Titlebook: Ion acceleration and extreme light field generation based on ultra-short and ultra–intense lasers; Liangliang Ji Book 2014 Springer-Verlag

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Ion Acceleration I: Efficient Heavy Ion Acceleration by ESA,The new accelerating method, laser ion acceleration, attracts more and more attention nowadays since the acceleration gradient is at least four magnitudes higher than that of conventional methods. A number of novel mechanisms have been proposed for accelerating protons or heavier ions to high energi

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Extreme Light Field Generation I: Quasi-Single-Cycle Relativistic Laser Pulse,se to interact with a solid-density foil before the latter is damaged by the prepulse of the laser. Very hard diamond-like foils of ultrasmall, say 4.5 nm, thickness comparing with the skin depth of the light are now available. All these offer a good condition for studying relativistic laser–foil in

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Extreme Light Field Generation II: Short-Wavelength Single-Cycle Ultra-Intense Laser Pulse,arized (CP) laser pulse, the driving pulse (DR pulse), interacts with an overdense foil, the whole electron and proton layer is accelerated by light pressure and moves at an ultra-high velocity. With another counter-propagating CP pulse named the scattered pulse (SC pulse) impinging on this high-spe

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Liangliang Jis „Entzündung“ benannt. So wurden auch Krankheiten, von denen man nunmehr weiß, daß sie die Eigenschaften der Geschwülste besitzen, früher oft als „Entzündung“ bezeichnet. Heute wieder neigen manche Forscher zu der Behauptung, daß es besser wäre, den Entzündungsbegriff ganz aufzugeben. Man findet, d

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Extreme Light Field Generation III: Ultra-Intense Isolated Attosecond Pulse,In Chap.1, the important applications together with the generating methods of attosecond (AS) pulses have been introduced. Attosecond pulses (APs) are usually obtained by lasers of moderate intensity interacting with atoms.

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Introduction,–3], the light intensity has been enormously increased. Nowadays laser pulses with duration at the level of femtosecond (fs, 10.s) and peak intensity as high as 10. W/cm. are available in laboratories. The laser field is so strong, way beyond the electric field inside atoms, that matter will be ionized immediately after being irradiated.