System-Dependent Signatures of Electronic and Vibrational Coherences in Electronic Two-Dimensional Spectra

Tomas Mancal; Niklas Christensson; Vladimir Lukes; Franz Milota; Oliver Bixner; Harald Kauffmann; Jürgen Hauer

doi:10.1021/jz300362k

System-Dependent Signatures of Electronic and Vibrational Coherences in Electronic Two-Dimensional Spectra

Tomas Mancal, Niklas Christensson, Vladimir Lukes, Franz Milota, Oliver Bixner, Harald Kauffmann, Jürgen Hauer (Corresponding author)

Publications: Contribution to journal › Article › Peer Reviewed

Abstract

In this work, we examine vibrational coherence in a molecular monomer, where time evolution of a nuclear wavepacket gives rise to oscillating diagonal- and off-diagonal peaks in two-dimensional electronic spectra. We find that the peaks oscillate out-of-phase, resulting in a cancellation in the corresponding pump probe spectra. Our results confirm the unique disposition of two-dimensional electronic spectroscopy (2D-ES) for the study of coherences. The oscillation pattern is in excellent agreement with the diagrammatic analysis of the third-order nonlinear response. We show how 2D-ES can be used to distinguish between ground- and excited-state wavepackets. On the basis of our results, we discuss coherences in coupled molecular aggregates involving both electronic and nuclear degrees of freedom. We conclude that a general distinguishing criterion based on the experimental data alone cannot be devised.

Original language	English
Pages (from-to)	1497-1502
Number of pages	6
Journal	The Journal of Physical Chemistry Letters
Volume	3
Issue number	11
DOIs	https://doi.org/10.1021/jz300362k
Publication status	Published - 2012

Austrian Fields of Science 2012

104017 Physical chemistry
103018 Materials physics

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10.1021/jz300362k

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abstract = "In this work, we examine vibrational coherence in a molecular monomer, where time evolution of a nuclear wavepacket gives rise to oscillating diagonal- and off-diagonal peaks in two-dimensional electronic spectra. We find that the peaks oscillate out-of-phase, resulting in a cancellation in the corresponding pump probe spectra. Our results confirm the unique disposition of two-dimensional electronic spectroscopy (2D-ES) for the study of coherences. The oscillation pattern is in excellent agreement with the diagrammatic analysis of the third-order nonlinear response. We show how 2D-ES can be used to distinguish between ground- and excited-state wavepackets. On the basis of our results, we discuss coherences in coupled molecular aggregates involving both electronic and nuclear degrees of freedom. We conclude that a general distinguishing criterion based on the experimental data alone cannot be devised.",

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AU - Mancal, Tomas

AU - Christensson, Niklas

AU - Lukes, Vladimir

AU - Milota, Franz

AU - Bixner, Oliver

AU - Kauffmann, Harald

AU - Hauer, Jürgen

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N2 - In this work, we examine vibrational coherence in a molecular monomer, where time evolution of a nuclear wavepacket gives rise to oscillating diagonal- and off-diagonal peaks in two-dimensional electronic spectra. We find that the peaks oscillate out-of-phase, resulting in a cancellation in the corresponding pump probe spectra. Our results confirm the unique disposition of two-dimensional electronic spectroscopy (2D-ES) for the study of coherences. The oscillation pattern is in excellent agreement with the diagrammatic analysis of the third-order nonlinear response. We show how 2D-ES can be used to distinguish between ground- and excited-state wavepackets. On the basis of our results, we discuss coherences in coupled molecular aggregates involving both electronic and nuclear degrees of freedom. We conclude that a general distinguishing criterion based on the experimental data alone cannot be devised.

AB - In this work, we examine vibrational coherence in a molecular monomer, where time evolution of a nuclear wavepacket gives rise to oscillating diagonal- and off-diagonal peaks in two-dimensional electronic spectra. We find that the peaks oscillate out-of-phase, resulting in a cancellation in the corresponding pump probe spectra. Our results confirm the unique disposition of two-dimensional electronic spectroscopy (2D-ES) for the study of coherences. The oscillation pattern is in excellent agreement with the diagrammatic analysis of the third-order nonlinear response. We show how 2D-ES can be used to distinguish between ground- and excited-state wavepackets. On the basis of our results, we discuss coherences in coupled molecular aggregates involving both electronic and nuclear degrees of freedom. We conclude that a general distinguishing criterion based on the experimental data alone cannot be devised.

U2 - 10.1021/jz300362k

DO - 10.1021/jz300362k

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IS - 11

ER -

System-Dependent Signatures of Electronic and Vibrational Coherences in Electronic Two-Dimensional Spectra

Abstract

Austrian Fields of Science 2012

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