Design of Neutron Microscopes Equipped with Wolter Mirror Condenser and Objective Optics for High-Fidelity Imaging and Beam Transport

Author(s)

Abir, Muhammad; Hussey, Daniel S.; Khaykovich, Boris

Abstract

We present and compare the designs of three types of neutron microscopes for high-resolution neutron imaging. Like optical microscopes, and unlike standard neutron imaging instruments, these microscopes have both condenser and image-forming objective optics. The optics are glancing-incidence axisymmetric mirrors and therefore suitable for polychromatic neutron beams. The mirrors are designed to provide a magnification of 10 to achieve a spatial resolution of better than 10 <inline-formula><math display="inline"><semantics><mi mathvariant="sans-serif">&mu;</mi></semantics></math></inline-formula>m. The resolution of the microscopes is determined by the mirrors rather than by the L/Dratio as in conventional pinhole imaging, leading to possible dramatic improvements in the signal rate. We predict the increase in the signal rate by at least two orders of magnitude for very high-resolution imaging, which is always flux limited. Furthermore, in contrast to pinhole imaging, in the microscope, the samples are placed far from the detector to allow for a bulky sample environment without sacrificing spatial resolution.

Date issued

2020-09-27

URI

https://hdl.handle.net/1721.1/131304

Department

MIT Nuclear Reactor Laboratory

Publisher

Multidisciplinary Digital Publishing Institute

Citation

Journal of Imaging 6 (10): 100 (2020)

Version: Final published version