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Bibliographic Details
Main Authors: Samadi, Nazanin, Seiboth, Frank, Dias, Carlos Sato Baraldi, Novikov, Dmitri, Spiers, Kathryn, Shi, Xianbo
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2410.01327
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author Samadi, Nazanin
Seiboth, Frank
Dias, Carlos Sato Baraldi
Novikov, Dmitri
Spiers, Kathryn
Shi, Xianbo
author_facet Samadi, Nazanin
Seiboth, Frank
Dias, Carlos Sato Baraldi
Novikov, Dmitri
Spiers, Kathryn
Shi, Xianbo
contents This work presents the design, fabrication, and experimental validation of a refractive diamond axicon for X-ray beam shaping. The diamond axicon was developed to overcome the limitations of polymer-based axicons particularly for application in Transmission X-ray Microscopy (TXM) systems, offering superior mechanical strength, thermal stability, and radiation resistance, making it ideal for synchrotron applications. The axicon was fabricated using femtosecond laser ablation and tested at 11 keV under various coherence conditions. Results demonstrated that the axicon efficiently transformed the X-ray beam into a ring-shaped profile with over 80% transmission. Simulations confirmed the experimental findings and highlighted the potential for further improvements. This work paves the way for the use of diamond axicons in next-generation synchrotron facilities, with future efforts focusing on optimizing fabrication and testing the axicon in full TXM systems.
format Preprint
id arxiv_https___arxiv_org_abs_2410_01327
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Design, fabrication, and testing of diamond axicons for X-ray microscopy applications
Samadi, Nazanin
Seiboth, Frank
Dias, Carlos Sato Baraldi
Novikov, Dmitri
Spiers, Kathryn
Shi, Xianbo
Optics
This work presents the design, fabrication, and experimental validation of a refractive diamond axicon for X-ray beam shaping. The diamond axicon was developed to overcome the limitations of polymer-based axicons particularly for application in Transmission X-ray Microscopy (TXM) systems, offering superior mechanical strength, thermal stability, and radiation resistance, making it ideal for synchrotron applications. The axicon was fabricated using femtosecond laser ablation and tested at 11 keV under various coherence conditions. Results demonstrated that the axicon efficiently transformed the X-ray beam into a ring-shaped profile with over 80% transmission. Simulations confirmed the experimental findings and highlighted the potential for further improvements. This work paves the way for the use of diamond axicons in next-generation synchrotron facilities, with future efforts focusing on optimizing fabrication and testing the axicon in full TXM systems.
title Design, fabrication, and testing of diamond axicons for X-ray microscopy applications
topic Optics
url https://arxiv.org/abs/2410.01327