The use of the Moon as a
passive communications
satellite was proposed by
W.J. Bray of the British
General Post Office in 1940. It was calculated that with the available
microwave transmission powers and
low-noise receivers, it would be possible to beam
microwave signals up from Earth and
reflect them off the Moon. It was thought that at least one voice
channel would be possible. Radar reflections off the moon were received and recognized as such in 1943 during German experiments with radio measurement equipment, as reported by Dr. Ing. W. Stepp in
Der Seewart magazine. Stepp noted a "perturbation", which "appeared, had a duration of several impulses, and larger impulse strength than the strongest nearby targets. It didn't appear until about two seconds after switching on the transmitter and disappeared (pulsatingly) correspondingly later after switching it off. But the rest of the echo image appeared and disappeared at the instance of switching the transmitter on/off. The 'perturbation' only occurred when the antenna was aimed to the east, and it disappeared immediately upon a major change of direction, but reappeared only about two seconds after rotating back to the original direction. Apparently we had detected the rising moon behind the clouds with the equipment. It explained the gradual disappearance of the impulses by the reflecting body slowly moving out of the strongly focussed, horizontally aimed beam, as it rises above the horizon." It was not until the close of
World War II, however, that techniques specifically intended for the purpose of bouncing radar waves off the moon to demonstrate their potential use in defense, communication, and
radar astronomy were developed. The first successful attempt was carried out at
Fort Monmouth, New Jersey, on January 10, 1946, by a group code-named
Project Diana, headed by
John H. DeWitt. It was followed less than a month later, on February 6, 1946, by a second successful attempt, by a Hungarian group led by
Zoltán Bay. The
Communication Moon Relay project that followed led to more practical uses, including a
teletype link between the naval base at
Pearl Harbor,
Hawaii and
United States Navy headquarters in
Washington, D.C. In the days before
communications satellites, a link free of the volatility and problems of
ionospheric propagation was revolutionary. The development of
communication satellites in the 1960s made this technique obsolete. However,
radio amateurs took up EME communication as a hobby; the first
amateur radio moon bounce communication took place in 1953, and amateurs worldwide still use the technique.
Radio ham Ray Noughton (VK3ATN) of
Birchip, Victoria, Australia accomplished Australia's first moon bounce with a home-built 250 m wide, 30 m antenna with a 100 watt signal in 1970. (NASA scientists, having had ridiculed his
DIY project, claiming that at least a kilowatt would be required, invited him to the U.S., all expenses paid, to learn from his grassroots engineering. Naughton later became involved in Australia's first satellite,
Australis-OSCAR 5). The effect has even been put to artistic use. Composer
Pauline Oliveros used moonbounce in her 1987 work
Echoes from the Moon, and in 2024 German musician
Hainbach experimented with moonbounce and created an
audio plug-in to reproduce the effect. == Current EME communications ==