Probing molecular photophysics in a matter-wave interferometer

Lukas Martinetz; Benjamin A. Stickler; Ksenija Simonović; Richard Ferstl; Christian Brand; Markus Arndt; Klaus Hornberger

doi:10.48550/arXiv.2407.18775

Probing molecular photophysics in a matter-wave interferometer

Lukas Martinetz, Benjamin A. Stickler, Ksenija Simonović, Richard Ferstl, Christian Brand, Markus Arndt, Klaus Hornberger

Quantum Optics, Quantum Nanophysics and Quantum Information

Publications: Contribution to journal › Article › Peer Reviewed

Abstract

We show that matter-wave diffraction off a single standing laser wave can be used as an accurate measurement scheme for photophysical molecular parameters. These include state-dependent optical polarizabilities and photon-absorption cross sections, the relaxation rates for fluorescence, internal conversion, and intersystem crossing, as well as ionization or cleavage probabilities. We discuss how the different photophysical processes manifest as features of the interference pattern, and we determine the accuracy of molecular parameters estimated from a realistic measurement with finite particle numbers. The analysis is based on an analytic calculation in Wigner representation, which accounts for the laser-induced coherent and incoherent dynamics, for the finite longitudinal and transverse coherence in the matter-wave beam, the gravitational and Coriolis acceleration, and an imperfect standing laser wave.

Original language	English
Article number	043270
Number of pages	17
Journal	Physical Review Research
Volume	6
Issue number	4
DOIs	https://doi.org/10.48550/arXiv.2407.18775 https://doi.org/10.1103/PhysRevResearch.6.043270
Publication status	Published - Dec 2024

Austrian Fields of Science 2012

103025 Quantum mechanics
103005 Atomic physics
103021 Optics

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10.48550/arXiv.2407.18775Licence: Other
10.1103/PhysRevResearch.6.043270Licence: CC BY 4.0

Cite this

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title = "Probing molecular photophysics in a matter-wave interferometer",

abstract = "We show that matter-wave diffraction off a single standing laser wave can be used as an accurate measurement scheme for photophysical molecular parameters. These include state-dependent optical polarizabilities and photon-absorption cross sections, the relaxation rates for fluorescence, internal conversion, and intersystem crossing, as well as ionization or cleavage probabilities. We discuss how the different photophysical processes manifest as features of the interference pattern, and we determine the accuracy of molecular parameters estimated from a realistic measurement with finite particle numbers. The analysis is based on an analytic calculation in Wigner representation, which accounts for the laser-induced coherent and incoherent dynamics, for the finite longitudinal and transverse coherence in the matter-wave beam, the gravitational and Coriolis acceleration, and an imperfect standing laser wave.",

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AU - Brand, Christian

AU - Arndt, Markus

AU - Hornberger, Klaus

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N2 - We show that matter-wave diffraction off a single standing laser wave can be used as an accurate measurement scheme for photophysical molecular parameters. These include state-dependent optical polarizabilities and photon-absorption cross sections, the relaxation rates for fluorescence, internal conversion, and intersystem crossing, as well as ionization or cleavage probabilities. We discuss how the different photophysical processes manifest as features of the interference pattern, and we determine the accuracy of molecular parameters estimated from a realistic measurement with finite particle numbers. The analysis is based on an analytic calculation in Wigner representation, which accounts for the laser-induced coherent and incoherent dynamics, for the finite longitudinal and transverse coherence in the matter-wave beam, the gravitational and Coriolis acceleration, and an imperfect standing laser wave.

AB - We show that matter-wave diffraction off a single standing laser wave can be used as an accurate measurement scheme for photophysical molecular parameters. These include state-dependent optical polarizabilities and photon-absorption cross sections, the relaxation rates for fluorescence, internal conversion, and intersystem crossing, as well as ionization or cleavage probabilities. We discuss how the different photophysical processes manifest as features of the interference pattern, and we determine the accuracy of molecular parameters estimated from a realistic measurement with finite particle numbers. The analysis is based on an analytic calculation in Wigner representation, which accounts for the laser-induced coherent and incoherent dynamics, for the finite longitudinal and transverse coherence in the matter-wave beam, the gravitational and Coriolis acceleration, and an imperfect standing laser wave.

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Probing molecular photophysics in a matter-wave interferometer

Abstract

Austrian Fields of Science 2012

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ELUQUINT: Exploring the Limits of Universal Quantum Interferometry

SuperMaMa: Superconducting Mass Spectrometry and Molecule Analysis

MUSCLE: Multi-Scale Cluster Interference Experiment

Cite this

Probing molecular photophysics in a matter-wave interferometer

Abstract

Austrian Fields of Science 2012

Access to Document

Other files and links

Fingerprint

Projects

ELUQUINT: Exploring the Limits of Universal Quantum Interferometry

SuperMaMa: Superconducting Mass Spectrometry and Molecule Analysis

MUSCLE: Multi-Scale Cluster Interference Experiment

Cite this