Time-of-flight modulated intensity small-angle neutron scattering measurement of the sett-aittusion constant of water

The modulated intensity by zero effort small-angle neutron scattering (MI-SANS) technique is used to measure scattering with a high energy resolution on samples normally ill-suited for neutron resonance spin echo. The self-diffusion constant of water is measured over a q-t range of 0.01-0.2 angstrom(-1) and 70-500 ps. In addition to demonstrating the methodology of using time-of-flight MI-SANS instruments to observe diffusion in liquids, the results support previous measurements on water performed with different methods. This polarized neutron technique simultaneously measures the intermediate scattering function for a wide range of time and length scales. Two radio frequency flippers were used in a spin-echo setup with a 100 kHz frequency difference in order to create a high-resolution time measurement. The results are compared with self-diffusion measurements made by other techniques and the general applicability of MI-SANS at a pulsed source is assessed.

Automated summary

The MI-SANS technique is used to measure the self-diffusion constant of water, demonstrating its feasibility for observing diffusion in liquids and supporting previous measurements made with different methods. The polarized neutron technique simultaneously measures the intermediate scattering function for a wide range of time and length scales, showing potential for high-resolution time measurements. The results are compared with measurements from other techniques to assess the general applicability of MI-SANS at a pulsed source.