Abstract
Upconversion (UC) processes are discussed on the examples of excited state absorption (ESA) in LaCl3: 1% Er3+ for 980nm excitation and energy transfer upconversion (ETU) in β-NaYF4: 20% Er3+ for 1523nm excitation. The crucial importance of resonance is demonstrated for one- and two-color excitations in LaCl3:Er. For ESA the excitation spectra are convolutions of the individual excitation steps and the UC luminescence intensity shows a linear dependence on the excitation power for each step. For one-color excited ESA and ETU in the low power limit, the exponent of the power dependence is equal to the number of excitation steps. The exponent is reduced due to saturation effects for high power excitation. The ETU excitation spectra resemble the ground state absorption as shown for β-NaYF4:Er. Upon broad-band excitation by sub-Si-band-gap infrared light β-NaYF4:Er shows UC luminescence mainly from the 4I11/2 state around 980nm which efficiently excites a Si solar cell. This Er UC luminescence is two orders of magnitude more intense than that of other rare earth ions under the same experimental conditions.
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