Electron release of rare gas atom clusters under an intense laser pulse

Abstract

Calculating the energy absorption of atomic clusters as a function of the laser pulse length T we find a maximum for a critical T*. We show that T* can be linked to an optimal cluster radius R*. The existence of this radius can be attributed to the enhanced ionization mechanism originally discovered for diatomic molecules. Our findings indicate that enhanced ionization should be operative for a wide class of rare gas clusters. From a simple Coulomb explosion ansatz, we derive an analytical expression relating the maximum energy release to a suitably scaled expansion time which can be expressed with the pulse length T*.

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