Abstract
Near vacuum ultraviolet (UV) upconversion (UC) emissions with a spectral resolution of 1 nm, from the (6)G(J), (6)D(J), (6)I(J), (6)P(J) levels of Gd(3+) and the (2)L(17/2), (4)D(7/2), (2)H(2)(9/2), (2)D(5/2), (4)G(7/2), (2)K(13/2), (2)P(3/2) levels of Er(3+), were observed under 974 nm laser excitation. Mechanism analyses illustrate that successive energy transfers (ETs) from Yb(3+) to Er(3+) generate UV UC radiations in Er(3+), while two resonant ETs from Er(3+) to Gd(3+) lead to UV UC radiations in Gd(3+). Power dependence analyses indicate that the expected inefficient four- and five-photon processes have been switched into efficient two-photon processes due to a super saturation UC phenomenon that employs consecutive saturations at the intermediate states.
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