Reflections and Their Real Space Significance

Date published

2020-11-27 10:01

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Volume Title

Publisher

Cranfield University

Department

Type

Image

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Format

Citation

Arnold, Emily (2020). Reflections and Their Real Space Significance. Cranfield Online Research Data (CORD). Figure. https://doi.org/10.17862/cranfield.rd.13295783.v1

Abstract

Bone is a complex composite material made up of three main components, the most abundant of which is the mineral hydroxyapatite. Within many species, hydroxyapatite naturally occurs as a nanocrystalline material, making accurate analysis difficult. Brilliant X-ray sources are used to allow measurement of a much wider range of angular data (from Q = 0.05 to 60 Å-1) than a traditional laboratory X-ray diffractometer (from Q = 0.1 to 8 Å-1).

Shown here is diffraction data collected at Diamond Light Source on the dedicated total scattering beamline I15-1. Debye-Scherrer rings can be seen, allowing measurement of crystallographic parameters within reciprocal space. Shadows are seen from the sample changer and an additional detector. This beamline allows for the observation of local coordination of atoms from 0.1nm to 5 nm (through pair distribution function analysis) while simultaneously measuring average crystallite structure.

Description

Software Description

Software Language

Github

Keywords

'DSDS20 Digital Image', 'DSDS20', 'X-ray Diffraction', 'Bone', 'Hydroxyapatite', 'Biomechanics'

DOI

10.17862/cranfield.rd.13295783.v1

Rights

CC BY 4.0

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Relationships

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Funder/s

Cranfield Forensic Institute, Diamond Light Source (instrument I15-1, proposal ee18638)

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