Imaging Shock Waves in Diamond with Both High Temporal and Spatial Resolution at an XFEL

Schropp, Andreas; Hoppe, Robert; Meier, V.A.; Patommel, Jens; Seiboth, Frank; Ping, Yuan; Hicks, D. G.; Beckwith, Martha A.; Collins, G. W.; Higginbotham, Andrew; Wark, J. S.; Lee, Hae Ja; Nagler, Bob; Galtier, E.; Arnold, Brice; Zastrau, U.; Hastings, J. B.; Schroer, Christian G.

doi:10.1038/srep11089

Cited by 105 publications

(77 citation statements)

References 32 publications

(40 reference statements)

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“…Although rapid progress in shape and surface quality has been made, current diamond lenses do not meet the demands of microscopy with nanometer resolution. Despite mechanical limitations of Be CRLs to smallest curvatures of 50 mm, their superior quality allows for high-resolution microscopy when combining several tens of lenses (Schropp et al, 2015;Nagler et al, 2016;Beckwith et al, 2017). While combining many lenses leads to higher NA, it also increases aberrations due to a superposition of small shape errors.…”

Section: Introductionmentioning

confidence: 99%

Nanofocusing with aberration-corrected rotationally parabolic refractive X-ray lenses

Seiboth

Wittwer

Scholz

et al. 2018

J Synchrotron Radiat

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Edited by M. Zangrando, IOM-CNR and Elettra-Sincrotrone, ItalyKeywords: refractive X-ray optics; aberration correction; ptychography; phase plate.Nanofocusing with aberration-corrected rotationally parabolic refractive X-ray lenses Wavefront errors of rotationally parabolic refractive X-ray lenses made of beryllium (Be CRLs) have been recovered for various lens sets and X-ray beam configurations. Due to manufacturing via an embossing process, aberrations of individual lenses within the investigated ensemble are very similar. By deriving a mean single-lens deformation for the ensemble, aberrations of any arbitrary lens stack can be predicted from the ensemble with " = 0.034. Using these findings the expected focusing performance of current Be CRLs are modeled for relevant X-ray energies and bandwidths and it is shown that a correction of aberrations can be realised without prior lens characterization but simply based on the derived lens deformation. The performance of aberration-corrected Be CRLs is discussed and the applicability of aberration-correction demonstrated over wide X-ray energy ranges.

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Section: Introductionmentioning

confidence: 99%

Nanofocusing with aberration-corrected rotationally parabolic refractive X-ray lenses

Seiboth

Wittwer

Scholz

et al. 2018

J Synchrotron Radiat

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“…Further experiments at much higher pressures, which can be generated with the high-power laser system, are required to study the dynamics of phase transitions in metals and minerals in connection with geoscience and planetary science. The dynamics at much shorter time scale (<picoseconds) will be also studied by using time-resolved X-ray diffraction with high-power laser facility and much shorter and strong pulses from XFEL [13][14][15] and small-size crystals such as nanocrystals.…”

Section: Discussionmentioning

confidence: 99%

Structural Dynamics of Materials under Shock Compression Investigated with Synchrotron Radiation

Ichiyanagi

Nakamura

2016

Metals

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Abstract:Characterizing material dynamics in non-equilibrium states is a current challenge in material and physical sciences. Combining laser and X-ray pulse sources enables the material dynamics in non-equilibrium conditions to be directly monitored. In this article, we review our nanosecond time-resolved X-ray diffraction studies with 100-ps X-ray pulses from synchrotron radiation concerning the dynamics of structural phase transitions in non-equilibrium high-pressure conditions induced by laser shock compression. The time evolution of structural deformation of single crystals, polycrystals, and glass materials was investigated. In a single crystal of cadmium sulfide, the expected phase transition was not induced within 10 ns at a peak pressure of 3.92 GPa, and an over-compressed structure was formed. In a polycrystalline sample of Y 2 O 3 stabilized tetragonal zirconia, reversible phase transitions between tetragonal and monoclinic phases occur within 20 ns under laser-induced compression and release processes at a peak pressure of 9.8 GPa.In polycrystalline bismuth, a sudden transition from Bi-I to Bi-V phase occurs within approximately 5 ns at 11 GPa, and sequential V-III-II-I phase transitions occur within 30 ns during the pressure release process. In fused silica shocked at 3.5 GPa, an intermediate-range structural change in the nonlinear elastic region was observed.

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“…Sharing the characteristic advantages of high penetration and quantitative contrast with other x-ray imaging modalities, it can in addition exploit the advantage of high temporal resolution down to single pulse imaging with synchrotron (SR) and free electron laser (FEL) radiation [128,129]. This is for the simple reason, that a full wavefield can be probed in a single shot without scanning.…”

Section: Introductionmentioning

confidence: 99%

X-Ray Near-Field Holography: Beyond Idealized Assumptions of the Probe

Hagemann¹

2017

Göttingen Series in X-Ray Physics

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Imaging Shock Waves in Diamond with Both High Temporal and Spatial Resolution at an XFEL

Cited by 105 publications

References 32 publications

Nanofocusing with aberration-corrected rotationally parabolic refractive X-ray lenses

Nanofocusing with aberration-corrected rotationally parabolic refractive X-ray lenses

Structural Dynamics of Materials under Shock Compression Investigated with Synchrotron Radiation

X-Ray Near-Field Holography: Beyond Idealized Assumptions of the Probe

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