Li, BowenBowenLiO'Sullivan, GerryGerryO'SullivanFu, Y.B.Y.B.FuDong, C.Z.C.Z.Dong2012-04-172012-04-172012 Ameri2012-01Physical Review A1050-2947 (print)1094-1622 (online)http://hdl.handle.net/10197/3569As research and development of extreme ultraviolet lithography (EUVL) sources at 6.7 nm (which will be based on emission from ionized gadolinium) has already begun, reliable atomic data are required in order to determine the optimum plasma conditions. However, the complexity of the atomic structure means that ab initio level-resolved dielectronic recombination (DR) calculations are currently unavailable for the ions of interest. Here we report the first detailed calculation of the DR rate coefficients for the ground state and first excited states of Pd-like gadolinium. Energy levels, radiative transition probabilities, and autoionization rates of Ag-like gadolinium for [Kr]4d94fnl, [Kr]4p54d104fnl, [Kr]4d95l'nl, and [Kr]4d96l'nl (n ≤ 18) complexes were calculated using the flexible atomic code (FAC). It was found that inclusion of 4p54d104fnl configurations has significant influence on the total DR rate coefficient. The DR rate coefficients obtained here are compared with radiative recombination and three-body recombination coeffcients. The results show that the DR rate coefficient is almost an order of magnitude higher than the coefficients for the other two recombination processes combined at plasma electron temperatures around 110 eV, which suggests that the DR process should be included in theoretical modeling for Pd-like gadolinium in EUVL source plasmas.1417857 bytesapplication/pdfenElectron-ion recombinationElectron attachmentIon recombinationScattering (Physics)GadoliniumJournal Article851012712-1012712-1010.1103/PhysRevA.85.012712https://creativecommons.org/licenses/by-nc-sa/1.0/