S. Toleikis scite author profile

We report recent results on the performance of FLASH (Free Electron Laser in Hamburg) operating at a wavelength of 13.7 nm where unprecedented peak and average powers for a coherent EUV radiation source have been measured. In the saturation regime the peak energy approached 170 µJ for individual pulses while the average energy per pulse reached 70 µJ. The pulse duration was in the region of 10 femtoseconds and peak

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Creation and diagnosis of a solid-density plasma with an X-ray free-electron laser

Vinko

Ciricosta

Cho

et al. 2012

Nature

439

328

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Matter with a high energy density (>10(5) joules per cm(3)) is prevalent throughout the Universe, being present in all types of stars and towards the centre of the giant planets; it is also relevant for inertial confinement fusion. Its thermodynamic and transport properties are challenging to measure, requiring the creation of sufficiently long-lived samples at homogeneous temperatures and densities. With the advent of the Linac Coherent Light Source (LCLS) X-ray laser, high-intensity radiation (>10(17) watts per cm(2), previously the domain of optical lasers) can be produced at X-ray wavelengths. The interaction of single atoms with such intense X-rays has recently been investigated. An understanding of the contrasting case of intense X-ray interaction with dense systems is important from a fundamental viewpoint and for applications. Here we report the experimental creation of a solid-density plasma at temperatures in excess of 10(6) kelvin on inertial-confinement timescales using an X-ray free-electron laser. We discuss the pertinent physics of the intense X-ray-matter interactions, and illustrate the importance of electron-ion collisions. Detailed simulations of the interaction process conducted with a radiative-collisional code show good qualitative agreement with the experimental results. We obtain insights into the evolution of the charge state distribution of the system, the electron density and temperature, and the timescales of collisional processes. Our results should inform future high-intensity X-ray experiments involving dense samples, such as X-ray diffractive imaging of biological systems, material science investigations, and the study of matter in extreme conditions.

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Achieving few-femtosecond time-sorting at hard X-ray free-electron lasers

Harmand¹,

Coffee²,

Bionta³

et al. 2013

Nature Photon

357

296

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The soft x-ray free-electron laser FLASH at DESY: beamlines, diagnostics and end-stations

Tiedtke¹,

Azima²,

Bargen³

et al. 2009

New J. Phys.

361

290

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Direct Measurements of the Ionization Potential Depression in a Dense Plasma

et al. 2012

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We have used the Linac Coherent Light Source to generate solid-density aluminum plasmas at temperatures of up to 180 eV. By varying the photon energy of the x rays that both create and probe the plasma, and observing the K-α fluorescence, we can directly measure the position of the K edge of the highly charged ions within the system. The results are found to disagree with the predictions of the extensively used Stewart-Pyatt model, but are consistent with the earlier model of Ecker and Kröll, which predicts significantly greater depression of the ionization potential.

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S. Toleikis

Operation of a free-electron laser from the extreme ultraviolet to the water window

Creation and diagnosis of a solid-density plasma with an X-ray free-electron laser

Achieving few-femtosecond time-sorting at hard X-ray free-electron lasers

The soft x-ray free-electron laser FLASH at DESY: beamlines, diagnostics and end-stations

Direct Measurements of the Ionization Potential Depression in a Dense Plasma

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