The scientific importance of the nuclear power projects. - Journal of

The scientific importance of the nuclear power projects. C. D. Coryell. J. Chem. Educ. , 1946, 23 (8), p 395. DOI: 10.1021/ed023p395. Publication Date...
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The Scientific Importance of the &clear Power Projects1 C . D. CORYELL Monsanto Chemical Company, Clinton Laboratories, Oak Ridge, Tennessee

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I that give technioues and know-how that will h e l solve ~ many other problems of modern science. The success of the Projects has also given the world a political problem of undreamed of proportions in the military significance of the atomic bomb, and this bomb has simultaneously given the people of the world a OR five years the governments of the united States, compelling reason to reconsider the basis of internaGreat Britain, and Canada pressed in greatest se- tional cooperation and the conditions necessary for the crecy a group of enormous war projects with the goal of existence of the civilization we now know. The prosproducing the most devastating explosives possible, pects of the almost instantaneous elimination of all of explosives releasing the stored up energy of the nuclei our metropolitan centers in a night of terror are to be of atoms. A large fraction of research and almost all considered by our national and international leaders of the technological work was carried out in the United together with the.prospects of increasing the health, States. The people of the world, of the United Nations, comfort, and grace of human life in all nations by virtue and of the enemy states received their first knowledge of of the scientific advances made possible by separated the existence of these projects with the dramatic evi- isotopes and by the energy of fission. Surely the scientists of the Nuclear Power Projects dence of their successful conclusion when i t was announced on August 6, 1945, that the first atomic bomb have given the world Pandora's Box. The discovery and development of power or knowledge in concenhad annihilated the city of Hiroshima, Japan. trated form has always presented mankind with such A relatively small number of research workers, and academic, industrial, and military administrators were a problem. I n this respect the ultimum has probably informed of the significanceof their tasks from the time been reached in the advance made in the amount of of their employment on the project. Because of the power available to man. It is unlikely that so much admagnitude of the job, however, this number is probably vance in the amount of knowledge will be held within several thousand. Many of these workers are now re- the confines of .secrecy, so the increment of knowledge turninz to academic research and teachine. and thev may also be an ultimum for the world. will bzng with them a body of technical knowledge an; RELEASE O F INFORMATION point of view that will revolutionize the research conThe success of the world in accommodating to the cepts of their associates and students. It is the purpose of this and severalsubsequent articles social and technological impact of atomic bombs and to foster in a general manner an appreciation of the ac- nuclear science and technology will be aided by the complishments of the projects and the background of diffusion of knowledge about the general accomplishfactual knowledge from which they started, as a body of ments of the Nuclear Power Projects. In this regard self-consistent science, and to emphasize the significance the War Department and President Truman made a of the highly specialized advances to the chemists of the commendable start in the publication of the official Smyth Report, "Atomic Energy for Military Purposes" United States. The work on the Nuclear Power Projects has estab- (1). The best description of the explosion of an atomic lished an everyday significance for many methods that bomb that has appeared to date is that of William Lawformerly were only specialized techniques on a small rence on the New Mexico test of July 16, 1945 (2). scale for nuclear physics and has made available in Since early September, 1945, there has been a fair volgram or kilogram amounts many materials that were ume of release of official information in the form of apnever thought to be available in separate form. I t has proved speeches and journal articles, but there has made abstract concepts in physics, chemistry, and en- been no single authoritative vehicle. At the present gineering become real. It has produced technical date each of the major units of the Projects is preparing problems on a scale approaching the fantastic, and reports of the work in the hope that a major part of the staffs have worked out solutions to those ~roblems these dealing with advances in basic science and technology can receive open publication when the organi' Note an terminology: We are in hearty agreement with zation of the mtional Program has achieved clarity and the editors of THEJOURNAL in hoping that the inadequate term "atomic energy" will not be adopted in scientific terminology. stabilization. The contest seems already lost in many quarters, however, and has been introduced in the House A number Of we consider it only good sportsmanship to use the term "atomic and Senate of the Congress of the United States for the homb" when referring to themilitary application. 395 This is thefirst of a series of articles, written by Oak Ridge scientists, on the chemical significance of modern nuclear science and technology.

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purpose of ordering the national and international as- tions have been developed. Those involving charged pects of atomic energy. The Senate has established a particles have been carried out with cyclotrons, Van Special Committee on Atomic Energy under the chair- de GraaiT and other accelerators, and have only been manship of Senator Brien McMahon of Connecticut.2 camed out on the microgram or the curie scale.& The McMahon Committee has held a series of hearings Some of these reactions produce neutrons which in on the significance of the atomic power projects, the turn can be used to produce a useful group of nuclear promise of further developments in the field, together reactions, the most dramatic of which is the fission of with the features of government legislation that may he the very heavy isotopes (e. g., ThZa2,U235,U238PU 1needed for proper support and control in the national The production of a multiplying chain reaction in interest. The major results of hearings and action are piles based on the fission of U235in uranium and the reported in the press and current scientific journals and slowing down of the secondary neutrons have made will be covered elsewhere in the JOURNAL OF CHEMICALmilligram and gram amounts of neutrons available per EDUCATION.By the time this article is published i t is day, to produce gram or better amounts of radioactive probable that the Congress will have passed a bill cover- isotopes per day. The products of many types of nuclear ing the domestic aspects of control and development of reactions may soon be expected to be articles of cheminuclear technology. cal commerce. There exist in nature 273 stable isotopes (presumably GENERAL DISCUSSION all that can occur), and eight very long-lived radioactive This is the first of several articles being written by isotopes, three of the latter having long chains of members of the research groups of the three major units shorter-lived descendants. Systematic exploitation of located a t Oak Ridge, Tennessee, one of the four cities3 the various types of artificial nuclear reactions has led built secretly for the personnel associated with the to the synthesis of about 370 unstable nuclei with halfatomic bomb production plants. The units are the lives varying from 0.02 second to many decades. electromagnetic separation plant for UZa5operated by Reasonably straight-forward principles have been estabthe Tennessee Eastman Company, following major research a t the University of California; the gaseous diiu- lished which enable one to predict isotope decay energies sionseparationplant for UD5,designedby the KellexCom- as a function of charge Z and mass A . The discovery of t h e existence of stable isotopes of pany and operated by the Carbide and Carbon Chemimany chemical elements led to theefforts of phvsicists to cal Company, following major research a t Columbia frxtiomte these by virtue oi difierences in difiusihility, University; and the Clinton Laboratories, a research even several decades ago. The methods were very unit established by the University of Chicago and now successful with the two hydrogen isotopes H1 (prooperated by the Monsanto Chemical Company, for tium) and H Z (deuterium), and more recently with CL" pilot work for the Hanford Plant and for iesearch and and C13 and NL4 and NI5. ,Milhods of gaseous diffudevelopment work, especially involving plutonium, the thermal'diffusion, and centrifugation have been sion, fission products, and work a t an operating pile. The applied in pilot plant scale and in the first two cases, Fercleve Company formerly operated a plant for the separation of UZa6by thermal diffusion for which re- full plant scale, for the separation of U235 from U2a8. Developments may be expected for other isotope sets. search was done by the Naval Research Laboratories. Differential acceleration of beams of gaseous ions. Subsequent articles of this series, appearing from particularly in the presence of magnetic fields, have been time to time, will present the scientific background of certain fields of endeavor of the proiects and give as used for isotope-analytic purposes (mass spectrograph). general a picture of the techniques and accomplish- The solution of many technical problems has elevated ments as security regulations permit. Brief sketches of this method to a very promising one for large-scale the fields of nuclear reactions, nuclear energetics, iso- technology wherein gram quantities of relatively pure tope fractionation, electromagnetic isotope separation, isotopes may be obtained in one step. The greatest amount of energy available from a nunuclear fission, isotope chemistry, and the special chernclear reaction that can be carried out on a large scale istry of some project materials are given in the remainis that from the fission reaction. When a heavy der of this article. Since 1919 a large dumber of artificial nuclear reac- nucleus undergoes fission, as for instance upon neutron capture, it splits into two lighter fragments plus several -embership consist; of Senators McMahon (Connecticut) neutrons; approximately 200 Mev5 of energy is libChairman, Connally (Texas), Johnson (Colorado). Vandenberg (Michigan), Austin (Vermont), Byrd (Virginia), Hart (Connecti- erated, largely as kinetic energy of the fragments. I

cut), Hickenlooper (Iowa), Millikin (Colorado), Russell (Georgia), and Tydings (Maryland) =Oak Ridge is the residential area of the Clinton Engineer Works and attainPd a maximum population of 78,000 in the summer of 1945, but a large fraction of the workers lived in the surrounding communities of Roane, Anderson, and Knox counties, Tennessee. The Hanford Engineer Works in Washington had two cities: Hanford, the construction workers' city which had a population of about 60,000 but is now empty, and Richland for the operating workers, with a population of about 16,000. A city of about 6000 was built adjacent to the research laboratory and bomb assembly plant at Las Alamos.

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'One curie of material is that amount undergoing 3.70 X 10" radioactive disintegrations a second (as does one gram of radium), and the exact equation connecting the radioactivity A in curies with the mass m in g r a m s of asuhstance of half-life oft M years of atomic weight M is 226

1590

A--X-m M tM

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(1)

It is seen that 1 microgram of isotope of atomic weight of -40 and half-life atout three days carresponds to -1 curie. 1 Mev = one million electron volts of energy per particle undergoing reaction, or 2.3 X 10'kg.-cal./mol.

This reaction can be made to occur controllably in an By virtue of the unique position of the fission reaction asselnblage known as a pile to give a rich source of and of piles in the field of nuclear technology, fission power and spare neutrons. If the fissipnable material products will be of great interest and ready availability. is natural uranium, substantial amounts of will in Radioactive isotopes of all elements from Zn to Eu addition be synthesized. This reaction can also be are known to occur in fission in number in excess of 150. made to occur very rapidly, with several materials Many of the elements have a t least one isotope with a under carefully controlled conditions, to give the nu- half-life in excess of 12 hours. Elements 43 and 61 clear explosion of the atomic bomb.' For either of (formerly called Ma and 11) do not occur in nature, but these systems to undergo self-sustaining (chain reacting) have unstable isotopes produced in fission, and so can be operation, a certain minimum amount of fissionable ma- isolated in weighable quantities. By nuclear reactions terial (the critical mass) must be present. induced in piles (3) or on materials produced in piles, It is apparent that separate stable isotopes are radioactive isotopes of elements 93 (Np), 94 (Pn), 95, available of many elements, and eventually all stable and 96 have been produced, and an interesting new isotopes will be available in separated form. Already transition group is now available for study in which fillradioactive isotopes of all elements are available, and ing of the 6d and 5f electron shells is intermingled. most elements have active isotopes of fairly long Introduction has been made in this article to the great half-lives (a few hours up to many years). The in- scientfic, technological, political, and social implicacreased availability of these isotopes will influence re- tions to the world of the ~ u c l e a rPower Projects. markably the course of future chemical research. These are of such a complex nature and of such farTechniques of handling and methods of analysis must reaching importance that they deserve further debe considered, and in some cases, such as H1-Ha-H3 velopment for the scientific world. (tq* = 25 years) or C1' (L/, = 21 r n i n u t e ~ ) - C ~ ~ - C ~ ~ C14 (tl12= 25,000 years), there will be competition between the fields of applicatiori of stable, short-lived, and LITERATURE CITED long-lived isotopes.

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The complete fission of 1 kg. of UPSor Puat8gives off the same amount of energy in explosion as does 20,000 tans of TNT (heat of explosion = 200 kg.-cal./mol.) 6

(1) SMYTH, H. D., "Atomic Energy for Military Purposes." Prmceton University Press, Princeton, 1945. (2) Ibid., Appendix 6. (3) FosTen, L.S., J. CHEM.EDUC., 22, 620 (1945).