Tomoyuki Endo scite author profile

Since the discovery of roaming as an alternative molecular dissociation pathway in formaldehyde (H2CO), it has been indirectly observed in numerous molecules. The phenomenon describes a frustrated dissociation with fragments roaming at relatively large interatomic distances rather than following conventional transition-state dissociation; incipient radicals from the parent molecule self-react to form molecular products. Roaming has been identified spectroscopically through static product channel–resolved measurements, but not in real-time observations of the roaming fragment itself. Using time-resolved Coulomb explosion imaging (CEI), we directly imaged individual “roamers” on ultrafast time scales in the prototypical formaldehyde dissociation reaction. Using high-level first-principles simulations of all critical experimental steps, distinctive roaming signatures were identified. These were rendered observable by extracting rare stochastic events out of an overwhelming background using the highly sensitive CEI method.

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Selective bond breaking of CO₂ in phase-locked two-color intense laser fields: laser field intensity dependence

Endo

Fujise

Kawachi

et al. 2017

Phys. Chem. Chem. Phys.

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Selective bond breaking of CO in phase-locked ω-2ω two-color intense laser fields (λ = 800 nm and 400 nm, total field intensity I ∼ 10 W cm) has been investigated by coincidence momentum imaging. The CO and O fragment ions produced by two-body Coulomb explosion, CO → CO + O, exhibit asymmetric distributions along the laser polarization direction, showing that one of the two equivalent C-O bonds is selectively broken by the laser fields. At a field intensity higher than 2 × 10 W cm, the largest fragment asymmetry is observed when the relative phase ϕ between the ω and 2ω laser fields is ∼0 and π. On the other hand, an increase of the asymmetry and a shift of the phase providing the largest asymmetry are observed at lower field intensities. The selective bond breaking and its dependence on the laser field intensity are discussed in terms of a mechanism involving deformation of the potential energy surfaces and electron recollision in intense laser fields.

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Imaging Electronic Excitation of NO by Ultrafast Laser Tunneling Ionization

et al. 2016

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Tunneling-ionization imaging of photoexcitation of NO has been demonstrated by using few-cycle near-infrared intense laser pulses (8 fs, 800 nm, 1.1×10^{14} W/cm^{2}). The ion image of N^{+} fragment ions produced by dissociative ionization of NO in the ground state, NO (X^{2}Π,2π)→NO^{+}+e^{-}→N^{+}+O+e^{-}, exhibits a characteristic momentum distribution peaked at 45° with respect to the laser polarization direction. On the other hand, a broad distribution centered at ∼0° appears when the A^{2}Σ^{+} (3sσ) excited state is prepared as the initial state by deep-UV photoexcitation. The observed angular distributions are in good agreement with the corresponding theoretical tunneling ionization yields, showing that the fragment anisotropy reflects changes of the highest-occupied molecular orbital by photoexcitation.

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Femtosecond two-photon Rabi oscillations in excited He driven by ultrashort intense laser fields

et al. 2015

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Coincidence momentum imaging of asymmetric Coulomb explosion of CO2 in phase-locked two-color intense laser fields

Endo

Fujise

Matsuda

et al. 2016

Journal of Electron Spectroscopy and Related Phenomena

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Angle dependence of dissociative tunneling ionization of NO in asymmetric two-color intense laser fields

et al. 2019

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Post-Ionization Dynamics of the Polar Molecule OCS in Asymmetric Laser Fields

et al. 2022

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We have investigated the dissociation mechanisms of the prototypical heavy polar molecule OCS into the two break-up channels of the dication, OCS2+ → O+ + CS+ and OC+ + S+, in phase-locked two-color intense laser fields. The branching ratio of the breaking of the C–O and C–S bonds followed a pronounced 2π-oscillation with a modulation depth of 11%, depending on the relative phase of the two-color laser fields. The fragment ejection direction of both break-up channels reflects the anisotropy of the tunneling ionization rate, following a 2π-periodicity, as well. The two dissociation pathways in the C–S bond breaking channel show different phase dependencies of the fragment ejection direction, which are assigned to post-ionization dynamics. These observations, resulting from the excitation with asymmetric two-color intense laser fields, supported by state-of-the-art theoretical simulations, reveal the importance of post-ionization population dynamics in addition to tunneling ionization in the molecular fragmentation processes, even for heavy polar molecules.

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Nonresonant EUV-UV two-color two-photon ionization of He studied by single-shot photoelectron spectroscopy

et al. 2013

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Tomoyuki Endo

Capturing roaming molecular fragments in real time

Selective bond breaking of CO₂ in phase-locked two-color intense laser fields: laser field intensity dependence

Imaging Electronic Excitation of NO by Ultrafast Laser Tunneling Ionization

Femtosecond two-photon Rabi oscillations in excited He driven by ultrashort intense laser fields

Coincidence momentum imaging of asymmetric Coulomb explosion of CO2 in phase-locked two-color intense laser fields

Angle dependence of dissociative tunneling ionization of NO in asymmetric two-color intense laser fields

Post-Ionization Dynamics of the Polar Molecule OCS in Asymmetric Laser Fields

Nonresonant EUV-UV two-color two-photon ionization of He studied by single-shot photoelectron spectroscopy

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About

Tomoyuki Endo

Capturing roaming molecular fragments in real time

Selective bond breaking of CO2 in phase-locked two-color intense laser fields: laser field intensity dependence

Imaging Electronic Excitation of NO by Ultrafast Laser Tunneling Ionization

Femtosecond two-photon Rabi oscillations in excited He driven by ultrashort intense laser fields

Coincidence momentum imaging of asymmetric Coulomb explosion of CO2 in phase-locked two-color intense laser fields

Angle dependence of dissociative tunneling ionization of NO in asymmetric two-color intense laser fields

Post-Ionization Dynamics of the Polar Molecule OCS in Asymmetric Laser Fields

Nonresonant EUV-UV two-color two-photon ionization of He studied by single-shot photoelectron spectroscopy

Contact Info

Product

Resources

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Selective bond breaking of CO₂ in phase-locked two-color intense laser fields: laser field intensity dependence