MRCI+Q study of the low-lying electronic states of CdF including spin–orbit coupling

Zhao, Shutao; Yan, Bing; Li, Rui; Wu, Shu Qi; Wang, Qiuling

doi:10.1088/1674-1056/26/2/023105

Cited by 6 publications

(18 citation statements)

References 37 publications

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“…(1) shows that the electronic ground state of CdF is the X 2 Σ + state with R e = 2.042 Å. For the ground state, the calculated equilibrium bond length R e =2.042 Å is in very good agreement with the previously reported values theoretically [25][26][27][28] where the relative difference varies between (0.17%)≤∆R e /R e ≤(4.0%). Our calculated vibrational harmonic frequency ω e = 479.0 cm -1 reveals a good agreement with the experimental value of 535 cm -122 and with those computed theoretically where the relative difference ranges between (0.8%)≤∆ω e /ω e ≤(12.7%).…”

Section: Molecule Cdfsupporting

confidence: 84%

“…Our calculated vibrational harmonic frequency ω e = 479.0 cm -1 reveals a good agreement with the experimental value of 535 cm -122 and with those computed theoretically where the relative difference ranges between (0.8%)≤∆ω e /ω e ≤(12.7%). [25][26][27][28] The rotational constant B e = 0.2484 cm -1 calculated in the present work at the MRCI+Q level varies from the theoretical value B e = 0.2704 cm -128 by 0.022 cm -1 . Our computed dipole moment µ = 4.0051 D shows a good agreement when compared to the theoretical results 27 where the relative differences is 2.5%.…”

Section: Molecule Cdfcontrasting

confidence: 58%

“…Our computed dipole moment µ = 4.0051 D shows a good agreement when compared to the theoretical results 27 where the relative differences is 2.5%. However, a value of 2.2113 D is determined by Zhao et al 28 The (2) 2 Σ + state presents a deep minimum around R = 3.272 Å, resulting from the interaction with the X 2 Σ + ground state which corresponds to a transition energy of 25928.21cm -1 with respect to the minimum of X 2 Σ + state. However, the (3) 2 Σ + state shows a shallow minimum around R = 1.94Å.…”

Section: Molecule Cdfmentioning

confidence: 96%

“…Our spectroscopic constants of the (2) 2 Σ + state are compared to those given in literature experimentally 22 and theoretically. 28 Huber and Herzberg 22 summarized the values of T e and ω e as 34200 cm -1 and 535 cm -1 respectively. Our computed values of T e =25928.21 cm -1 and ω e = 202.48 cm -1 are quite different from those indicated experimentally.…”

Section: Molecule Cdfmentioning

confidence: 99%

“…26 In 2007, Cheng et al 27 calculated the equilibrium internuclear distance, the vibrational harmonic frequency, the dissociation energy, the ionization potential (IP), the electron affinity (EA), and the dipole moment for the ground state X 2 Σ + of the title molecules in both neutral and charged molecules via the density functional method B3LYP. Recently, the more extensive calculations have been conducted by Zhao et al 28 at the multi-reference configuration interaction level including Davidson correction (MRCI+Q). They calculated the spectroscopic constants for 9 low-lying Λ-S electronic states including the ground state; one can notice the absence of the comparison of their data with those obtained by Cheng et al 22 Regarding the CdCl molecule, the first experimental study was reported by Walter and Barratt.…”

Section: Introductionmentioning

confidence: 99%

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Theoretical electronic structure of the cadmium monohalide molecules CdX (X = F, Cl, Br, I)

Badreddine

Korek

2017

AIP Advances

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The potential energy and dipole moment curves for the lowest electronic states in the representation 2s+1 Λ (±) of CdX (X = F, Cl, Br, I) molecules are investigated via complete active space self-consistent field (CASSCF) and multi-reference configuration interaction MRCI (single and double excitation with Davidson correction). For the bound states of CdX diatomic molecules the bond distances R e , the vibrational harmonic frequencies ω e , the rotational constants B e , the electronic energies relative to the ground state T e , and the permanent and transition dipole moments have been computed. The dissociation energy limits of the atomic levels of CdX compounds are also calculated. The transition dipole moment between the ground state X 2 Σ + and (2) 2 Σ + is investigated. Consequently, the transition dipole moment values of the upper state at its equilibrium position | µ 21 |, the emission angular frequency ω 21 , the Einstein coefficients of spontaneous and induced emissions (A 21 and B ω 21 ), the spontaneous radiative lifetime τ spon , the emission cross section σ 0 , the line strength and the emission oscillator strength f 21 are calculated along with the ionicity of the X 2 Σ + and (2)

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Section: Molecule Cdfsupporting

confidence: 84%

Section: Molecule Cdfcontrasting

confidence: 58%

Section: Molecule Cdfmentioning

confidence: 96%

Section: Molecule Cdfmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

Theoretical electronic structure of the cadmium monohalide molecules CdX (X = F, Cl, Br, I)

Badreddine

Korek

2017

AIP Advances

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GUT models at current and future hadron colliders and implications to dark matter searches

et al. 2017

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Grand Unified Theories (GUT) offer an elegant and unified description of electromagnetic, weak and strong interactions at high energy scales. A phenomenological and exciting possibility to grasp GUT is to search for TeV scale observables arising from Abelian groups embedded in GUT constructions. That said, we use dilepton data (ee and µµ) that has been proven to be a golden channel for a wide variety of new phenomena expected in theories beyond the Standard Model to probe GUT-inspired models. Since heavy dilepton resonances feature high signal selection efficiencies and relatively well-understood backgrounds, stringent and reliable bounds can be placed on the mass of the Z gauge boson arising in such theories. In this work, we obtain 95% C.L. limits on the Z mass for several GUT-models using current and future proton-proton colliders with √ s = 13 TeV, 33 TeV, and 100 TeV, and put them into perspective with dark matter searches in light of the next generation of direct detection experiments.Dedicated to the memory of Pierre Binétruy PACS numbers: 2 Our analysis is focused on hadron colliders. Linear e + e − would be also an interesting option [9].

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Configuration interaction calculations on the spectroscopic and transition properties of magnesium chloride

Wu¹,

Lin²,

Xie

et al. 2018

Chinese Phys. B

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The potential energy curves (PECs) of 14 Λ-S states for magnesium chloride (MgCl) have been calculated by using multi-reference configuration interaction method with Davidson correction (MRCI + Q). The core-valence correlation (CV), scalar relativistic effect, and spin-orbit coupling (SOC) effect are considered in the electronic structure computations. The spectroscopic constants of X 2 Σ + and A 2 Π states have been obtained, which are in good agreement with the existing theoretical and experimental results. Furthermore, other higher electronic states are also characterized. The permanent dipole moments (PDMs) of Λ-S states and the spinorbit (SO) matrix elements between Λ-S states are also computed. The results indicate that the abrupt changes of PDMs and the SO matrix elements are attributed to the avoided crossing between the states with the same symmetry. The SOC effect is taken into account with Breit-Pauli operator, which makes the 14 Λ-S states split into 30 Ω states, and leads to a double-well potential of the Ω = (3)1/2 state. The energy splitting for the A 2 Π is calculated to be 53.61 cm −1 and in good agreement with the experimental result 54.47 cm −1 . The transition dipole moments (TDMs), Franck-Condon factors (FCFs), and the corresponding radiative lifetimes of the selected transitions from excited Ω states to the ground state X 2 Σ + 1/2 have been reported. The computed radiative lifetimes τ ν of low-lying excites Ω states are all on the order of 10 ns. Finally, the feasibility of laser cooling of MgCl molecule has been analyzed.

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MRCI+Q study of the low-lying electronic states of CdF including spin–orbit coupling

Cited by 6 publications

References 37 publications

Theoretical electronic structure of the cadmium monohalide molecules CdX (X = F, Cl, Br, I)

Theoretical electronic structure of the cadmium monohalide molecules CdX (X = F, Cl, Br, I)

GUT models at current and future hadron colliders and implications to dark matter searches

Configuration interaction calculations on the spectroscopic and transition properties of magnesium chloride

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