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Lorentz meets Fano spectral line shapes: A universal phase and its laser control

Symmetric Lorentzian and asymmetric Fano line shapes are fundamental spectroscopic signatures that quantify the structural and dynamical properties of nuclei, atoms, molecules, and solids. This study introduces a universal temporal-phase formalism, mapping the Fano asymmetry parameter q to a phase ϕ of the time-dependent dipole-response function. The formalism is confirmed experimentally by laser-transforming Fano absorption lines of autoionizing helium into Lorentzian lines after attosecond-pulsed excitation. We also prove the inverse, the transformation of a naturally Lorentzian line into a Fano profile. A further application of this formalism amplifies resonantly interacting extreme-ultraviolet light by quantum-phase control. The quantum phase of excited states and its response to interactions can thus be extracted from line-shape analysis, with scientific applications in many branches of spectroscopy.

preprint2013arXivOpen access
Christian OttAndreas KaldunPhilipp RaithKristina MeyerMartin LauxJörg EversChristoph H. KeitelChris H. GreeneThomas Pfeifer
physics.atom-ph
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Christian OttAndreas KaldunPhilipp RaithKristina MeyerMartin LauxJörg EversChristoph H. KeitelChris H. GreeneThomas Pfeifer

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