Average kinetic energies of <em>n</em>th photoelectrons from Ar<sub>1000</sub> irradiated by 62 nm EUV–FEL pulses H Iwayama N Saito K Ueda K Motomura G Prümper X-J Liu H Fukuzawa M Yao K Nagaya A Rudenko 10.6084/m9.figshare.1012433.v1 https://iop.figshare.com/articles/figure/_Average_kinetic_energies_of_em_n_em_th_photoelectrons_from_Ar_sub_1000_sub_irradiated_by_62_nm_EUV_/1012433 <p><strong>Figure 5.</strong> Average kinetic energies of <em>n</em>th photoelectrons from Ar<sub>1000</sub> irradiated by 62 nm EUV–FEL pulses.</p> <p><strong>Abstract</strong></p> <p>We report on the laser power dependence of photoabsorptions of Ar clusters irradiated by extreme ultraviolet–free electron laser (EUV–FEL) at the wavelength of 62 nm. We measured kinetic energy distributions of fragment ions with our ion momentum spectrometer. From the measured kinetic energy distributions, we estimated charge states of irradiated Ar clusters using the classical uniformly charged sphere model. Our results show that the EUV–FEL irradiation of Ar clusters results in the frustration of direct photoionization leading to nanoplasma formation and subsequent strong electron–ion charge recombination.</p> 2013-08-13 00:00:00 nm energy distributions charge laser power dependence electron Ar clusters results euv ion momentum spectrometer Ar clusters Atomic Physics Molecular Physics