Fragmentation of long-lived hydrocarbons after strong field ionization

Larimian, Seyedreza; Erattupuzha, Sonia; Lötstedt, Erik; Szidarovszky, Tamás; Maurer, R.J.; Roither, Stefan; Schöffler, M. S.; Kartashov, Daniil; Baltuška, Andrius; Yamanouchi, Kaoru; Kitzler, Markus; Xie, Xinhua

doi:10.1103/physreva.93.053405

Cited by 22 publications

(18 citation statements)

References 42 publications

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“…One of the striking signatures of dissociation in flight in the coincidence time-of-flight (CTOF) spectrum is a long, curved stripe that extends from the prompt breakup region and terminates at the intact metastable ion time of flight. This signature has been noted in CTOF spectra from a myriad of studies [35][36][37][38][39][40][41][42][43][44][45][46][47][48].…”

Section: Introductionmentioning

confidence: 69%

“…To demonstrate our approach, we examine the same dissociation-in-flight channel as Larimian et al [47]. Namely, we look at deprotonation of metastable ethylene dications, C 2 H 4 2  + C 2 H 3 + +H + (as well as the deuterated equivalent), using the cold target recoil ion momentum spectroscopy (COLTRIMS) technique [27,28].…”

Section: Experimental Methodsmentioning

confidence: 99%

“…Subsequent studies have implemented this method of lifetime retrieval for other metastable molecules [39,[41][42][43][44]. Recently, making some simplifying assumptions, Larimian et al [47] calculated t d kinematically and retrieved the lifetime for deprotonation of the metastable ethylene dication. They also retrieved the momentum distribution of the fragments using Abel inversion [49] of the position image and discussed possible decay routes.…”

Section: Introductionmentioning

confidence: 99%

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Three-dimensional momentum imaging of dissociation in flight of metastable molecules

et al. 2017

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We investigate dissociation in flight of metastable molecular dications formed by ultrashort, intense laser pulses using the cold target recoil ion momentum spectroscopy technique. A method for retrieving the lifetime(s) of the transient metastable state(s) as well as the complete three-dimensional momenta of the dissociating fragments is presented. Specifically, we demonstrate and discuss this approach by focusing on dissociation in flight of the ethylene dication going to the deprotonation channel. Two lifetimes are found to be associated with this process, C 2 H 4 2  + C 2 H 3 + + H + : 202 10 1 t =  ns and 916 40 2 t =  ns. For the corresponding channel in deuterated ethylene, lifetimes of 269 29 1 t =  ns and 956 83 2 t =  ns are obtained.

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Section: Introductionmentioning

confidence: 69%

Section: Experimental Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Three-dimensional momentum imaging of dissociation in flight of metastable molecules

et al. 2017

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“…MMCs undergo rapid dissociation, namely, a Coulomb explosion, due to strong Coulomb repulsions between positive charges. Molecular structures within a Coulomb explosion have been investigated by using various methods such as covariance mapping, momentum imaging, photoion–photoion‐coincidence spectroscopy, and simple measurements of kinetic energy releases . In contrast, long‐lived MMCs have not been studied in detail.…”

Section: Introductionmentioning

confidence: 99%

“…The thermal and photochemical reactions of cation radicals have been well explored . However, little is known about MMCs except dications . Since MMCs are metastable in nature, slow dissociation processes, namely, metastable decays and/or post‐source decays (PSDs), are expected to occur when sufficient internal energy is deposited on a precursor MMC.…”

Section: Introductionmentioning

confidence: 99%

Selection of a Single Isotope of Multiply Charged Xenon (^AXe^z+, A=128–136, z=1–6) by Using a Bradbury–Nielsen Ion Gate

et al. 2017

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The inclusion of an ion gate in a tandem mass spectrometer allows a specific precursor ion to be selected, and the fragment ions are then used for structure analysis and to investigate chemical reactions. However, the performance of an ion gate has been judged simply by whether or not the target ion was selected. In this study, we designed, manufactured, constructed, and characterized a Bradbury-Nielsen ion gate (BNG). The actual ion selection ability, i.e. the gate function, of the BNG was measured for isotopes of Xe (z=1-6). The gate function of the BNG was 36.5±0.5 ns in width and 3-13 ns in rise and fall times. The BNG provides a simple way to select multiply charged molecular cations of small organic molecules as well as large molecules such as proteins and peptides.

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Inside Back Cover: Selection of a Single Isotope of Multiply Charged Xenon (^AXe^z+, A=128–136, z=1–6) by Using a Bradbury–Nielsen Ion Gate (ChemPhysChem 15/2017)

et al. 2017

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Ion gate equipped in a tandem mass spectrometer is utilized to select a specific precursor ion, and its fragment ions are then assessed for both a structure analysis and an investigation of the chemical reactions. However, the performance of an ion gate has been judged simply by whether or not the target ion was selected. In this study, we designed, manufactured, constructed, and characterized a Bradbury−Nielsen ion gate (BNG). Further, the actual ion selection ability, i.e., the gate function, of the BNG was measured for the isotopes of Xe z+ (z = 1-6). The gate function of our BNG was 36.5±0.5 ns in width and 3-13 ns in rise and fall times. Our BNG provides a simple means of satisfying the requirement of selecting multiply charged molecular cations of small organic molecules as well as large molecules such as protein and peptides.

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Fragmentation of long-lived hydrocarbons after strong field ionization

Cited by 22 publications

References 42 publications

Three-dimensional momentum imaging of dissociation in flight of metastable molecules

Three-dimensional momentum imaging of dissociation in flight of metastable molecules

Selection of a Single Isotope of Multiply Charged Xenon (^AXe^z+, A=128–136, z=1–6) by Using a Bradbury–Nielsen Ion Gate

Inside Back Cover: Selection of a Single Isotope of Multiply Charged Xenon (^AXe^z+, A=128–136, z=1–6) by Using a Bradbury–Nielsen Ion Gate (ChemPhysChem 15/2017)

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Fragmentation of long-lived hydrocarbons after strong field ionization

Cited by 22 publications

References 42 publications

Three-dimensional momentum imaging of dissociation in flight of metastable molecules

Three-dimensional momentum imaging of dissociation in flight of metastable molecules

Selection of a Single Isotope of Multiply Charged Xenon (AXez+, A=128–136, z=1–6) by Using a Bradbury–Nielsen Ion Gate

Inside Back Cover: Selection of a Single Isotope of Multiply Charged Xenon (AXez+, A=128–136, z=1–6) by Using a Bradbury–Nielsen Ion Gate (ChemPhysChem 15/2017)

Contact Info

Product

Resources

About

Selection of a Single Isotope of Multiply Charged Xenon (^AXe^z+, A=128–136, z=1–6) by Using a Bradbury–Nielsen Ion Gate

Inside Back Cover: Selection of a Single Isotope of Multiply Charged Xenon (^AXe^z+, A=128–136, z=1–6) by Using a Bradbury–Nielsen Ion Gate (ChemPhysChem 15/2017)