modification. The equipment required a considerable redesign.
Historians often point to Project Diana as the beginning of the United States’ space program, and mankind’s first reach beyond the ionosphere to make contact with a non-terrestrial object. The feat excited the U.S public as well as the international technical community.