Probing local and electronic structure in Warm Dense Matter: single pulse synchrotron x-ray absorption spectroscopy on shocked Fe

Torchio, R.; Occelli, F.; Mathon, O.; Sollier, Arnaud; Lescoute, E.; Videau, L.; Vinci, T.; Benuzzi‐Mounaix, A.; Headspith, Jon; Helsby, W.; Bland, S. N.; Eakins, Daniel E.; Chapman, David J.; Pascarelli, S.; Loubeyre, P.

doi:10.1038/srep26402

Cited by 56 publications

(39 citation statements)

References 31 publications

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“…2) is a characteristic feature of ε-Fe. 23,24 It was recently recognized that vanishing of this shoulder after heating indicates a chemical reaction between iron and…”

Section: Xanes Data Analysismentioning

confidence: 99%

Comparative study of the influence of pulsed and continuous wave laser heating on the mobilization of carbon and its chemical reaction with iron in a diamond anvil cell

Aprilis

Kantor

Kupenko

et al. 2019

Journal of Applied Physics

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“…2) is a characteristic feature of ε-Fe. 23,24 It was recently recognized that vanishing of this shoulder after heating indicates a chemical reaction between iron and…”

Section: Xanes Data Analysismentioning

confidence: 99%

Comparative study of the influence of pulsed and continuous wave laser heating on the mobilization of carbon and its chemical reaction with iron in a diamond anvil cell

Aprilis

Kantor

Kupenko

et al. 2019

Journal of Applied Physics

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“…Development of similar capabilities for EXAFS measurements are being carried out at NIF (Coppari et al, 2017). XAFS measurements have also been reported on laser-driven samples at pressure extending to the multimegabar range using other X-ray sources including laser-driven backlighter foils (Denoeud et al, 2014(Denoeud et al, , 2016a, synchrotrons (Torchio et al, 2016), and free electron lasers (Harmand et al, 2015).…”

Section: X-ray Absorption Spectroscopymentioning

confidence: 99%

“…Iron has also been used in a proof-of-principle experiment to demonstrate EXAFS capabilities on laser-shocked iron using a synchrotron X-ray source. In experiments performed at the European Synchrotron Radiation Facility, iron was shock compressed to as high as 500 GPa using a 35-J laser focused down to a 90-µm spot size (Torchio et al, 2016). Synchrotron X-rays were dispersed and focused on the sample using a curved crystal.…”

Section: Iron and Iron Alloys Ironmentioning

confidence: 99%

Ultra-High Pressure Dynamic Compression of Geological Materials

Duffy¹,

Smith

2019

Front. Earth Sci.

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Dynamic-compression experiments on geological materials are important for understanding the composition and physical state of the deep interior of the Earth and other planets. These experiments also provide insights into impact processes relevant to planetary formation and evolution. Recently, new techniques for dynamic compression using high-powered lasers and pulsed-power systems have been developed. These methods allow for compression on timescales ranging from nanoseconds to microseconds and can often achieve substantially higher pressure than earlier gas-gun-based loading techniques. The capability to produce shockless (i.e., ramp) compression provides access to new regimes of pressure-temperature space and new diagnostics allow for a more detailed understanding of the structure and physical properties of materials under dynamic loading. This review summarizes these recent advances, focusing on results for geological materials at ultra-high pressures above 200 GPa. Implications for the structure and dynamics of planetary interiors are discussed.

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“…In addition, if a sample is too thick, release waves from the ablating material may dramatically reduce the pressure in a portion of the sample. A sandwich target can also be designed to reach off-Hugoniot states or to sustain the peak pressure for longer time (few ns) [21] . In this case, the sample can be embedded between two layers of a material with impedance similar to the studied sample.…”

Section: Targets For Dynamic Compression Physicsmentioning

confidence: 99%

Targets for high repetition rate laser facilities: needs, challenges and perspectives

Prencipe

Fuchs

Pascarelli

et al. 2017

High Pow Laser Sci Eng

125

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2 I. Prencipe et al.Abstract A number of laser facilities coming online all over the world promise the capability of high-power laser experiments with shot repetition rates between 1 and 10 Hz. Target availability and technical issues related to the interaction environment could become a bottleneck for the exploitation of such facilities. In this paper, we report on target needs for three different classes of experiments: dynamic compression physics, electron transport and isochoric heating, and laser-driven particle and radiation sources. We also review some of the most challenging issues in target fabrication and high repetition rate operation. Finally, we discuss current target supply strategies and future perspectives to establish a sustainable target provision infrastructure for advanced laser facilities.

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Probing local and electronic structure in Warm Dense Matter: single pulse synchrotron x-ray absorption spectroscopy on shocked Fe

Cited by 56 publications

References 31 publications

Comparative study of the influence of pulsed and continuous wave laser heating on the mobilization of carbon and its chemical reaction with iron in a diamond anvil cell

Comparative study of the influence of pulsed and continuous wave laser heating on the mobilization of carbon and its chemical reaction with iron in a diamond anvil cell

Ultra-High Pressure Dynamic Compression of Geological Materials

Targets for high repetition rate laser facilities: needs, challenges and perspectives

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