Cone beam neutron interferometry: From modeling to applications

Author:

Sarenac D.12ORCID,Gorbet G.2ORCID,Kapahi C.22ORCID,Clark Charles W.3,Cory D. G.22,Ekinci H.2ORCID,Garrad D. V.2ORCID,Henderson M. E.22,Huber M. G.4,Hussey D.4ORCID,Kienzle P. A.4ORCID,Parker J. D.5,Serrat R.26,Shinohara T.5,Song F.5ORCID,Pushin D. A.22

Affiliation:

1. University at Buffalo, State University of New York

2. University of Waterloo

3. Joint Quantum Institute

4. National Institute of Standards and Technology

5. J-PARC Center

6. Universitat Politècnica de Catalunya

Abstract

Phase-grating moiré interferometers (PGMIs) have emerged as promising candidates for the next generation of neutron interferometry, enabling the use of a polychromatic beam and manifesting interference patterns that can be directly imaged by existing neutron cameras. However, the modeling of the various PGMI configurations is limited to cumbersome numerical calculations and backward propagation models which often do not enable one to explore the setup parameters. Here we generalize the Fresnel scaling theorem to introduce a k-space model for PGMI setups illuminated by a cone beam, thus enabling an intuitive forward propagation model for a wide range of parameters and experimental setups. The interference manifested by a PGMI is shown to be a special case of the Talbot effect, and the optimal fringe visibility is shown to occur at the moiré location of the Talbot distances. We derive analytical expressions for the contrast and the propagating intensity profiles in various conditions and provide the first analysis of the PGMI dark-field imaging signal when considering sample characterization. The model's predictions are compared to experimental measurements and good agreement is found between them. Last, we propose and experimentally verify a method to recover contrast at typically inaccessible PGMI autocorrelation lengths. The presented work provides a toolbox for analyzing and understanding existing PGMI setups and their future applications, for example extensions to two-dimensional PGMIs and characterization of samples with nontrivial structures. Published by the American Physical Society 2024

Funder

Natural Sciences and Engineering Research Council of Canada

National Institute of Standards and Technology

U.S. Department of Energy

Publisher

American Physical Society (APS)

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