Early work There have been many earlier searches for extraterrestrial intelligence within the
Solar System. In 1896,
Nikola Tesla suggested that an extreme version of his wireless electrical transmission system could be used to contact beings on
Mars. In 1899, while conducting experiments at his
Colorado Springs experimental station, he thought he had detected a signal from Mars since an odd repetitive static signal seemed to cut off when Mars set in the night sky. Analysis of Tesla's research has led to a range of explanations including: • Tesla simply misunderstood the new technology he was working with, • that he may have been observing signals from Marconi's European
radio experiments, • and even speculation that he could have picked up naturally occurring radio noise caused by a moon of
Jupiter (
Io) moving through the
magnetosphere of Jupiter. In the early 1900s,
Guglielmo Marconi,
Lord Kelvin and
David Peck Todd also stated their belief that radio could be used to contact
Martians, with Marconi stating that his stations had also picked up potential Martian signals. On August 21–23, 1924, Mars entered an
opposition closer to Earth than at any time in the century before or the next 80 years. In the United States, a "National Radio Silence Day" was promoted during a 36-hour period from August 21–23, with all radios quiet for five minutes on the hour, every hour. At the
United States Naval Observatory, a radio receiver was lifted above the ground in a
dirigible tuned to a
wavelength between 8 and 9 km, using a "radio-camera" developed by
Amherst College and
Charles Francis Jenkins. The program was led by David Peck Todd with the military assistance of Admiral
Edward W. Eberle (
Chief of Naval Operations), with
William F. Friedman (chief
cryptographer of the United States Army), assigned to translate any potential Martian messages. A 1959 paper by
Philip Morrison and
Giuseppe Cocconi first pointed out the possibility of searching the
microwave spectrum. It proposed
frequencies and a set of initial targets. In 1960,
Cornell University astronomer
Frank Drake performed the first modern SETI experiment, named "
Project Ozma" after the
Queen of Oz in
L. Frank Baum's fantasy books. Drake used a radio telescope in diameter at
Green Bank, West Virginia, to examine the stars
Tau Ceti and
Epsilon Eridani near the 1.420
gigahertz marker frequency, a region of the radio spectrum dubbed the "
water hole" due to its proximity to the
hydrogen and
hydroxyl radical spectral lines. A 400 kilohertz band around the marker frequency was scanned using a single-channel receiver with a bandwidth of 100 hertz. He found nothing of interest.
Soviet scientists took a strong interest in SETI during the 1960s and performed a number of searches with
omnidirectional antennas in the hope of picking up powerful radio signals. Soviet astronomer
Iosif Shklovsky wrote the pioneering book in the field,
Universe, Life, Intelligence (1962), which was expanded upon by American astronomer
Carl Sagan as the best-selling book
Intelligent Life in the Universe (1966). In the March 1955 issue of
Scientific American,
John D. Kraus described an idea to scan the
cosmos for natural radio signals using a flat-plane radio telescope equipped with a parabolic
reflector. Within two years, his concept was approved for construction by
Ohio State University. With a total of
US$71,000 () in grants from the
National Science Foundation, construction began on an plot in
Delaware, Ohio. This Ohio State University Radio Observatory telescope was called "Big Ear". Later, it began the world's first continuous SETI program, called the Ohio State University SETI program. In 1971,
NASA funded a SETI study that involved Drake,
Barney Oliver of
Hewlett-Packard Laboratories, and others. The resulting report proposed the construction of an Earth-based radio telescope array with 1,500 dishes known as "
Project Cyclops". The price tag for the Cyclops array was US$10 billion. Cyclops was not built, but the report formed the basis of much SETI work that followed. The Ohio State SETI program gained fame on August 15, 1977, when
Jerry Ehman, a project volunteer, witnessed a startlingly strong signal received by the telescope. He quickly circled the indication on a printout and scribbled the exclamation "Wow!" in the margin. Dubbed the
Wow! signal, it is considered by some to be the best candidate for a radio signal from an artificial,
extraterrestrial source ever discovered, but it has not been detected again in several additional searches. On 24 May 2023, a test extraterrestrial signal, in the form of a "coded radio signal from Mars", was transmitted to radio telescopes on Earth, according to a report in
The New York Times.
Sentinel, META, and BETA In 1980,
Carl Sagan,
Bruce Murray, and
Louis Friedman founded the U.S.
Planetary Society, partly as a vehicle for SETI studies. The follow-on to META was named "BETA", for "Billion-channel Extraterrestrial Assay", and it commenced observation on October 30, 1995. The heart of BETA's processing capability consisted of 63 dedicated
fast Fourier transform (FFT) engines, each capable of performing a 222-point
complex FFTs in two seconds, and 21 general-purpose
personal computers equipped with custom
digital signal processing boards. This allowed BETA to receive 250 million simultaneous channels with a resolution of 0.5 hertz per channel. It scanned through the microwave
spectrum from 1.400 to 1.720 gigahertz in eight hops, with two seconds of observation per hop. An important capability of the BETA search was rapid and automatic re-observation of candidate signals, achieved by observing the sky with two adjacent beams, one slightly to the east and the other slightly to the west. A successful candidate signal would first transit the east beam, and then the west beam and do so with a speed consistent with
Earth's
sidereal rotation rate. A third receiver observed the horizon to veto signals of obvious terrestrial origin. On March 23, 1999, the 26-meter radio telescope on which Sentinel, META and BETA were based was blown over by strong winds and seriously damaged. This forced the BETA project to cease operation.
MOP and Project Phoenix s, and on the left is the number of Sun-like stars within this range. The vertical line labeled SS is the typical sensitivity achieved by a full sky search, such as BETA above. The vertical line labeled TS is the typical sensitivity achieved by a targeted search such as Phoenix. In 1978, the NASA SETI program had been heavily criticized by Senator
William Proxmire, and funding for SETI research was removed from the NASA budget by Congress in 1981; however, funding was restored in 1982, after
Carl Sagan talked with Proxmire and convinced him of the program's value. and canceled one year after its start.
Project Phoenix, under the direction of
Jill Tarter, was a continuation of the targeted search program from MOP and studied roughly 1,000 nearby
Sun-like stars until approximately 2015. From 1995 through March 2004, Phoenix conducted observations at the
Parkes radio telescope in
Australia, the radio telescope of the
National Radio Astronomy Observatory in Green Bank, West Virginia, and the radio telescope at the Arecibo Observatory in Puerto Rico. The project observed the equivalent of 800 stars over the available channels in the frequency range from 1200 to 3000 MHz. The search was sensitive enough to pick up transmitters with 1 GW
EIRP to a distance of about 200
light-years. == Ongoing radio searches ==