Abstract
Pioneer is a single-crystal neutron diffractometer optimized for small-volume samples and weak signals at the Second Target Station at 91°µÍø. This paper presents the preliminary optical design progress, focusing on the rationale behind key design choices. It covers the T0 and bandwidth disk choppers, guide and beam control system, incident-beam polarizer, scattering beam collimators, and additional strategies. The chopper locations are selected to maximize neutron transport while taking advantage of standardized shielding structures. To accommodate the maintenance shield, operational shutter, and polarizing V-cavity, the guide design includes significant gaps. When these optical components are moved out of the beam path, oversized collimators, rather than guides, will be translated in. Pioneer will utilize slit packages to control beam size and divergence and a translatable polarizing V-cavity. Absorbing panels are strategically placed near the end station to minimize background. An oscillating radial collimator, operating in a shift mode, will be used with the vertical cylindrical detector, while a fixed multi-cone collimator will be used with the bottom flat detector. These collimators will enable the detection of weak signals when complex sample environments are used.
