Electron beam transmission experiments have been performed in the energy range IO meV to 175 meV, with a magnetically collimated electron beam formed in a synchrotron radiation photoionization source using SuperACO, LURE The apparatus has been Calibrated with He and absolute backward scattering cross d o n s have been measured for the target gases Ht, N, and 0,. A relationship, involving sand p partial waves, has been established between the backward scattering cross sections (uB) and the momentum transfer cross sections (uM). This has been used to check the accuracy of experimental data and the consistency of values of uBr uM and total scattering cross sections. Experimental data and theory for Ha are in good agreement, whereas for N, experimental values of uB and uM conflict below 80 meV and agreement with theories is mixed. For 0,. discrepancies are greater than for N2 both in experimental data and between theory and experiment, which may differ hy up to a factor of 5 for the total scattering cross section at the lowest energies. 1. Inirnduclion Electron collisions with H2, NI, O2 and He at very low energy are of considerable interest and have been the subject of intensive theoretical and experimental study in recent years. The most recent theoretical work, at low energy, is that of Nesbet et a f (1986). Gibson and Morrison (1984), and Schneider and Collins (1983) for H2, Gillan et a1 (1988) and Morrison et a/ (1987) for N2, Noble and Burke (1992) for 0 2 , and Saha (1993) and Plenkiewin et a1 (1990) for He. The most recent experimental investigations are those of Subramanian and Kumar (1989) and Brunger el a1 (1991) for Hz, Sohn et al(1986) for N2, Ziesel et a/ (1993) for O2 (hereafter referred to as paper I), and Buckman and Lohmann (1986) for He. In the present work, beam-gas cell scattering experiments have been performed to measure absolute values of the backward scattering cross sections for Ha, Nz and O2 as a function of electron energy in the energy range of IO meV to 175 meV. Low energy electron scattering cross sections are very sensitiveto the formulation of long range polarization and exchange and these data provide a stringent test for present and future scattering calculations in this energy regime. Data for H2, N2 and Oz also have important applications in modelling astrophysical plasmas,
