The late noted theoretical physicist and Institute for Advanced Study professor Freeman Dyson was also a longtime board member of the Space Studies Institute, founded by Gerard and Tasha O’Neill. The excerpts below are from a piece he wrote in 1993 for Physics Today and that was later republished on the SSI’s website:
Gerard O’Neill had three careers. As an experimental physicist, he invented and developed the technology of storage rings that is now the basis of all high energy particle accelerators. As a teacher and writer, he explored the possibilities of human settlement and industrial development on the Moon and in orbiting space colonies. As an entrepreneur, he founded several companies to develop new commercial technologies, ranging from a cheap satellite navigation system (Geostar) and a secure short-range office communication system (Lawn) to a high-speed train system (“VSE”).
O’Neill began his scientific education as a radar technician in the US Navy. He then went to Swarthmore College as an undergraduate and to Cornell University as a graduate student in physics. After earning his PhD in 1954, he came to the Princeton University physics department as an instructor. Two years later he published a letter in Physical Review entitled “Storage-Ring Synchrotron: Device for High-Energy Physics Research.” In two pages it laid down the path that high-energy physics has followed for the subsequent 36 years. If you read the letter now, you can see that almost everything in it is right. But it took a long time before most of us understood how right it was. O’Neill built a storage ring himself at Stanford to convince people that it was feasible.
By 1965, using the Stanford linear accelerator as the injector, he had storage rings running with large enough circulating currents to do the first colliding-beam physics experiment. The experiment was a measurement of electron-electron scattering at a center-of-mass energy, far higher than any fixed target experiment could achieve. After this demonstration that storage rings actually worked, high-energy physicists all over the world hastened to build their own.
With the benefit of hindsight we can find one serious mistake in O’Neill’s 1956 letter. He grossly underestimated the possible improvement of high-vacuum techniques: He claimed that a storage ring could hold a beam with a lifetime of a few seconds. If he had said hours instead of seconds, nobody would have believed him. It took 20 years before storage rings with lifetimes measured in hours became routine. By that time, having taught the world how to do high-energy physics, O’Neill had moved on to other things.
In 1965 O’Neill became a full professor at Princeton, where he remained until his retirement in 1985. He enjoyed teaching and devoted much of his time and energy to doing the job well. In 1969 he was responsible for teaching Physics 103-104, the basic introductory physics courses. He decided to reform the courses radically, replacing the traditional problem exercises with “learning guides,” which led the students step by-step to a deeper understanding of what they were doing. The reform was an immediate success.
When O’Neill was concocting problems to put into his first learning guides, the students had recently been watching the Apollo missions on television, and so he emphasized applications of elementary physics to people and things in orbit and on the Moon. These orbital problems were popular with the students. At the end of the term, O’Neill asked the class to write a term paper about a human habitat in space, calculating the requirements of mass and energy and propulsion for a viable settlement. The students responded enthusiastically to this too.
After reading the term papers, O’Neill was infected with their enthusiasm and wrote a paper of his own, “The Colonization of Space,” which was published in 1974 in Physics Today. Thereafter, space colonies remained one of his main interests. In 1978 he and his wife, Tasha, founded the Space Studies Institute, a privately funded organization that supports technical research on the science and engineering of space activities. The institute successfully built a working model of a mass driver, a device invented by O’Neill for cheap and efficient movement of materials from the Moon or an asteroid into orbit.
It was characteristic of O’Neill to combine far-reaching visions with practical work in the machine shop. All his inventions, whether in high-energy physics, space technology or high-speed trains, were worked out in real hardware models with meticulous attention to detail. When, as usually happened, experts in the fields that O’Neill invaded raised objections to his ideas, he had always thought of the objections first and found ways to answer them. Some of his commercial ventures failed for financial and political reasons. Not one of his inventions failed for technical reasons.
O’Neill founded the Space Studies Institute with the intention of introducing a new style into the world of space technology. His purpose was to organize small groups of people to develop the tools of space exploration independently of governments and to prove that private groups could get things done enormously cheaper and quicker than government bureaucracies. And to bring his vision of the free expansion of mankind into space to a wider public, O’Neill wrote books.
His first book, “The High Frontier” (William Morrow, 1977) has been translated into many languages. It established O’Neill as spokesman for the people in many countries who believe that the settlement of space can bring tremendous benefits to humanity and that this is too important a business to be left in the hands of national governments. In 1985 the US government recognized his status as an advocate of the private sector by inviting him to serve on the National Commission on Space.
O’Neill’s third career, as an entrepreneur, began with the Geostar project in 1983 and was in full swing up to the day of his death. His final venture, the high-speed train system, which he called VSE (for velocity, silence, efficiency), was started during his last six months. The basic idea of VSE is to build a train network like a telephone network, with all trips non-stop, the stations widely distributed, and the switching system transparent to the users. Unlike other high-speed train systems, VSE is designed to outperform commercial airlines-in velocity by a factor of 5, in silence by a factor of 100, in efficiency by a factor of 10. Like other O’Neill inventions, it will have to wait a long time before the world discovers how sensible it is.
I was privileged to be a close friend of two great men, Richard Feynman and Gerard O’Neill. I was often struck by the deep similarity of their characters, in spite of many superficial differences. Both were indefatigable workers, taking infinite trouble to get the details right. Both were effective and enthusiastic teachers. Both were accomplished showmen, good at handling a crowd. Both had good rapport with ordinary people and abhorred pedants and snobs. Both were uncompromisingly honest. Both were outsiders in their own profession, unwilling to swim with the stream. Both stood up against the established wisdom and were proved right. Both fought a fatal illness for the last seven years of their lives. Both had spirits that grew stronger as their physical strength decayed.
Gerard O’Neill died on 27 April 1992, after losing a seven-year battle with leukemia. Like Richard Feynman in similar circumstances, he worked and pursued new adventures until a few days before his death. He accomplished more in the years after he became sick than most of us accomplish in a lifetime.