Real-time observation of multi-mode vibronic coherence in pentafluoropyridine

The ultrafast dynamics of pentafluoropyridine in the 1 1B2 (ππ*) electronic state excited at λpump = 255 nm is investigated by femtosecond time-resolved time-of-flight mass spectrometry and photoelectron imaging spectroscopy. A pronounced, long-lived, and complex periodic modulation of the transient...

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Veröffentlicht in:	The Journal of chemical physics 2017-07, Vol.147 (1), p.013938-013938
Hauptverfasser:	Kus, J. A., Hüter, O., Temps, F.
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Sprache:	eng
Schlagworte:	Coherence Coupling (molecular) Dipole moments Electron states Electronic structure Ionization Ions Mass spectrometry Molecular structure Physics Special Topic: Developments and Applications of Velocity Mapped Imaging Techniques
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creator	Kus, J. A. Hüter, O. Temps, F.
description	The ultrafast dynamics of pentafluoropyridine in the 1 1B2 (ππ) electronic state excited at λpump = 255 nm is investigated by femtosecond time-resolved time-of-flight mass spectrometry and photoelectron imaging spectroscopy. A pronounced, long-lived, and complex periodic modulation of the transient ion yield signal with contributions by four distinct frequency components, 72 cm−1, 144 cm−1, 251 cm−1, and 281 cm−1, is observed for up to 9 ps. The recorded photoelectron images display a spectral band from the excited 1 1B2 (ππ) state only in the oscillation maxima; the signal is strongly reduced in the oscillation minima. Supported by electronic structure calculations at the RI-SCS-CC2 and XMCQDPT2 levels of theory, the oscillating components of the signal are identified as frequencies of b1 symmetry coupling modes in a vibronic coherence of the 1 1B2 (ππ) and 1 1A2 (πσ) electronic states. The optical excitation initiates regular and periodic wavepacket motion along those out-of-plane modes. In the distorted molecular structure, the initially excited state acquires substantial πσ* character that modulates the transition dipole moment for ionization and results in the observed oscillations.
doi_str_mv	10.1063/1.4983306
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A. ; Hüter, O. ; Temps, F.</creator><creatorcontrib>Kus, J. A. ; Hüter, O. ; Temps, F.</creatorcontrib><description>The ultrafast dynamics of pentafluoropyridine in the 1 1B2 (ππ) electronic state excited at λpump = 255 nm is investigated by femtosecond time-resolved time-of-flight mass spectrometry and photoelectron imaging spectroscopy. A pronounced, long-lived, and complex periodic modulation of the transient ion yield signal with contributions by four distinct frequency components, 72 cm−1, 144 cm−1, 251 cm−1, and 281 cm−1, is observed for up to 9 ps. The recorded photoelectron images display a spectral band from the excited 1 1B2 (ππ) state only in the oscillation maxima; the signal is strongly reduced in the oscillation minima. Supported by electronic structure calculations at the RI-SCS-CC2 and XMCQDPT2 levels of theory, the oscillating components of the signal are identified as frequencies of b1 symmetry coupling modes in a vibronic coherence of the 1 1B2 (ππ) and 1 1A2 (πσ) electronic states. The optical excitation initiates regular and periodic wavepacket motion along those out-of-plane modes. 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A.</creatorcontrib><creatorcontrib>Hüter, O.</creatorcontrib><creatorcontrib>Temps, F.</creatorcontrib><title>Real-time observation of multi-mode vibronic coherence in pentafluoropyridine</title><title>The Journal of chemical physics</title><addtitle>J Chem Phys</addtitle><description>The ultrafast dynamics of pentafluoropyridine in the 1 1B2 (ππ) electronic state excited at λpump = 255 nm is investigated by femtosecond time-resolved time-of-flight mass spectrometry and photoelectron imaging spectroscopy. A pronounced, long-lived, and complex periodic modulation of the transient ion yield signal with contributions by four distinct frequency components, 72 cm−1, 144 cm−1, 251 cm−1, and 281 cm−1, is observed for up to 9 ps. The recorded photoelectron images display a spectral band from the excited 1 1B2 (ππ) state only in the oscillation maxima; the signal is strongly reduced in the oscillation minima. 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The recorded photoelectron images display a spectral band from the excited 1 1B2 (ππ) state only in the oscillation maxima; the signal is strongly reduced in the oscillation minima. Supported by electronic structure calculations at the RI-SCS-CC2 and XMCQDPT2 levels of theory, the oscillating components of the signal are identified as frequencies of b1 symmetry coupling modes in a vibronic coherence of the 1 1B2 (ππ) and 1 1A2 (πσ) electronic states. The optical excitation initiates regular and periodic wavepacket motion along those out-of-plane modes. 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subjects	Coherence Coupling (molecular) Dipole moments Electron states Electronic structure Ionization Ions Mass spectrometry Molecular structure Physics Special Topic: Developments and Applications of Velocity Mapped Imaging Techniques
title	Real-time observation of multi-mode vibronic coherence in pentafluoropyridine
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