Mass spectrometric and charge density studies of organometallic clusters photoionized by gigawatt laser pulses

Badani, Purav M.; Das, Soumitra; Sharma, Pramod K.; Vatsa, R.K.

doi:10.1002/mas.21469

Cited by 10 publications

(17 citation statements)

References 75 publications

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“…The role of resonance is to provide a facile pathway of ionization for Ar, and given the field strength and the related line-broadening, many levels can come into resonance and achieve the resonant enhancement of coherent multiphoton absorption. In fact, we believe that this is exactly the case for neat molecular clusters with many vibronic levels available for resonant enhancement. ,− …”

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confidence: 74%

“…Among the three major points raised by VM, we are in full agreement with the authors on the limited role of the chromophore and the beneficial effect of resonance for the formation of Ar + . In the introduction of our Letter, references to a variety of compounds investigated by three other groups are listed, − and the lack of a common structural motif among the compounds implies that a chromophore is not the prerequisite to observe MCAIs. Our path of ionization for Ar + is specific only to our own experiment and is not intended to be general: the path with the resonances is the enhanced path, offering a higher probability of excitation than otherwise.…”

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confidence: 99%

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Production of Multiply Charged Argon Ions in Moderate Nanosecond Laser Fields: An Open Question or a Forgone Conclusion?

Yao

Zhang

Pandey

et al. 2020

J. Phys. Chem. Lett.

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We reply to the Viewpoint by Vatsa and Mathur on our publication reporting the observation of multiply charged atomic ions from argon clusters doped with aromatic chromophores in a moderate nanosecond laser field. Vatsa and Mathur raised three concerns about the proposed explanation and offered additional ideas for the reported process. We agree with some of their concerns and welcome the addition of information, and we also clarify a few misunderstandings of our intention, perhaps caused by our implicit assumption of contextual relations. While the experimental results are indisputable, the interpretation is still a topic of debate, subject to further experimental investigations and theoretical modeling.

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confidence: 74%

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confidence: 99%

Production of Multiply Charged Argon Ions in Moderate Nanosecond Laser Fields: An Open Question or a Forgone Conclusion?

Yao

Zhang

Pandey

et al. 2020

J. Phys. Chem. Lett.

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“…However, it should be mentioned that Coulomb explosion of clusters followed by the ejection of ions with large charge number and high energy occurs even by using nanosecond laser pulses [22,23]. In the cases of the Coulomb explosion processes initiated by using nanosecond and/or picosecond laser pulses, clusters can relax to their most stable structures and, thus, information about the initial configuration is lost.…”

Section: Molecular Complexes and Clustersmentioning

confidence: 99%

“…When the charge numbers of MMCs are large enough, the energies released in Coulomb explosion are easily several tens of eV, which is significantly more than typical chemical bonding energies. Coulomb explosion processes have been discussed for molecules [20] and clusters [21][22][23] in the gas phase. In contrast, Coulomb explosions of solids such as metals, dielectrics, semiconductors, polymers, and molecular crystals have been less emphasis even in recent reviews of the subject [24][25][26][27].…”

Section: Introductionmentioning

confidence: 99%

Multiple ionization and Coulomb explosion of molecules, molecular complexes, clusters and solid surfaces

Yatsuhashi

Nakashima

2018

Journal of Photochemistry and Photobiology C: Photochemistry Re

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Intense femtosecond lasers as well as X-ray free electron lasers provide new means to produce multiply charged molecular cations. The fragmentation processes that these high energy species undergo, termed Coulomb explosion, are utilized to determine the static molecular structures as well as to trace the molecular dynamics of ultrafast chemical reactions. This review focuses on recent advances made in studies of Coulomb explosion imaging, highlighting the use of this process to determine the static structures of complex molecules, geometric isomers, chiral molecules and molecular complexes. Briefly, we summarize the recent time-resolved studies of surface electric fields and the controversy pertaining to the contribution of Coulomb explosion to the mechanism for ablation of solid surfaces.

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“…At the same time, the productions of multiply charged metals as well as their large kinetic energy release in clusters have also been reported by using nanosecond laser pulses. [29,30] Several ionization and relaxation mechanisms in clusters have been proposed, and controversy as to arguments regarding the energy gain mechanism is ongoing. [31][32][33] Kinetic energy of ions formed in clusters is not simply explained by the interaction between ions but by the collective effect of many atoms, atomic ions, and electrons.…”

Section: Introductionmentioning

confidence: 99%

Multiply charged energetic metal ion emissions from dinuclear metal complex exposed to intense femtosecond laser fields

Matsumoto

Tanaka

Nakashima

et al. 2020

International Journal of Mass Spectrometry

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Coulomb explosion of nonmetal ions emerged from a variety of molecules has been studied and utilized for the determination of molecular structure and reaction dynamics. In contrast, Coulomb explosion of metal ions, particularly the large Coulombic interactions are expected,has not yet been explored. In this study, the angular distributions of Mn x+ (x = 1-5), C y+ (y = 1-4), and O z+ (z = 1-3) emerged from dimanganese decacarbonyl, in which two metal atoms are sandwiched by axial ligands, exposed to intense femtosecond laser fields (1×10 14 -3×10 15 W cm −2 ) are investigated. Manganese ions are produced at relatively low laser intensity compared with other transition metal ions with the same charge number but emerged from mononuclear complexes such as metallocenes and metal hexacarbonyls. The kinetic energies of Mn 4+ and Mn 5+ are described by the simple Coulomb repulsion model of manganese dimer ion. Fairly high kinetic energy of oxygen and carbon ions compared with those emerged from metal hexacarbonyls strongly suggests that atomic ions originating in ligands are repelled by manganese ions at the moment of Coulomb explosion. The use of dinuclear metal complex is advantageous in the production of multiply charged metal ions accompanying high kinetic energy since two manganese ions are in close confinement due to the repulsions with axial ligand (atomic) ions.

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Mass spectrometric and charge density studies of organometallic clusters photoionized by gigawatt laser pulses

Cited by 10 publications

References 75 publications

Production of Multiply Charged Argon Ions in Moderate Nanosecond Laser Fields: An Open Question or a Forgone Conclusion?

Production of Multiply Charged Argon Ions in Moderate Nanosecond Laser Fields: An Open Question or a Forgone Conclusion?

Multiple ionization and Coulomb explosion of molecules, molecular complexes, clusters and solid surfaces

Multiply charged energetic metal ion emissions from dinuclear metal complex exposed to intense femtosecond laser fields

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