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1. Fourier-transform spectroscopy and global deperturbation treatment of the $A^1\Sigma^+_u$ and $b^3\Pi_u$ states of K$_2$ in the entire bound energy range

Author

Klincare, I., Lapins, A., Tamanis, M., Ferber, R., Zaitsevskii, A., Pazyuk, E. A., and Stolyarov, A. V.

Subjects
Physics - Atomic Physics, Physics - Chemical Physics
Abstract

Rotationally-resolved Fourier-transform spectra of laser-induced fluorescence (LIF) $A^1\Sigma^+_u\sim b^3\Pi_u \rightarrow X^1\Sigma^+_g$ of K$_2$ molecules were recorded and analyzed yielding 4053 term values of spin-orbit (SO) coupled $A \sim b$ complex of $^{39}$K$_2$ isotopologue with ca 0.01 cm$^{-1}$ accuracy. Their compilation with 1739 term values from previously published sources allowed to cover the energy range [9955, 17436] cm$^{-1}$ from the bottom of the lower-lying $b^3\Pi_u$ state up to the vicinity of the atomic asymptote $4s\;^2{\rm S}_{1/2}$ + $4p\;^2{\rm P}_{1/2}$, with rotational quantum number $J\in[0,149]$. The experimental data were processed by a direct 6$\times$6 coupled-channel (CC) deperturbation treatment, which accounted explicitly for both SO and electronic-rotational interactions between six states: $A^1\Sigma^+_u$($0$), $b^3\Pi_u$(0,1,2), $c^3\Sigma_u$(1), and $B^1\Pi_u$(1). The initial parameters of the global deperturbation model have been estimated in the framework of {\it ab initio} electronic structure calculations applying multi-referenced configuration-interaction and coupled-clusters methods. The interatomic potentials analytically defined for $A$ and $b$ states, as well as SO-splitting of the triplet $b$ state and $A\sim b$ SO-coupling functions have been refined to fit 5792 term values of the $^{39}$K$_2$ isotopologue, whereas the rest parameters were fixed on their {\it ab initio} values. The resulting mass-invariant parameters of the CC model reproduced the overall rovibronic term energies of the $A \sim b$ complex of $^{39}$K$_2$ with the accuracy, which is well within the experimental errors. This deperturbation analysis provided the refined dissociation energy $T_{dis}$=17474.569(5) cm$^{-1}$ and the long-range coefficient $C_3^{\Sigma}$ = 5.501(4) $\times10^5$cm$^{-1}$ A$^3$ relevant to the non-relativistic atomic limit $4s$+$4p$., Comment: 18 pages, 11 figures

Published
2023

2. The ground-state potential and dipole moment of carbon monoxide: contributions from electronic correlation, relativistic effects, QED, adiabatic, and non-adiabatic corrections

Author

Usov, D. P., Kozhedub, Y. S., Meshkov, V. V., Stolyarov, A. V., Dulaev, N. K., Mosyagin, N. S., Ryzhkov, A. M., Savelyev, I. M., Shabaev, V. M., and Tupitsyn, I. I.

Subjects
Physics - Chemical Physics, Physics - Atomic and Molecular Clusters, Physics - Computational Physics, Quantum Physics
Abstract

The ground X1{\Sigma}+ state potential energy curve (PEC) and dipole moment curve (DMC) of CO molecule have been revisited within the framework of the relativistic coupled-cluster approach, which incorporates non-perturbative single, double, and triple cluster amplitudes (CCSDT) in conjunction with a finite-field methodology. The generalized relativistic pseudo-potential model was used for the effective introducing the relativity in all-electron correlation treatment and accounting the quantum-electrodynamics (QED) corrections within the model-QED-operator approach. The diagonal Born-Oppenheimer correction to PEC has been evaluated using the CCSD approach. The sensitivity of resulting PEC and DMC to variations in basis set parameters and regular intramolecular perturbations were considered as well. The present ab initio results are in a reasonable agreement with their most accurate semi-empirical counterparts.

Published
2023

7. Tight inequalities for nonclassicality of measurement statistics

Author

Kovtoniuk, V. S., Stolyarov, E. V., Kliushnichenko, O. V., and Semenov, A. A.

Subjects
Quantum Physics
Abstract

In quantum optics, measurement statistics -- for example, photocounting statistics -- are considered nonclassical if they cannot be reproduced with statistical mixtures of classical radiation fields. We have formulated a necessary and sufficient condition for such nonclassicality. This condition is given by a set of inequalities that tightly bound the convex set of probabilities associated with classical electromagnetic radiation. Analytical forms for full sets and subsets of these inequalities are obtained for important cases of realistic photocounting measurements and unbalanced homodyne detection. As an example, we consider photocounting statistics of phase-squeezed coherent states. Contrary to a common intuition, the analysis developed here reveals distinct nonclassical properties of these statistics that can be experimentally corroborated with minimal resources., Comment: 16 pages, 9 figures

Published
2023
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8. Photon-number resolution with microwave Josephson photomultipliers

Author

Stolyarov, E. V., Kliushnichenko, O. V., Kovtoniuk, V. S., and Semenov, A. A.

Subjects
Quantum Physics
Abstract

We study counting photons confined in a mode of a microwave resonator via repeated measurements by a Josephson photomultiplier (JPM). The considered JPM is essentially a flux-biased phase qubit operating as a single-photon detector. We identify optimal operational regimes that maximize photon-number resolution within a predetermined range. Two counting techniques are studied. The first is to count the total number of clicks in the measurement sequence. The second involves counting the number of clicks until the occurrence of either the first no-click event or the end of the measurement sequence. Our theoretical methods employ the derived positive operator-valued measures for the considered photocounting techniques and the introduced measure of the photon-number resolution. The results reveal that the resolution decrease in both cases is mainly caused by the JPM relaxation. As an example, we show how the obtained results can be used for practical testing nonclassical properties of electromagnetic radiation in a microwave resonator., Comment: 18 pages, 10 figures

Published
2023
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14. Intensities of KCs $E(4)^1\Sigma^+\to (a^3\Sigma^+,X^1\Sigma^+)$ band system up to dissociation threshold: an interplay between spin-orbit, hyperfine and rovibronic coupling effects

Author

Klincare, I., Tamanis, M., Ferber, R., Pazyuk, E. A., Stolyarov, A. V., Havalyova, I., and Pashov, A.

Subjects
Physics - Atomic Physics, Physics - Chemical Physics, 81V55, 81V45
Abstract

The relative intensity distribution in the rotationally resolved laser-induced fluorescence spectra belonging to the $E(4)^1\Sigma^+\to (a^3\Sigma^+_1,X^1\Sigma^+)$ band systems of the KCs molecule was analyzed. The experimental intensities in doublet $P$,$R$ progressions assigned to spin-allowed $E\to X$ and spin-forbidden $E\to a$ transitions up to their common ground dissociation limit were described in the framework of a coupled-channels (CC) deperturbation model applied for the interacting \Xstate\ and \astate\ states. The CC intensity simulation was based solely on fixed electronic structure parameters as functions of the internuclear distance $R$, namely: accurate empirical potential energy curves for all three states, \emph{ab initio} estimates for matrix elements $A(R)$ of the hyperfine structure (HFS) , and transition dipole moments $d_{EX}(R)$ and $d_{Ea}(R)$. A comparison between the measured intensities and their theoretical counterparts demonstrates a strong competition between different intramolecular interactions. A weak spin-orbit coupling of the upper \Estate\ state with the remote $^3\Pi$ states is responsible for appearance of the $E\to a$ vibrational bands for the intermediate $v_a$-values. In turn, the HFS coupling between \Xstate\ and \astate\ states leads to peculiarities in $E\to (X,a)$ intensities, which are pronounced for high $v_{X/a}$-values in the vicinity of K(4$^2S$)+Cs(6$^2S$) dissociation threshold. Both adiabatic ro-vibrational and non-adiabatic electronic-rotational interactions explain the abrupt deviation of some observed $P/R$ intensity ratios from the expected H\"{o}nl-London factors., Comment: 15 pages, 7 figures

Published
2022
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20. Observation and modelling of bound-free transitions to the $X^1\Sigma^+$ and $a^3\Sigma^+$ states of KCs

Author

Krumins, Valts, Kruzins, Artis, Tamanis, Maris, Ferber, Ruvin, Meshkov, Vladimir V., Pazyuk, Elena A., Stolyarov, Andrey V., and Pashov, Asen

Subjects
Physics - Atomic Physics, Physics - Chemical Physics
Abstract

The oscillation continuum in laser-induced fluorescence spectra of bound-free $c^3\Sigma^+ \to a^3\Sigma^+$ and (4)$^1\Sigma^+ \to X^1\Sigma^+$ transitions of the KCs molecule were recorded by Fourier-transform spectrometer and modelled under the adiabatic approximation. The required interatomic potentials for ground $a^3\Sigma^+$ and $X^1\Sigma^+$ states were reconstructed in an analytical Chebishev-polynomial-expansion form in the framework of the regularization direct-potential-fit procedure based on the simultaneous consideration of experimental line positions from [R. Ferber et al, Phys. Rev. A, \textbf{80}, 062501 (2009)] and the present \emph{ab initio} calculation of short-range repulsive potential data. It was proved that the repulsive part over dissociation limit of the derived $a^3\Sigma^+$ potential reproduces the experiment better than the potentials reported in literature. It is also shown that all empirical and semi-empirical potentials available for the $X^1\Sigma^+$ state reproduce the bound-free (4)$^1\Sigma^+ \to X^1\Sigma^+$ spectrum with equal quality in the range of observations., Comment: 9 pages, 7 figures

Published
2022
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21. The $a^3\Sigma^+$ state of KCs revisited: hyperfine structure analysis and potential refinement

Author

Krumins, V., Tamanis, M., Ferber, R., Oleynichenko, A. V., Skripnikov, L. V., Zaitsevskii, A., Pazyuk, E. A., Stolyarov, A. V., and Pashov, A.

Subjects
Physics - Atomic Physics, Physics - Atomic and Molecular Clusters, Physics - Chemical Physics, Physics - Computational Physics
Abstract

Laser-induced fluorescence spectra of the $c^3\Sigma^+(v_{c},J_{c}=N_{c})\rightarrow a^3\Sigma^+(v_{a},N_{a} = J_{c} \pm 1)$ transitions excited from the ground $X^1\Sigma^+$ state of $^{39}$K$^{133}$Cs molecule were recorded with Fourier-transform spectrometer IFS125-HR (Bruker) at the highest achievable spectral resolution of 0.0063 cm${}^{-1}$. Systematic study of the hyperfine structure (HFS) of the $a^3\Sigma^+$ state for levels with $v_{a} \in [0, 27]$ and $N_{a} \in [24, 90]$ shows that the splitting monotonically increases with $v_{a}$. The spectroscopic study was supported by ab initio calculations of the magnetic hyperfine interaction in $X^1\Sigma^+$ and $a^3\Sigma^+$ states. The discovered variation of the electronic matrix elements with the internuclear distance $R$ is in a good agreement with the observed $v_{a}$-dependencies of the HFS. Overall set of available experimental data on the $a^3\Sigma^+$ state was used to improve the potential energy curve particularly near a bottom, providing the refined dissociation energy $D_e$=267.21(1) cm${}^{-1}$. The ab initio HFS matrix elements, combined with the empirical $X^1\Sigma^+$ and $a^3\Sigma^+$ PECs in the framework of the invented coupled-channel deperturbation model, reproduce the experimental term values of both ground states within 0.003 cm${}^{-1}$ accuracy up to their common dissociation limit.

Published
2022
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22. ExoMol molecular line lists -- XLIII: Rovibronic molecular line list the low-lying two states of NaO

Author

Mitev, G. B., Taylor, S., Tennyson, Jonathan, Yurchenko, S. N., Buchachenko, A. A., and Stolyarov, A. V.

Subjects
Physics - Chemical Physics
Abstract

The sodium monoxide radical (NaO) is observed in night glow in the Earth's mesosphere and likely has astronomical importance. This study concerns the optical transitions within the ground X $^2\Pi$ state and to the very low-lying ($T_{\textrm e}\approx 2000$ cm$^{-1}$) excited A $^2\Sigma^+$ state. A line list consisting of rovibronic term values, allowed electric dipole transitions, Einstein coefficients, and partition functions for varying temperature are produced due to a variational solution of the coupled-channel Schr\"{o}dinger equations using the program \Duo. MRCI \textit{ab initio} calculations characterising the potential energy curves of the both states, spin-orbit and $L$-uncoupling non-adiabatic matrix elements, as well as permanent and transition dipole moments were integral in formation of the final deperturbation model. \textit{Ab initio} potential energy curves are represented in the analytical Extended-Morse-Oscillator form and refined, along with the spin-orbit and $L$-uncoupling functions, by least-squares fitting to the available spectroscopic data. The input experimental data consisted of pure rotational transitions within the fine structure components of the X $^2\Pi$ state for $v''\in [0,3]$ vibrational levels as well as the rovibronic A $^2\Sigma^+(v'=0) \leftarrow$ X $^2\Pi(v''=0)$ transitions, both with limited coverage over rotational excitation. The lack of data detailing the vibrational structure of the X and A states prompts a request for further experimental study of higher excited levels which would provide a robust spectroscopic model. The NaO NaOUCMe line list is available via www.exomol.com and the CDS database., Comment: 8 Pages, 7 Figures, 7 Tables

Published
2021
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23. Fourier-transform spectroscopy and global deperturbation treatment of the A1Σu+ and b3Πu states of K2 in the entire bound energy range.

Author

Klincare, I., Lapins, A., Tamanis, M., Ferber, R., Zaitsevskii, A., Pazyuk, E. A., and Stolyarov, A. V.

Subjects
LASER-induced fluorescence, QUANTUM numbers, SPECTROMETRY, FLUORESCENCE spectroscopy, ELECTRONIC structure, DELAYED fluorescence
Abstract

Rotationally resolved Fourier-transform spectra of laser-induced fluorescence A 1 Σ u + ∼ b 3 Π u → X 1 Σ g + of K2 molecules were recorded and analyzed, yielding 4053 term values of the spin–orbit (SO) coupled A ∼ b complex of the 39K2 isotopologue with ∼0.01 cm−1 accuracy. Their compilation with 1739 term values from previously published sources allowed them to cover the energy range [9955, 17 436] cm−1 from the bottom of the lower-lying b3Πu state up to the vicinity of the atomic asymptote 4 s 2 S 1 2 + 4 p 2 P 1 2 , with a rotational quantum number J ∈ [0, 149]. The experimental data were processed by a direct 6 × 6 coupled-channel (CC) deperturbation treatment, which accounted explicitly for both SO and electronic-rotational interactions between all six e-symmetry states: A 1 Σ u + ( 0 u + ), b3Πu( 0 u + , 1 u , 2 u ), c3Σu(1u), and B1Πu(1u). The initial parameters of the global deperturbation model have been estimated in the framework of ab initio electronic structure calculations applying multi-reference configuration-interaction and coupled-clusters methods. The interatomic potentials analytically defined for A and b states, as well as SO-splitting of the triplet b state and A ∼ b SO-coupling functions, have been particularly refined to fit the 5792 term values of the 39K2 isotopologue, whereas the rest parameters were fixed on their ab initio values. The resulting mass-invariant parameters of the 6 × 6 CC model reproduced the overall rovibronic term energies of the A ∼ b complex of 39K2 with accuracy, which is well within the experimental errors. The quality of the deperturbation analysis was independently confirmed by comparison with the present obtained 705 and 14 term values of respective 39K41K and 41K2 isotopologues, as well as by agreement between measured and predicted relative intensity distributions in long A ∼ b → X(vX) band progressions. This deperturbation analysis provided the refined dissociation energy Tdis = 17 474.569(5) cm−1 and the long-range coefficient C 3 Σ = 5.501(4) × 105 cm−1 Å3 relevant to the non-relativistic atomic limit 4s + 4p. The derived Tdis yielded the accurate well depth De = 4450.910(5) cm−1 for the ground X 1 Σ g + state, whereas the new C 3 Σ value yielded the improved estimates for atomic K(4 p 2 P 1 2 ; 3 2 ) radiative lifetimes, τ 1 2 = 26.67(3) and τ 3 2 = 26.32(3) ns. [ABSTRACT FROM AUTHOR]

Published
2024
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24. Fourier-transform spectroscopy and relativistic electronic structure calculation on the $c^3\Sigma^+$ state of KCs

Author

Kruzins, Artis, Krumins, Valts, Tamanis, Maris, Ferber, Ruvin, Oleynichenko, Alexander V., Zaitsevskii, Andrei, Pazyuk, Elena A., and Stolyarov, Andrey V.

Subjects
Physics - Atomic Physics, Physics - Chemical Physics, Physics - Computational Physics
Abstract

The Ti:Saphire laser operated within 13800 - 11800 cm$^{-1}$ range was used to excite the $c^3\Sigma^+$ state of KCs molecule directly from the ground $X^1\Sigma^+$ state. The laser-induced fluorescence (LIF) spectra of the $c^3\Sigma^+ \rightarrow a^3\Sigma^+$ transition were recorded with Fourier-transform spectrometer within 8000 to 10000 cm$^{-1}$ range. Overall 673 rovibronic term values belonging to both $e/f$-components of the $c^3\Sigma^+(\Omega=1^{\pm})$ state of $^{39}$KCs, covering vibrational levels from $v$ = 0 to about 45, and rotational levels $J\in [11,149]$ were determined with the accuracy of about 0.01 cm$^{-1}$; among them 7 values for $^{41}$KCs. The experimental term values with $v\in [0,22]$ were involved in a direct point-wise potential reconstruction for the $c^3\Sigma^+(\Omega=1^{\pm})$ state, which takes into account the $\Omega$-doubling effect caused by the spin-rotational interaction with the nearby $c^3\Sigma^+(\Omega=0^-)$ state. The analysis and interpretation were facilitated by the fully-relativistic coupled cluster calculation of the potential energy curves for the $B^1\Pi$, $c^3\Sigma^+$, and $b^3\Pi$ states, as well as of spin-forbidden $c-X$ and spin-allowed $c-a$ transition dipole moments; radiative lifetimes and vibronic branching ratios were calculated. A comparison of relative intensity distributions measured in vibrational $c-a$ LIF progressions with their theoretical counterparts unambiguously confirms the vibrational assignment suggested in [\emph{J. Szczepkovski, et. al.}, JQSRT, \textbf{204}, 133-137 (2018)].

Published
2021
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25. Ab initio relativistic treatment of the intercombination $a^3\Pi-X^1\Sigma^+$ Cameron system of the CO molecule

Author

Mosyagin, Nikolai S., Oleynichenko, Alexander V., Zaitsevskii, Andrei, Kudrin, Artur V., Pazyuk, Elena A., and Stolyarov, Andrey V.

Subjects
Physics - Computational Physics, Physics - Chemical Physics
Abstract

The intercombination $a^3\Pi - X^1\Sigma^+$ Cameron system of carbon monoxide has been computationally studied in the framework of multi-reference Fock space coupled cluster method with the use of generalized relativistic pseudopotential model for the effective introducing the relativity in all-electron correlation treatment. The extremely weak $a^3\Pi_{\Omega=0^+,1} - X^1\Sigma^+$ transition probabilities and radiative lifetimes of the metastable $a^3\Pi$ state were calculated and compared with their previous theoretical and experimental counterparts. The impact of a presumable variation of the fine structure constant $\alpha=e^2/\hbar c$ on transition strength of the Cameron system has been numerically evaluated as well., Comment: 3 figures

Published
2020

26. The branching ratio of intercombination $A^1\Sigma^+\sim b^3\Pi\to a^3\Sigma^+/X^1\Sigma^+$ transitions in the RbCs molecule: measurements and calculations

Author

Krumins, Valts, Kruzins, Artis, Tamanis, Maris, Ferber, Ruvin, Pashov, Asen, Oleynichenko, Alexander. V, Zaitsevskii, Andrei, Pazyuk, Elena A., and Stolyarov, Andrey V.

Subjects
Physics - Atomic Physics
Abstract

We observed the $A^1\Sigma^+\sim b^3\Pi\to a^3\Sigma^+/X^1\Sigma^+$ laser-induced fluorescence (LIF) spectra of the RbCs molecule excited from the ground $X^1\Sigma^+$ state by the Ti:Sapphire laser. The LIF radiation from the common perturbed levels of the singlet-triplet $A\sim b$ complex was recorded by the Fourier-transform (FT) spectrometer with the instrumental resolution of 0.03~cm$^{-1}$. The relative intensity distribution in the rotationally resolved $A\sim b\to a^3\Sigma^+(v_a)/X^1\Sigma^+(v_X)$ progressions was measured, and their branching ratio was found to be about of 1$\div$5$ \times$10$^{-4}$ in the bound region of the $a^3\Sigma^+$ and $X^1\Sigma^+$ states. The experiment was complemented with the scalar and full relativistic calculations of the $A/b - X/a$ transition dipole moments (TDMs) as functions of internuclear distance. The relative systematic error in the resulting \emph{ab initio} TDM functions evaluated for the strong $A - X$ transition was estimated as few percent in the energy region, where the experimental LIF intensities are relevant. The relative spectral sensitivity of the FT registration system, operated with the InGaAs diode detector and CaF beam-splitter, was calibrated in the range $[6~500,12~000]$~cm$^{-1}$ by a comparison of experimental intensities in the long $A\sim b\to X(v_X)$ LIF progressions of the K$_2$ and KCs molecules with their theoretical counterparts evaluated using the \emph{ab initio} $A - X$ TDMs. Both experimental and theoretical transition probabilities can be employed to improve the stimulated Raman adiabatic passage process, $a\to A\sim b \to X$, which is exploited for a laser assembling of ultracold RbCs molecules., Comment: 14 pages, 12 figures

Published
2020

27. Single-photon limit of dispersive readout of a qubit with a photodetector

Author

Sokolov, Andrii M. and Stolyarov, Eugene V.

Subjects
Quantum Physics
Abstract

We study the dispersive readout of a qubit in the ultimate limit of a single-photon probe. The use of a single-photon probe avoids the errors due to nonorthogonality of coherent states. A photodetector is used in the scheme we consider. The dynamics of the system is studied using the Heisenberg-Langevin equations. We treat the counter-rotating terms in the Hamiltonian perturbatively, which leads to the Bloch-Siegert shift in the resonator frequency. It is shown how this can improve the readout. The theory of photon transport through the qubit and the resonator it couples to is provided while taking the effect of the counter-rotating terms into account. To calculate the readout contrast, we use two approaches. The first one neglects the qubit relaxation and allows us to derive a compact expression for the contrast. Also, we obtain simple estimates for the system parameters to maximize the contrast. The second approach accounts for the qubit relaxation, which allows us to further improve the contrast. We demonstrate that for a readout time of 1$\mu$s, a contrast of more than 75% can be achieved for an ideal detector and single-photon source., Comment: 18 pages, 6 figures, 2 tables

Published
2019
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28. The Photolysis of Aromatic Hydrocarbons Adsorbed on the Surfaces of Cosmic Dust Grains

Author

Murga, M. S., Varakin, V. N., Stolyarov, A. V., and Wiebe, D. S.

Subjects
Astrophysics - Astrophysics of Galaxies, Physics - Chemical Physics
Abstract

The work is devoted to the adaptation of the results of laboratory studies of the laser-induced dissociation of molecules of benzene adsorbed on a quartz substrate to the conditions of the interstellar medium. Adsorption was performed under conditions of low temperature and deep vacuum. The difference between the photolysis of adsorbed molecules and molecules in the gas phase is identified. Significance of process of photolytic desorption in the interstellar conditions is analyzed, in particular, in the conditions of photodissociation regions. It is shown that the efficiency and dissociation channels of photolysis of adsorbed and gas phase benzene differ substantially. It is concluded that the photolysis of aromatic hydrocarbons adsorbed on the interstellar dust grains contributes a negligible fraction to the abundance of small hydrocarbons in the interstellar medium., Comment: The original paper is published in Astronomy Reports. The paper includes 17 pages, 3 figures

Published
2019
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32. Fourier transform spectroscopy, relativistic electronic structure calculation, and coupled-channel deperturbation analysis of the fully mixed $A^1\Sigma^+_u$ and $b^3\Pi_u$ states of Cs$_2$

Author

Znotins, A., Kruzins, A., Tamanis, M., Ferber, R., Pazyuk, E. A., Stolyarov, A. V., and Zaitsevskii, A.

Subjects
Physics - Atomic Physics
Abstract

The 4503 rovibronic term values belonging to the mutually perturbed $A^1\Sigma^+_u$ and $b^3\Pi_u$ states of Cs$_2$ were extracted from laser induced fluorescence (LIF) $A\sim b\rightarrow X^1\Sigma^+_g$ Fourier transform spectra with the 0.01 cm$^{-1}$ uncertainty. The experimental term values of the $A^1\Sigma^+_u\sim b^3\Pi_u$ complex covering the rotational levels $J\in [4,395]$ in the excitation energy range $[9655,13630]$ cm$^{-1}$ were involved into coupled-channel (CC) deperturbation analysis. The deperturbation model takes explicitly into account spin-orbit coupling of the $A^1\Sigma^+_u(A0^+_u)$ and $b^3\Pi^+_{0_u}(b0^+_u)$ states as well as spin-rotational interaction between the $\Omega=0$, $1$ and $2$ components of the $b^3\Pi^+_{\Omega_u}$ state. The \emph{ab initio} relativistic calculations on the low-lying electronic states of Cs$_2$ were accomplished in the framework of Fock space relativistic coupled cluster (FSRCC) approach to provide the interatomic potentials of the interacting $A0^+_u$ and $b0^+_u$ states as well as the relevant $A\sim b$ spin-orbit coupling function. To validate the present CC deperturbation analysis solely obtained by energy-based data, the $A\sim b \to X(v^{\prime\prime}_X)$ LIF intensity distributions were measured and compared with their theoretical counterparts obtained by means of the non-adiabatic vibrational wave functions of the $A\sim b$ complex and the FSRCC $A\sim b \to X$ transition dipole moments calculated by the finite-field method., Comment: 13 pages, 13 figures

Published
2019
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33. Energy and radiative properties of the (3)1{\Pi} and (5)1{\Sigma}+ states of RbCs: Experiment and theory

Author

Alps, K., Kruzins, A., Nikolayeva, O., Tamanis, M., Ferber, R., Pazyuk, E. A., and Stolyarov, A. V.

Subjects
Physics - Atomic Physics, Physics - Chemical Physics
Abstract

We combined high-resolution Fourier-transform spectroscopy and large-scale electronic structure calculation to study energy and radiative properties of the high-lying (3)1{\Pi} and (5)1{\Sigma}+ states of the RbCs molecule. The laser-induced (5)1{\Sigma}+(4)1{\Sigma}+(3)1{\Pi}-A(2)1{\Sigma}+ b(1)3{\Pi} fluorescence (LIF) spectra were recorded by the Bruker IFS-125(HR) spectrometer in the frequency range {\nu} 5500 to 10000cm-1 with the instrumental resolution of 0.03 cm-1. The rotational assignment of the observed LIF progressions, which exhibit irregular vibrational-rotational spacing due to strong spin-orbit interaction between A1{\Sigma}+ and b3(\Pi) states was based on the coincidences between observed and calculated energy differences. The required rovibronic term values of the strongly perturbed A-b complex have been calculated by a coupled-channels approach for both 85Rb133Cs and 87Rb133Cs isotopologs with accuracy of about 0.01 cm-1, as demonstrated in A. Kruzins et al. [J. Chem. Phys. 141, 184309 (2014)]. The experimental energies of the upper (3)1(\Pi) and (5)1{\Sigma}+ states were involved in a direct-potential-fit analysis performed in the framework of inverted perturbation approach. Quasirelativistic ab initio calculations of the spin-allowed (3)1{\Pi},(5)1{\Sigma}+- (1-4)1{\Sigma}+(1-3)1{\Pi} transition dipole moments were performed. Radiative lifetimes and vibronic branching ratios of radiative transitions from the (3)1{\Pi} and (5)1{\Sigma}+ states were evaluated. To elucidate the origin of the {\Lambda}-doubling effect in the (3)1{\Pi} state, the angular coupling (3)1{\Pi}-(1-5)1{\Sigma}+ electronic matrix elements were calculated and applied for the relevant q-factors estimate. The intensity distributions simulated for the particular (5)1{\Sigma}+(3)1{\Pi}-A-b LIF progressions have been found to be remarkably close to their experimental counterparts., Comment: 9 pages, 13 figures

Published
2019
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34. Few-photon Fock-state wave packet interacting with a cavity-atom system in a waveguide: Exact quantum state dynamics

Author

Stolyarov, Eugene V.

Subjects
Quantum Physics
Abstract

In the paper, we employ a wavefunction approach to investigate the evolution of a two-photon wave packet propagating in a one-dimensional waveguide coupled to the Jaynes-Cummings (JC) system. We derive and solve, both analytically and numerically, a set of equations of motion governing the quantum state of the system. That allows us to provide real-time analysis of the evolution of the wave packet two-photon joint spectrum (2PJS) and the excitation dynamics of the JC system in the course of its interaction with the two-photon pulse. We demonstrate that the 2PJS and the spectrum of the wave packet scattered from the JC system experience transformation for nonzero atom-cavity couplings. Moreover, using Schmidt decomposition, we show that the scattered photons feature frequency entanglement contrary to the incident ones which are not entangled., Comment: 14 pages, 8 figures; submitted to Phys. Rev. A

Published
2018
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47. The twofold diabatization of the KRb $(1\sim 2)^1\Pi$ complex in the framework of \emph{ab initio} and deperturbation approaches

Author

Kozlov, S. V., Pazyuk, E. A., and Stolyarov, A. V.

Subjects
Physics - Chemical Physics, Physics - Atomic and Molecular Clusters
Abstract

We performed a diabatization of the mutually perturbed $1^1\Pi$ and $2^1\Pi$ states of KRb based on both electronic structure calculation and direct coupled-channel deperturbation analysis of experimental energies. The potential energy curves (PECs) of the diabatic states and their scalar coupling were constructed from the \textit{ab initio} adiabatic PECs by analytically integrating the radial $\langle \psi_1^{ad}|\partial /\partial R|\psi_2^{ad}\rangle$ matrix element obtained by a finite-difference method. The diabatic potentials and electronic coupling function were refined by the least squares fitting of the rovibronic termvalues of the $1^1\Pi\sim 2^1\Pi$ complex. The empirical PECs combined with the coupling function as well as the diabatized spin-orbit coupling and transition dipole matrix elements are useful for further deperturbation treatment of both singlet and triplet states manifold.

Published
2016
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48. Duo: a general program for calculating spectra of diatomic molecules

Author

Yurchenko, Sergei N., Lodi, Lorenzo, Tennyson, Jonathan, and Stolyarov, Andrey V.

Subjects
Physics - Computational Physics, Physics - Chemical Physics
Abstract

Duo is a general, user-friendly program for computing rotational, rovibrational and rovibronic spectra of diatomic molecules. Duo solves the Schr\"{o}dinger equation for the motion of the nuclei not only for the simple case of uncoupled, isolated electronic states (typical for the ground state of closed-shell diatomics) but also for the general case of an arbitrary number and type of couplings between electronic states (typical for open-shell diatomics and excited states). Possible couplings include spin-orbit, angular momenta, spin-rotational and spin-spin. Corrections due to non-adiabatic effects can be accounted for by introducing the relevant couplings using so-called Born-Oppenheimer breakdown curves. Duo requires user-specified potential energy curves and, if relevant, dipole moment, coupling and correction curves. From these it computes energy levels, line positions and line intensities. Several analytic forms plus interpolation and extrapolation options are available for representation of the curves. Duo can refine potential energy and coupling curves to best reproduce reference data such as experimental energy levels or line positions. Duo is provided as a Fortran 2003 program and has been tested under a variety of operating systems.

Published
2016
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49. Syulgamas of Andreevka-Piseraly Type from Oka-Don Watershed

Author

Stolyarov Evgeny V.

Subjects
archaeology, the oka-don watershed, the turn of eras, ring-shaped buckles, sites of andreevka-piseraly type, sites of the upa 2, classification, origin, Archaeology, CC1-960
Abstract

The article examines the finds of ring-shaped buckles of Andreevka – Piseraly type discovered on the territory of the Oka-Don watershed. All the finds are from the sites of the Upa 2 and date back to the period of the I-st century and the beginning of the 2nd century. Some of those finds belong to the layer connected with the attack on the fortifications of the indicated place. The analysis of the chemical contents of five finds showed that they were made of high-alloy triple bronze. The metal of the items is closer to that of the forest-steppe and steppe zones. There have been distinguished two types of buckles. Within the current working hypothesis there has been put forward a scheme of the evolutionary development of the items under discussion. The finds of the first type have direct analogy with sites of Andreevka-Piseraly type and Pyany Bor culture of the first centuries AD. The buckles of the second type are known only on the territory of the Upper Oka. The appearance of the latter type of jewelry on the indicated territory is likely to be connected with traditions of forest-steppe settlements of the Upper and Middle Don region in the Scythian and Sarmatian periods.

Published
2021
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