Hyper-resolution in X-ray emission spectroscopy: integrating extended-range high energy resolution fluorescence detection and multiple-crystal spectrometry with advanced binary data splicing

Hyper-resolution in X-ray emission spectroscopy: integrating extended-range high energy resolution fluorescence detection and multiple-crystal spectrometry with advanced binary data splicing

This study of manganese (Mn, Z = 25) introduces a novel combination of extended-range high energy resolution fluorescence detection (XR-HERFD), multiple-crystal spectrometers and advanced binary data splicing techniques to address challenges in X-ray emission spectroscopy. XR-HERFD enhances spectral...

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Main Authors: Ramesh Rijal, Jack Stephens, Daniel Sier, Nicholas T. T. Tran, Truong V. B. Nguyen, Jonathan W. Dean, Pierce Bowman, Minh Dao, Paul Di Pasquale, Tony Kirk, Chanh Q. Tran, Shusaku Hayama, Matteo Aramini, Nitya Ramanan, Sofia Diaz-Moreno, Christopher T. Chantler
Format: Article
Language:English
Published: International Union of Crystallography 2025-07-01
Series:Journal of Synchrotron Radiation
Subjects:
xr-herfd
extended-range high energy resolution fluorescence detection
multiple-crystal spectrometers
advanced binary data splicing
manganese
Online Access:https://journals.iucr.org/paper?S1600577525004084
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author Ramesh Rijal
Jack Stephens
Daniel Sier
Nicholas T. T. Tran
Truong V. B. Nguyen
Jonathan W. Dean
Pierce Bowman
Minh Dao
Paul Di Pasquale
Tony Kirk
Chanh Q. Tran
Shusaku Hayama
Matteo Aramini
Nitya Ramanan
Sofia Diaz-Moreno
Christopher T. Chantler
author_facet Ramesh Rijal
Jack Stephens
Daniel Sier
Nicholas T. T. Tran
Truong V. B. Nguyen
Jonathan W. Dean
Pierce Bowman
Minh Dao
Paul Di Pasquale
Tony Kirk
Chanh Q. Tran
Shusaku Hayama
Matteo Aramini
Nitya Ramanan
Sofia Diaz-Moreno
Christopher T. Chantler
author_sort Ramesh Rijal
collection DOAJ
description This study of manganese (Mn, Z = 25) introduces a novel combination of extended-range high energy resolution fluorescence detection (XR-HERFD), multiple-crystal spectrometers and advanced binary data splicing techniques to address challenges in X-ray emission spectroscopy. XR-HERFD enhances spectral precision by utilizing high-resolution crystal analysers and optimized detector configurations. The systematic application of these methods using multiple Bragg crystal analysers at Diamond Light Source has led to substantial improvements in data quality. Simultaneously, advanced binary data splicing integrates multiple datasets to correct distortions and improve resolution, resulting in sharper spectral features. Our results show a significant increase in peak counts and a notable reduction in full width at half-maximum (FWHM), with peak amplitudes increasing by 83% and resolution improving by 46%. These developments provide greater detail for X-ray absorption or emission spectra, offering valuable insights into complex materials, and permitting advances and breakthroughs in atomic relativistic quantum mechanics, chemical sensitivity of atomic transitions and modelling of solid-state effects.
format Article
id doaj-art-d873d1358d5746ee95062c63af2a536a
institution DOAJ
issn 1600-5775
language English
publishDate 2025-07-01
publisher International Union of Crystallography
record_format Article
series Journal of Synchrotron Radiation
spelling doaj-art-d873d1358d5746ee95062c63af2a536a2025-08-20T03:17:39ZengInternational Union of CrystallographyJournal of Synchrotron Radiation1600-57752025-07-01324994100910.1107/S1600577525004084rv5191Hyper-resolution in X-ray emission spectroscopy: integrating extended-range high energy resolution fluorescence detection and multiple-crystal spectrometry with advanced binary data splicingRamesh Rijal0Jack Stephens1Daniel Sier2Nicholas T. T. Tran3Truong V. B. Nguyen4Jonathan W. Dean5Pierce Bowman6Minh Dao7Paul Di Pasquale8Tony Kirk9Chanh Q. Tran10Shusaku Hayama11Matteo Aramini12Nitya Ramanan13Sofia Diaz-Moreno14Christopher T. Chantler15School of Physics, University of Melbourne, Melbourne, Victoria, AustraliaSchool of Physics, University of Melbourne, Melbourne, Victoria, AustraliaSchool of Physics, University of Melbourne, Melbourne, Victoria, AustraliaSchool of Physics, University of Melbourne, Melbourne, Victoria, AustraliaSchool of Physics, University of Melbourne, Melbourne, Victoria, AustraliaSchool of Physics, University of Melbourne, Melbourne, Victoria, AustraliaDepartment of Chemistry and Physics, La Trobe University, Melbourne, Victoria, AustraliaDepartment of Chemistry and Physics, La Trobe University, Melbourne, Victoria, AustraliaDepartment of Chemistry and Physics, La Trobe University, Melbourne, Victoria, AustraliaDepartment of Chemistry and Physics, La Trobe University, Melbourne, Victoria, AustraliaDepartment of Chemistry and Physics, La Trobe University, Melbourne, Victoria, AustraliaDiamond Light Source, Harwell Science and Innovation Campus, Didcot OX11 0DE, United KingdomDiamond Light Source, Harwell Science and Innovation Campus, Didcot OX11 0DE, United KingdomDiamond Light Source, Harwell Science and Innovation Campus, Didcot OX11 0DE, United KingdomDiamond Light Source, Harwell Science and Innovation Campus, Didcot OX11 0DE, United KingdomSchool of Physics, University of Melbourne, Melbourne, Victoria, AustraliaThis study of manganese (Mn, Z = 25) introduces a novel combination of extended-range high energy resolution fluorescence detection (XR-HERFD), multiple-crystal spectrometers and advanced binary data splicing techniques to address challenges in X-ray emission spectroscopy. XR-HERFD enhances spectral precision by utilizing high-resolution crystal analysers and optimized detector configurations. The systematic application of these methods using multiple Bragg crystal analysers at Diamond Light Source has led to substantial improvements in data quality. Simultaneously, advanced binary data splicing integrates multiple datasets to correct distortions and improve resolution, resulting in sharper spectral features. Our results show a significant increase in peak counts and a notable reduction in full width at half-maximum (FWHM), with peak amplitudes increasing by 83% and resolution improving by 46%. These developments provide greater detail for X-ray absorption or emission spectra, offering valuable insights into complex materials, and permitting advances and breakthroughs in atomic relativistic quantum mechanics, chemical sensitivity of atomic transitions and modelling of solid-state effects.https://journals.iucr.org/paper?S1600577525004084xr-herfdextended-range high energy resolution fluorescence detectionmultiple-crystal spectrometersadvanced binary data splicingmanganese
spellingShingle Ramesh Rijal
Jack Stephens
Daniel Sier
Nicholas T. T. Tran
Truong V. B. Nguyen
Jonathan W. Dean
Pierce Bowman
Minh Dao
Paul Di Pasquale
Tony Kirk
Chanh Q. Tran
Shusaku Hayama
Matteo Aramini
Nitya Ramanan
Sofia Diaz-Moreno
Christopher T. Chantler
Hyper-resolution in X-ray emission spectroscopy: integrating extended-range high energy resolution fluorescence detection and multiple-crystal spectrometry with advanced binary data splicing
Journal of Synchrotron Radiation
xr-herfd
extended-range high energy resolution fluorescence detection
multiple-crystal spectrometers
advanced binary data splicing
manganese
title Hyper-resolution in X-ray emission spectroscopy: integrating extended-range high energy resolution fluorescence detection and multiple-crystal spectrometry with advanced binary data splicing
title_full Hyper-resolution in X-ray emission spectroscopy: integrating extended-range high energy resolution fluorescence detection and multiple-crystal spectrometry with advanced binary data splicing
title_fullStr Hyper-resolution in X-ray emission spectroscopy: integrating extended-range high energy resolution fluorescence detection and multiple-crystal spectrometry with advanced binary data splicing
title_full_unstemmed Hyper-resolution in X-ray emission spectroscopy: integrating extended-range high energy resolution fluorescence detection and multiple-crystal spectrometry with advanced binary data splicing
title_short Hyper-resolution in X-ray emission spectroscopy: integrating extended-range high energy resolution fluorescence detection and multiple-crystal spectrometry with advanced binary data splicing
title_sort hyper resolution in x ray emission spectroscopy integrating extended range high energy resolution fluorescence detection and multiple crystal spectrometry with advanced binary data splicing
topic xr-herfd
extended-range high energy resolution fluorescence detection
multiple-crystal spectrometers
advanced binary data splicing
manganese
url https://journals.iucr.org/paper?S1600577525004084
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