Photodissociation of CSCl2 at 235 nm: Kinetic energy distributions and branching ratios of Cl atoms and CSCl radicals

Einfeld, Tina S.; Maul, C.; Gericke, Karl‐Heinz; Chichinin, A. I.

doi:10.1063/1.1480272

Cited by 15 publications

(8 citation statements)

References 43 publications

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“…35 The present calculations indicate that S 2 dissociation to Cl(X ˜2P) + ClCS-(A ˜2A′′) is another important route for S 2 deactivation. In addition, the dominant ClCS fragment observed in the A ˜2A′′ excited state 28 indicates that S 2 C-Cl bond cleavage has some preference over S 2 f S 3 IC. This is consistent with the calculated result that TS(S 2 ) has lower energy relative to the S 3 /S 2 intersection.…”

Section: Resultsmentioning

confidence: 98%

“…The quantum yield of Cl production from Cl 2 CS was observed to be unity and pressure independent at excitation wavelengths shorter than 253.7 nm, which indicates that Cl 2 CS dissociation to ClCS + Cl is the only primary process and the dissociation must be direct . Recently, photodissociation dynamics of Cl 2 CS at 235 nm have been investigated employing the resonance-enhanced multiphoton ionization and time-of-flight technique …”

Section: Resultsmentioning

confidence: 99%

“…This was attributed to the crossing of the S 3 and S 2 electronic states at long C−S distance in several experimental studies. − The large C−S bond length in the S 3 state leads to very favorable FC factors for S 3 → S 0 IC. , If S 2 → S 3 IC followed by direct IC to the ground electronic state is the only route for S 2 deactivation at excess energies larger than 1700 cm -1 , the fragments are formed only in the ground state. However, it was found that the ClCS radicals are mainly produced in the excited electronic state upon photoexcitation of Cl 2 CS at 235 nm …”

Section: Resultsmentioning

confidence: 99%

“…The ClCS and Cl 2 fragments were detected by the 248 nm laser photolysis of a pulsed molecular beam of thiophosgene The photodissociation dynamics of Cl 2 CS at 235 nm have been studied by employing the resonance-enhanced multiphoton ionization and time-of-flight technique . It was found that Cl atoms and ClCS radicals were formed in the ground and excited states.…”

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

Striving To Understand the Photophysics and Photochemistry of Thiophosgene: A Combined CASSCF and MR−CI Study

Zhang

Ding

et al. 2005

J. Phys. Chem. A

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The potential energy surfaces for Cl(2)CS dissociation into ClCS + Cl in the five lowest electronic states have been determined with the combined complete active space self-consistent field (CASSCF) and MR-CI method. The wavelength-dependent photodissociation dynamics of Cl(2)CS have been characterized through computed potential energy surfaces, surface crossing points, and CASSCF molecular dynamics calculations. Irradiation of the Cl(2)CS molecules at 360-450 nm does not provide sufficient internal energy to overcome the barrier on S(1) dissociation, and the S(1)/T(2) intersection region is energetically inaccessible at this wavelength region; therefore, S(1) --> T(1) intersystem crossing is the dominant process, which is the main reason S(1)-S(0) fluorescence breaks off at excess energies of 3484-9284 cm(-1). Also, the S(1) --> T(2) intersystem crossing process can take place via the S(1)-T(2) vibronic interaction in this range of excess energies, which is mainly responsible for the quantum beats observed in the S(1) emission. Both S(2) direct dissociation and S(2) --> S(3) internal conversion are responsible for the abrupt breakoff of S(2)-S(0) fluorescence at higher excess energies. S(2) direct dissociation leads to the formation of the fragments of Cl(X(2)P) + ClCS(A(2)A' ') in excited electronic states, while S(2) --> S(3) internal conversion followed by direct internal conversion to the ground electronic state results in the fragments produced in the ground state.

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Section: Resultsmentioning

confidence: 98%

Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Striving To Understand the Photophysics and Photochemistry of Thiophosgene: A Combined CASSCF and MR−CI Study

Zhang

Ding

et al. 2005

J. Phys. Chem. A

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show abstract

“…15 The latter technique has been used for several years now and has successfully been applied to a number of systems. [16][17][18][19][20][21][22][23][24][25] In the past couple of years it has become more and more widespread in the molecular dynamics community, 26,27 but a drawback of this technique has been so far the lower energy resolution compared to velocity map imaging, slice imaging, or the technique suggested by Vrakking, since these techniques make use of ion optics. The ion optics serve to compensate for the length of the excitation volume which smears out the velocity distribution in the direction of the laser beam, if a homogeneous field is applied und parallel ion trajectories are not focused onto one point.…”

Section: Introductionmentioning

confidence: 99%

Three-dimensional velocity map imaging: Setup and resolution improvement compared to three-dimensional ion imaging

Kauczok

Goedecke

Chichinin

et al. 2009

Review of Scientific Instruments

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For many years the three-dimensional (3D) ion imaging technique has not benefited from the introduction of ion optics into the field of imaging in molecular dynamics. Thus, a lower resolution of kinetic energy as in comparable techniques making use of inhomogeneous electric fields was inevitable. This was basically due to the fact that a homogeneous electric field was needed in order to obtain the velocity component in the direction of the time of flight spectrometer axis. In our approach we superimpose an Einzel lens field with the homogeneous field. We use a simulation based technique to account for the distortion of the ion cloud caused by the inhomogeneous field. In order to demonstrate the gain in kinetic energy resolution compared to conventional 3D Ion Imaging, we use the spatial distribution of H(+) ions emerging from the photodissociation of HCl following the two photon excitation to the V (1)Sigma(+) state. So far a figure of merit of approximately four has been achieved, which means in absolute numbers Delta v/v = 0.022 compared to 0.086 at v approximately = 17,000 m/s. However, this is not a theoretical limit of the technique, but due to our rather short TOF spectrometer (15 cm). The photodissociation of HBr near 243 nm has been used to recognize and eliminate systematic deviations between the simulation and the experimentally observed distribution. The technique has also proven to be essential for the precise measurement of translationally cold distributions.

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Recoil velocity-dependent spin–orbit state distribution of chlorine photofragments

Schäfer¹,

Goedecke²,

Ott³

et al. 2004

Chemical Physics

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Photodissociation of CSCl2 at 235 nm: Kinetic energy distributions and branching ratios of Cl atoms and CSCl radicals

Cited by 15 publications

References 43 publications

Striving To Understand the Photophysics and Photochemistry of Thiophosgene: A Combined CASSCF and MR−CI Study

Striving To Understand the Photophysics and Photochemistry of Thiophosgene: A Combined CASSCF and MR−CI Study

Three-dimensional velocity map imaging: Setup and resolution improvement compared to three-dimensional ion imaging

Recoil velocity-dependent spin–orbit state distribution of chlorine photofragments

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