U-235 and plutonium may be used either in weapons or as fuels for peacetime reactors. Here is the reason most frequently cited for requiring that international control include not only inspection but also such further guaranties as United Nations ownership, operation, and management of “dangerous” plants. The potentiality, both for good and evil, that characterizes fissionables does not appear to characterize tritium, which has no known peacetime uses except as a laboratory research tool. Is it therefore possible that the reason for requiring inspection plus other guaranties as regards U-235 and plutonium does not apply to tritium and that inspection alone would answer?
If quantity production of tritium were altogether forbidden—as having no peacetime purpose—the mere act of preparing lithium (the tritium raw material) for irradiation and the mere act of inserting it in a nuclear reactor might be considered a violation. Would such action be impossible to conceal from managers and inspectors stationed at each reactor permitted under the control agreement? Would an illegal reactor itself be impossible to conceal from inspectors enjoying freedom of movement?
A few private commentators have argued that the UN plan fundamentally errs in assuming industrial power to be around the corner. They estimate that this goal is actually a decade or two away and that meanwhile the control problem would be simplified if all high-powered reactors were dismantled. Does the role of reactor-produced tritium in H-bomb production strengthen such an argument?
The UN plan distinguishes between atomic facilities which are sufficiently “dangerous” to require UN management and facilities which may be operated by national governments and merely require international inspection. Since all reactors produce neutrons and hence might be useful in some degree—however small—in manufacturing tritium, is it now necessary to regard certain reactors formerly considered to be “non-dangerous” as now being in the “dangerous” category?
Are there other methods, apart from reactors, for producing tritium? If so, how can they be controlled? Would the right of the international control agency to own, operate, and manage “dangerous” plants and to own and regulate both fissionable materials and “fusionable materials” meet such a situation?
AUTHOR’S COMMENT
The most efficient and rapid method for producing tritium is by inserting lithium metal into a large nuclear reactor, thus exposing it to irradiation by neutrons, which transmute the lithium into tritium and helium. Tritium could also be produced in a similar manner in the smaller nuclear reactors used for research purposes, and though these smaller reactors would produce it at a considerably slower rate, the fact that the amounts of tritium required may be rather small would inevitably shift these reactors from the “non-dangerous” to the “dangerous” category. Such small reactors are essential for research, and their prohibition would strike a vital blow at the progress of science. Furthermore, they could be much more easily hidden than large reactors. This fact, therefore, weakens, rather than strengthens the argument for the dismantling of all high-powered reactors, as such dismantling would not prevent the production of tritium.
There are other, though less efficient, methods for producing tritium, however, that do not require any reactors at all. A good neutron source can be provided by exposing beryllium to radium, radon, or polonium. These neutrons could then be used to bombard lithium and convert it into tritium. Nor is lithium necessary, for at least four other elements, including deuterium, helium 3, boron, and nitrogen, can be transmuted by neutrons from the beryllium into tritium. What is more, even neutrons are not absolutely essential, since deuterons (nuclei of deuterium) and beryllium could be made to yield tritium by bombarding them with other deuterons. The latter method, however, would require the use of giant cyclotrons and would be very slow.
All this would indicate that it would be extremely difficult, if not impossible, to provide safeguards against the clandestine production of tritium.