Claire Gillery scite author profile

The electronic absorption spectra of linear C6H+ and C8H+ were recorded in 6 K neon matrixes following mass selective deposition. The (1) 3Sigma- -X 3Sigma- electronic transition is identified with the origin band at 515.8 and 628.4 nm for l-C6H+ and l-C8H+, respectively. One strong (near 267 nm) and several weaker electronic transitions of l-C8H+ have also been observed in the UV. The results of ab initio calculations carried out for linear and cyclic C6H+ are consistent with the assignment.

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A theoretical study of the electronically excited states in linear and cyclic

Gillery

Rosmus

Werner

et al. 2004

Molecular Physics

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The electronically excited doublet and quartet states of the linear (D 1h ) and cyclic (C 2v ) C þ 6 ion were studied using high-level ab initio methods. For the linear ion it is found that the three lowest excited 2 Å g states, which contribute to the n 2 Å g -X 2 Å u transitions between 1.88 and 2.73 eV, are strongly coupled and form avoided crossings if the bond distances are varied. This leads to a centrosymmetric double minimum potential of the 2 2 Å g state. For the cyclic C 2v structures the lowest states have 2 A 1 and 2 B 2 symmetries. At their equilibrium geometries both states are almost degenerate and their energies are 0.3 eV lower than the minimum of the linear X 2 Å u state. The excitation energies are strongly affected by geometry relaxation effects. The adiabatic excitation energies of the cyclic 2 2 A 1 and the linear 1 2 Å g states are predicted to be about 1.9 eV, i.e. close to the observed band origin. Several electronically excited states-2 2 A 2 , 2 2 B 1 , 2 2 B 2 -of the cyclic structure and the 2 2 Å g state of the linear structure were calculated between 2.3 and 2.5 eV, i.e. higher than the observed band origin at 2.17 eV. Due to strong electronic and vibronic couplings a reliable prediction of relative intensities is presently not possible, and therefore the calculated transition moments cannot be used for the interpretation of the experimental spectrum.

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Theoretical Study of the Electronically Excited States of B₄, B₄ ⁺ and B₄ ⁻

Gillery¹,

Linguerri

Rosmus³

et al. 2005

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First-principle full valence complete active space calculations (CASSCF) are reported for the electronic states of the D2 h and C2 v planar isomers of B4, B4 + and B4 −. This approach is found to reproduce well the experimentally known transition energies for the two lowest excited triplet states of the most stable rhombic B4 isomer. The pattern of electronic transitions up to about 4.5 eV for B4 singlet and B4 + doublet states calculated in similar way should guide an UV spectroscopic search.

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Collisional electron detachment from NO− by rare gases

Ferguson

Viggiano

Gillery

et al. 2004

International Journal of Mass Spectrometry

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Claire Gillery

³Σ^-−X ³Σ^- Electronic Transition of Linear C₆H⁺ and C₈H⁺ in Neon Matrixes

A theoretical study of the electronically excited states in linear and cyclic

Theoretical Study of the Electronically Excited States of B₄, B₄ ⁺ and B₄ ⁻

Collisional electron detachment from NO− by rare gases

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Claire Gillery

3Σ-−X 3Σ- Electronic Transition of Linear C6H+ and C8H+ in Neon Matrixes

A theoretical study of the electronically excited states in linear and cyclic

Theoretical Study of the Electronically Excited States of B4, B4 + and B4 −

Collisional electron detachment from NO− by rare gases

Contact Info

Product

Resources

About

³Σ^-−X ³Σ^- Electronic Transition of Linear C₆H⁺ and C₈H⁺ in Neon Matrixes

Theoretical Study of the Electronically Excited States of B₄, B₄ ⁺ and B₄ ⁻