A hierarchical approach for modeling X-ray beamlines: application to a coherent beamline

Río, Manuel Sánchez del; Celestre, Rafael; Glass, Mark; Pirro, Giovanni; Reyes-Herrera, Juan; Barrett, R.; Silva, Júlio César da; Cloetens, Peter; Shi, Xianbo; Rebuffi, Luca

doi:10.1107/s160057751901213x

Cited by 20 publications

(16 citation statements)

References 20 publications

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“…Diffraction patterns show higher visibility due to the increased coherent fraction in new sources, and its accurate modelling is fundamental for the design and optimization of beamlines. The physical models for the limiting cases of full incoherence (usually simulated by geometrical ray-tracing) or by propagating a single wavefront (valid for fully coherent radiation) are not sufficient for a complete understanding of the beam transport (Sanchez del Rio et al, 2019). The coherent fraction of the radiation emitted by new generation storage rings, although much improved with respect to previous generations, is still of the order of a few percent at hard X-rays, which means that it is mandatory to account for partial coherence.…”

Section: Introductionmentioning

confidence: 99%

A fast and lightweight tool for partially coherent beamline simulations in fourth-generation storage rings based on coherent mode decomposition

Río

Celestre

Reyes-Herrera

et al. 2022

J Synchrotron Radiat

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A new algorithm to perform coherent mode decomposition of undulator radiation is proposed. It is based on separating the horizontal and vertical directions, reducing the problem by working with one-dimension wavefronts. The validity conditions of this approximation are discussed. Simulations require low computer resources and run interactively on a laptop. The focusing with lenses of the radiation emitted by an undulator in a fourth-generation storage ring (EBS-ESRF) is studied. Results are compared against multiple optics packages implementing a variety of methods for dealing with partial coherence: full two-dimension coherent mode decomposition, Monte Carlo combination of wavefronts from electrons entering the undulator with different initial conditions, and hybrid ray-tracing correcting geometrical optics with wave optics.

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Section: Introductionmentioning

confidence: 99%

A fast and lightweight tool for partially coherent beamline simulations in fourth-generation storage rings based on coherent mode decomposition

Río

Celestre

Reyes-Herrera

et al. 2022

J Synchrotron Radiat

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“…Simulations of the beamline optics can be performed in different degrees of approximation and effort, starting from analytical formulas, performing ray-tracing, and also wavefront propagation (Sanchez del Rio et al, 2019). Different packages for such simulations are available in the OASYS suite (Rebuffi & Sanchez del Rio, 2017a).…”

Section: Introductionmentioning

confidence: 99%

Compensation of heat load deformations using adaptive optics for the ALS upgrade: a wave optics study

Río

Wojdyla

Goldberg

et al. 2020

J Synchrotron Radiat

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A realistic wave optics simulation method has been developed to study how wavefront distortions originating from heat load deformations can be corrected using adaptive X-ray optics. Several planned soft X-ray and tender X-ray insertion-device beamlines in the Advanced Light Source upgrade rely on a common design principle. A flat, first mirror intercepts the white beam; vertical focusing is provided by a variable-line-space monochromator; and horizontal focusing comes from a single, pre-figured, adaptive mirror. A variety of scenarios to cope with thermal distortion in the first mirror are studied by finite-element analysis. The degradation of the intensity distribution at the focal plane is analyzed and the adaptive optics that correct it is modeled. The range of correctable wavefront errors across the operating range of the beamlines is reported in terms of mirror curvature and spatial frequencies. The software developed is a one-dimensional wavefront propagation package made available in the OASYS suite, an adaptable, customizable and efficient beamline modeling platform.

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“…Although wave optics simulations yield more accurate results than ray tracing for DLSR and X-ray FELs, they also require substantially more computational resources. Some improvements 11,12 have been done to make wave optics simulations less computationally demanding.…”

Section: Introductionmentioning

confidence: 99%

“…It can deal with various SR source models such as Gaussian-Schell model or more rigorous undulator models. In addition, the existing measures 11,12 to reduce the computation load can be integrated into this framework. It is shown in this paper that the coherent mode decomposition can be used to deal with the 4D convolution which comes from the proposed theory.…”

Section: Introductionmentioning

confidence: 99%

Perturbation perspective of partial coherence discussion on imperfect x-ray optical elements

Sutter

Wang

et al. 2020

Advances in Computational Methods for X-Ray Optics V

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The rapid development of new-generation synchrotron facilities with excellent coherence demands more accurate evaluation of beamline performance. A perturbation theory based on wave optics is proposed in this work to describe the effect of imperfections on the performance of X-ray optical elements. It shows that the perturbed performance of the non-ideal optical element could be derived from the perfect performance of the ideal optic through a convolution operation. The semi-analytical approach proposed here provides a new way to improve the simulation efficiency for imperfect optical elements. The finite aperture effect on diffraction-limited optics and focal shape distortion by surface height error are treated to show the application of the proposed method.

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A hierarchical approach for modeling X-ray beamlines: application to a coherent beamline

Cited by 20 publications

References 20 publications

A fast and lightweight tool for partially coherent beamline simulations in fourth-generation storage rings based on coherent mode decomposition

A fast and lightweight tool for partially coherent beamline simulations in fourth-generation storage rings based on coherent mode decomposition

Compensation of heat load deformations using adaptive optics for the ALS upgrade: a wave optics study

Perturbation perspective of partial coherence discussion on imperfect x-ray optical elements

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