On the quantal treatment of the double-well potential problem by means of certain phase-integral approximations: N. Fröman, P. O. Fröman, U. Myhrman, and R. Paulsson. Institute of Theoretical Physics, University of Uppsala, Uppsala, Sweden

Onemole samples of all three hydrogen isotopes in liquid form have been employed to obtain complete angular distributions of the absolute differential cross sections for n-D scattering at neutron energies of 5.6,7.0, 8.0,9.0, 18.55,20.5, and 23.0 MeV, for n-T scattering at 6.0,9.0,18.0, 19.5, 21.0, and 23.0 MeV, and for n-T polarization at 22.1 MeV. Time-of-flight techniques were used with the Mobley beam-compression system at the Los Alamos Scientific Laboratory vertical Van de Graaff accelerator. Neutrons were detected in large liquid scintillators in collimators heavily shielded with copper, tungsten, and polyethylene. Electronic discrimination against gamma rays was applied, and the raw data and preliminary statistical reduction were handled on line by an SDS-930 computer. Comparison is made with the limited amount of neutron cross section data previously available, with the more extensive recent measurements of the chargeconjugate systems p-D and p-8He, and with various calculations and phase-shift representations. The differences between the deuterium total and integral elastic cross sections are smaller than previous extrapolation of nonelastic cross sections below 14 MeV.