Study of the 6.x nm short wavelength radiation spectra of laser-produced erbium plasmas for BEUV lithography

Author:

WU TaoORCID,WANG Qian,CHEN Liuan,LU Peixiang

Abstract

AbstractBeyond extreme ultraviolet (BEUV) radiation with a wavelength of 6.xnm for lithography is responsible for reducing the source wavelength to enable continued miniaturization of semiconductor devices. In this work, the Required BEUV light at 6.xnm wavelength was generated in dense and hot Nd:YAG laser-produced Er plasmas. The spectral contributions from the 4p–4d and 4d–4f transitions of singly, doubly and triply excited states of Er XXIV–Er XXXII in the BEUV band were calculated using Cowan and the Flexible Atomic Code. It was also found that the radiative transitions between multiply excited states dominate the narrow wavelength window around 6.xnm. Under the assumption of collisional radiative equilibrium of the laser-produced Er plasmas, the relative ion abundance in the experiment was inferred. Using the Boltzmann quantum state energy level distribution and Gram–Charlier fitting function of unresolved transition arrays (UTAs), the synthetic spectrum around 6.xnm was finally obtained and compared with the experimental spectrum. The spatio-temporal distributions of electron density and electron temperature were calculated based on radiation hydrodynamic simulation in order to identify the contributions of various ionic states to the UTAs arising from the Er plasmas near 6.xnm.

Funder

Guangdong Major Project of Basic and Applied Basic Research

Publisher

IOP Publishing

Subject

Condensed Matter Physics

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