2018
DOI: 10.1117/1.jmm.17.2.023505
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Absorption coefficient of metal-containing photoresists in the extreme ultraviolet

Abstract: The amount of absorbed light in thin photoresist films is a key parameter in photolithographic processing, but its experimental measurement is not straightforward. The optical absorption of metal oxide-based thin photoresist films for extreme ultraviolet (EUV) lithography was measured using an established methodology based on synchrotron light. Three types of materials were investigated: tin cage molecules, zirconium oxoclusters, and hafnium oxoclusters. The tin-containing compound was demonstrated to have opt… Show more

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Cited by 49 publications
(52 citation statements)
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References 37 publications
(49 reference statements)
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“…The main consequence is that absorption of light in this energy regime (soft X‐ray) leads to photoionization instead of resonant electronic transitions and, therefore, the chemical reactions are mainly performed by the secondary electrons generated upon irradiation. In addition, the probability of absorption of EUV photons is mainly determined by the elemental composition of the photoresist,, rather than the selection rules of classical photochemistry, where the characteristics of the frontier molecular orbitals can be used to predict the absorption probability.…”
Section: Introductionmentioning
confidence: 99%
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“…The main consequence is that absorption of light in this energy regime (soft X‐ray) leads to photoionization instead of resonant electronic transitions and, therefore, the chemical reactions are mainly performed by the secondary electrons generated upon irradiation. In addition, the probability of absorption of EUV photons is mainly determined by the elemental composition of the photoresist,, rather than the selection rules of classical photochemistry, where the characteristics of the frontier molecular orbitals can be used to predict the absorption probability.…”
Section: Introductionmentioning
confidence: 99%
“…The results validate this new synthetic approach for the preparation of custom-made EUV resists towards better lithographic performance. sorption of EUV photons is mainly determined by the elemental composition of the photoresist, [4,5] rather than the selection rules of classical photochemistry, where the characteristics of the frontier molecular orbitals can be used to predict the absorption probability.…”
Section: Introductionmentioning
confidence: 99%
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“…The linear absorption coefficient α of each doped material was the calculated according to the equation α= µ*δ/MW, where µ is the sum of atomic absorption cross-sections, δ is the density of the thin film and MW is the molecular weight. 16 ( Table 1). The choice of the doping ligands followed different criteria.…”
Section: Effect Of Doping Ligand On Sensitivitymentioning
confidence: 99%
“…Increasing the optical absorption of EUV resists can help reduce the yield impact of photon statistics without a direct increase in exposure doses. Chemical elements that are highly absorbing at EUV wavelengths are typically not used to make resists, 12 so new chemistry needs to be explored. Many of these elements are considered chemical contaminates in semiconductor processing, so contamination issues will need to be addressed if such elements are incorporated into EUV resists.…”
Section: Euv Resistsmentioning
confidence: 99%