Interferometric determination of intrinsic nonlinear Kerr index in lead-halide perovskites
Abstract
Lead halide perovskites have recently been reported to demonstrate an exceptionally high nonlinear (Kerr) refractive index n2 of up to 10-8 cm2/W in CH3NH3PbBr3. Other researchers however observe different, substantially more conservative numbers. In order to resolve this disagreement the nonlinear Kerr index of a bulk sample of lead halide perovskite was measured directly by means of an interferometer. This approach has many advantages as compared to the more standard z-scan technique. In particular this method allows studying the induced changes to the refractive index in a time-resolved manner, thus enabling to separate the different contributions to n2. The extracted n2 values for CsPbBr3 and MAPbBr3 at λ ≈ 1μ m are n2=+2.1× 10-14 cm2/W and n2=+6× 10-15 cm2/W respectively hence substantially lower than what has been indicated in most of the previous reports implying the latter should be regarded with a great care.
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