Emission limited logarithmic and power law transients in pump-probe spectroscopy of perovskites

Abstract

Optical pump-probe techniques like absorption spectroscopy and microwave conductivity are widely used to characterize the carrier dynamics in perovskites for optoelectronic applications. In contrast to the prevalent assumption of exponentials, here we predict the possibility of trap emission limited logarithmic and power-law transients. These predictions are validated by detailed numerical simulations and well supported by several experimental reports from recent literature. Interestingly, these findings indicate the need to revisit the existing schemes which rely on simplified rate equations and exponential decays to estimate the recombination parameters from pump-probe spectroscopy. Accordingly, we suggest appropriate methodologies to back extract parameters related to trap distribution from such non-exponential transients. Indeed, the insights shared in this manuscript could fundamentally impact the usage and interpretation of transient spectroscopy for emerging materials for optoelectronic applications.