X-ray phase-contrast imaging (XPCI) is a versatile technique with applications in many fields, including fundamental physics, biology and medicine. Where X-ray absorption radiography requires high density ratios for effective imaging, the image contrast for XPCI is a function of the density gradient. In this letter, we apply XPCI to the study of laser-driven shock waves. Our experiment was conducted at the Petawatt High-Energy Laser for Heavy Ion EXperiments (PHELIX) at GSI. Two laser beams were used: one to launch a shock wave and the other to generate an X-ray source for phase-contrast imaging. Our results suggest that this technique is suitable for the study of warm dense matter (WDM), inertial confinement fusion (ICF) and laboratory astrophysics.
X-ray phase-contrast imaging for laser-induced shock waves / Antonelli, L.; Barbato, F.; Mancelli, D.; Trela, J.; Zeraouli, G.; Boutoux, G.; neumayer, P.; Atzeni, S.; Schiavi, A.; Volpe, L.; Bagnoud, V.; Brabetz, C.; Zielbauer, B.; Bradford, P.; Woolsey, N.; Borm, B.; Batani, D.. - In: EUROPHYSICS LETTERS. - ISSN 0295-5075. - 125:(2019). [10.1209/0295-5075/125/35002]
X-ray phase-contrast imaging for laser-induced shock waves
L. Antonelli
;F. Barbato;S. Atzeni;A. Schiavi;
2019
Abstract
X-ray phase-contrast imaging (XPCI) is a versatile technique with applications in many fields, including fundamental physics, biology and medicine. Where X-ray absorption radiography requires high density ratios for effective imaging, the image contrast for XPCI is a function of the density gradient. In this letter, we apply XPCI to the study of laser-driven shock waves. Our experiment was conducted at the Petawatt High-Energy Laser for Heavy Ion EXperiments (PHELIX) at GSI. Two laser beams were used: one to launch a shock wave and the other to generate an X-ray source for phase-contrast imaging. Our results suggest that this technique is suitable for the study of warm dense matter (WDM), inertial confinement fusion (ICF) and laboratory astrophysics.File | Dimensione | Formato | |
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