REFERENCES
- I. F. CROALL, “Yields From Neutron Induced Fission,” AERE-R-5086, Atomic Energy Research Establishment, Harwell (1968).
- D. KUHN, Gesellschaft fuer Kernforschung, Karlsruhe, Germany, Personal Communication (June 1964).
- C. B. BESANT and S. S. IPSON, “Progress to the Application of Solid-State Track Recorders to Reactor Physics Experiments,” AEEW-M-881, Winfrith, Dorchester, Dorset (1969).
- P. R. TUNNICLIFFE, D. J. SKILLINGS, and B. G. CHIDLEY, “Initial Conversion Ratios,” Nucl. Sci. Eng., 15, 268 (1963).
- R. BOEHME and H. SEUFERT, “Comparison of Measured and Calculated Uranium Reaction Rates in a Steam-Cooled Fast Assembly in SNEAK,” Nucl. Appl. Technol., 7, 494 (1969).
- H. MEISTER et al., “The Karlsruhe Fast-Thermal Argonaut Reactor (STARK),” KFK-217, Karlsruhe, Germany (1964).
- H. MEISTER, to be published in KFK Berichte, Gesellschaft fuer Kernforschung, Karlsruhe.
- D. KUHN, “Transmissionsmethode zur Messung zentraler Einfangraten in schnellen Nullenergie-Reaktoren,” Dissertation, University of Karlsruhe (1971).
- K. H. BECKURTS and K. WIRTZ, Neutron Physics, Springer-Verlag New York, Inc., New York (1964).
- S. E. KARLSSON, B. SVAHN, H. PETERSSON, and G. MALMSTEN, “The Decay of 140La,” Nucl. Phys., A100, 113 (1967).
- P. QUITTNER, “Peak Area Determination for Ge(Li) Detector Data,” Nucl. Instr. Methods, 76, 115 (1969).
- S. KATCOFF, “Fission Product Yield from Neutron Induced Fission,” Nucleonics, 18, 11, 201 (1960).
- A. OKAZAKI and W. H. WALKER, “Measurement of the Yield 135I and 140Ba in the Fission of 233U, 235U, 239Pu, and 241 Pu,” Can. J. Phys., 43, 1036 (1965).
- M. E. MEEK and B. F. RIDER, “Summary of Fission Product Yields for 235U, 238U, 239Pu, and 241Pu at Thermal, Fission Spectrum, and 14 MeV Neutron Energy,” APED-5398-A, Nucleonics Laboratory, General Electric Company (1968).
- E. K. BONYUSHKIN et al., “Fission Product Yield from the Fission of 235U and 238U with Fast Neutrons,” AEC-TR-4682, U.S. Atomic Energy Commission (1960).
- K. A. PETRZHAK et al., “Yield of a Number of Fission Products in the Fission of 235U, 238U, and 239Pu by Neutrons,” AEC-TR-4696, U.S. Atomic Energy Commission (1960).
- R. N. KELLER et al., “Yields of Fission Product from 238U Irradiated with Fission Spectrum Neutrons,” Phys. Rev., 94, 969 (1964).
- M. BRESESTI et al., “Radiochemical Determination of Fission Yields for the Fission of 232Th by Pile Neutrons,” J. Inorg. Nucl. Chem., 29, 1189 (1967).
- D. C. SANTRY and L. YAFFE, “The Yield of 140Ba in the Thermal Neutron Fission of 235U,” Can. J. Chem., 38, 464 (1960).
- H. FARRAR and R. H. TOMLINSON, “Cumulative Yields of the Heavy Fragments in 235U Thermal Neutron Fission,” Nucl. Phys., B 34, 367 (1962).
- W. H. WALKER, “Yields and Effective Cross Section of Fission Products and Pseudo-Fission-Products,” CRRP-913, Chalk River (1960).