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328 results on '"Aymar, M."'

1. Dynamic dipole polarizabilities of heteronuclear alkali dimers: optical response, trapping and control of ultracold molecules

Author

Vexiau, R., Borsalino, D., Lepers, M., Orbán, A., Aymar, M., Dulieu, O., and Bouloufa-Maafa, N.

Subjects
Quantum Physics, Condensed Matter - Quantum Gases, Physics - Chemical Physics
Abstract

In this article we address the general approach for calculating dynamical dipole polarizabilities of small quantum systems, based on a sum-over-states formula involving in principle the entire energy spectrum of the system. We complement this method by a few-parameter model involving a limited number of effective transitions, allowing for a compact and accurate representation of both the isotropic and anisotropic components of the polarizability. We apply the method to the series of ten heteronuclear molecules composed of two of ($^7$Li,$^{23}$Na,$^{39}$K,$^{87}$Rb,$^{133}$Cs) alkali-metal atoms. We rely on both up-to-date spectroscopically-determined potential energy curves for the lowest electronic states, and on our systematic studies of these systems performed during the last decade for higher excited states and for permanent and transition dipole moments. Such a compilation is timely for the continuously growing researches on ultracold polar molecules. Indeed the knowledge of the dynamic dipole polarizabilities is crucial to model the optical response of molecules when trapped in optical lattices, and to determine optimal lattice frequencies ensuring optimal transfer to the absolute ground state of initially weakly-bound molecules. When they exist, we determine the so-called "magic frequencies" where the ac-Stark shift and thus the viewed trap depth, is the same for both weakly-bound and ground-state molecules., Comment: Accepted in International Reviews of Physical Chemistry

Published
2017

2. Long-range interactions between polar bialkali ground-state molecules in arbitrary vibrational levels

Author

Vexiau, R., Lepers, M., Aymar, M., Bouloufa-Maafa, N., and Dulieu, O.

Subjects
Physics - Atomic Physics, Quantum Physics
Abstract

We have calculated the isotropic $C\_6$ coefficients characterizing the long-range van der Waals interaction between two identical heteronuclear alkali-metal diatomic molecules in the same arbitrary vibrational level of their ground electronic state $X^1\Sigma^+$. We consider the ten species made up of $^7$Li, $^{23}$Na, $^{39}$K, $^{87}$Rb and $^{133}$Cs. Following our previous work [M.~Lepers \textit{et.~al.}, Phys.~Rev.~A \textbf{88}, 032709 (2013)] we use the sum-over-state formula inherent to the second-order perturbation theory, composed of the contributions from the transitions within the ground state levels, from the transition between ground-state and excited state levels, and from a crossed term. These calculations involve a combination of experimental and quantum-chemical data for potential energy curves and transition dipole moments. We also investigate the case where the two molecules are in different vibrational levels and we show that the Moelwyn-Hughes approximation is valid provided that it is applied for each of the three contributions to the sum-over-state formula. Our results are particularly relevant in the context of inelastic and reactive collisions between ultracold bialkali molecules, in deeply bound or in Feshbach levels.

Published
2015

3. Prospects for the formation of ultracold polar ground state KCs molecules via an optical process

Author

Borsalino, D., Vexiau, R., Aymar, M., Luc-Koenig, E., Dulieu, O., and Bouloufa-Maafa, N.

Subjects
Physics - Atomic Physics, Condensed Matter - Quantum Gases, Quantum Physics
Abstract

Heteronuclear alkali-metal dimers represent the class of molecules of choice for creating samples of ultracold molecules exhibiting an intrinsic large permanent electric dipole moment. Among them, the KCs molecule, with a permanent dipole moment of 1.92~Debye still remains to be observed in ultracold conditions. Based on spectroscopic studies available in the literature completed by accurate quantum chemistry calculations, we propose several optical coherent schemes to create ultracold bosonic and fermionic KCs molecules in their absolute rovibrational ground level, starting from a weakly bound level of their electronic ground state manifold. The processes rely on the existence of convenient electronically excited states allowing an efficient stimulated Raman adiabatic transfer of the level population.

Published
2015

4. Formation of ultracold RbCs molecules by photoassociation

Author

Bouloufa-Maafa, N., Aymar, M., Dulieu, O., and Gabbanini, C.

Subjects
Physics - Atomic Physics
Abstract

The formation of ultracold metastable RbCs molecules is observed in a double species magneto-optical trap through photoassociation below the ^85Rb(5S_1/2)+^133Cs(6P_3/2) dissociation limit followed by spontaneous emission. The molecules are detected by resonance enhanced two-photon ionization. Using accurate quantum chemistry calculations of the potential energy curves and transition dipole moment, we interpret the observed photoassociation process as occurring at short internuclear distance, in contrast with most previous cold atom photoassociation studies. The vibrational levels excited by photoassociation belong to the 5th 0^+ or the 4th 0^- electronic states correlated to the Rb(5P_1/2,3/2)+Cs(6S_1/2) dissociation limit. The computed vibrational distribution of the produced molecules shows that they are stabilized in deeply bound vibrational states of the lowest triplet state. We also predict that a noticeable fraction of molecules is produced in the lowest level of the electronic ground state.

Published
2011
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21. Structure of the alkali-metal-atom + strontium molecular ions: Towards photoassociation and formation of cold molecular ions.

Author

Aymar, M., Guérout, R., and Dulieu, O.

Subjects
*STRONTIUM, *MOLECULAR structure, *ALKALI metals, *DIPOLE moments, *POLARIZABILITY (Electricity), *QUANTUM chemistry, *CHARGE exchange
Abstract

The potential energy curves, permanent and transition dipole moments, and the static dipolar polarizability, of molecular ions composed of one alkali-metal atom and a strontium ion are determined with a quantum chemistry approach. The molecular ions are treated as effective two-electron systems and are treated using effective core potentials including core polarization, large gaussian basis sets, and full configuration interaction. In the perspective of upcoming experiments aiming at merging cold atom and cold ion traps, possible paths for radiative charge exchange, photoassociation of a cold lithium or rubidium atom and a strontium ion are discussed, as well as the formation of stable molecular ions. [ABSTRACT FROM AUTHOR]

Published
2011
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22. Reinvestigation of the Rb2 (2)3Πg-a 3Σu+ band on helium nanodroplets.

Author

Auböck, G., Aymar, M., Dulieu, O., and Ernst, W. E.

Subjects
*ALKALI metals, *VAN der Waals forces, *EMISSION spectroscopy, *FREE molecules, *POTENTIAL energy surfaces
Abstract

It is well known that alkali-metal molecules are preferentially observed in the weak van der Waals-bound high spin states by helium droplet isolation spectroscopy. In [F. R. Brühl et al., J. Chem. Phys. 115, 10275 (2001)] the Rb2 (2)3Πg-a 3Σu+ band on He droplets was investigated by laser-induced fluorescence and dispersed emission spectroscopy. At that time no information on the magnitude of spin-orbit coupling was available for the (2)3Πg state which connects to the atomic 5s+4d asymptote and it was neglected. In this work we reinvestigate the observed spectra. The dispersed emission spectra, which resulted from free molecules, are consistent with state-of-the-art nonrelativistic potential energy surfaces and effective spin-orbit coupling matrix elements obtained from resonance-enhanced multiphoton ionization spectroscopy of cold Rb dimers [J. Lozeille et al., Eur. Phys. J. D 39, 261 (2006)]. Having validated the theoretical description of the free molecule state, we use the laser-induced fluorescence spectrum to discuss the influence of the He droplet on the excitation band. [ABSTRACT FROM AUTHOR]

Published
2010
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23. Calculation of accurate permanent dipole moments of the lowest 1,3Σ+ states of heteronuclear alkali dimers using extended basis sets.

Author

Aymar, M. and Dulieu, O.

Subjects
*MOLECULES, *PHYSICAL & theoretical chemistry, *ENERGY levels (Quantum mechanics), *MOLECULAR orbitals, *DIPOLE moments, *BASIS sets (Quantum mechanics)
Abstract

Obtaining ultracold samples of dipolar molecules is a current challenge which requires an accurate knowledge of their electronic properties to guide the ongoing experiments. In this paper, we systematically investigate the ground state and the lowest triplet state of mixed alkali dimers (involving Li, Na, K, Rb, Cs) using a standard quantum chemistry approach based on pseudopotentials for atomic core representation, Gaussian basis sets, and effective terms for core polarization effects. We emphasize on the convergence of the results for permanent dipole moments regarding the size of the Gaussian basis set, and we discuss their predicted accuracy by comparing to other theoretical calculations or available experimental values. We also revisit the difficulty to compare computed potential curves among published papers, due to the differences in the modelization of core-core interaction. [ABSTRACT FROM AUTHOR]

Published
2005
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26. Perspectives pour la formation de molécules dipolaires froides de KCs par un processus optique

Author

Borsalino, D, Vexiau, R, Aymar, M, Luc-Koenig, E, Dulieu, O, Bouloufa-Maafa, N, Laboratoire Aimé Cotton (LAC), École normale supérieure - Cachan (ENS Cachan)-Université Paris-Sud - Paris 11 (UP11)-Centre National de la Recherche Scientifique (CNRS), ANR: COPOMOL,contract ANR-13-IS04-0004, and ANR: BLUESHIELD,ANR-14-CE34-0006

Subjects
Condensed Matter::Quantum Gases, quantum chemistry, [PHYS.QPHY]Physics [physics]/Quantum Physics [quant-ph], STIRAP, Physics::Atomic Physics, cold molecules
Abstract

Heteronuclear alkali-metal dimers represent the class of molecules of choice for creating samples of ultracold molecules exhibiting an intrinsic large permanent electric dipole moment. Among them, the KCs molecule, with a permanent dipole moment of 1.92~Debye still remains to be observed in ultracold conditions. Based on spectroscopic studies available in the literature completed by accurate quantum chemistry calculations, we propose several optical coherent schemes to create ultracold bosonic and fermionic KCs molecules in their absolute rovibrational ground level, starting from a weakly bound level of their electronic ground state manifold. The processes rely on the existence of convenient electronically excited states allowing an efficient stimulated Raman adiabatic transfer of the level population.

Published
2015

33. Experimental and theoretical analysis of the 5pnp J = O-e, 1(e), 2(e) autoionizing spectrum of Sr

Author

Cohen, S., Aymar, M., Bolovinos, A., Kompitsas, Michael G., Luc-Koenig, E., Mereu, H., and Tsekeris, P.

Subjects
rydberg series, calcium, eigenchannel r-matrix, quantum-defect theory, laser optogalvanic spectroscopy, threshold, barium, strontium, ba, states
Abstract

The even parity 5pnp J = 0, 1 and 2 doubly excited autoionizing states of strontium were investigated both experimentally and theoretically. Sr atoms in an atomic beam were excited through the two-step isolated Core Excitation (ICE) scheme 5s(2) S-1(o) -lambda (1) --> 5sn'p P-1(1) (n' = 12-16) -lambda (2) --> [5p(3/2)np](J). The final ICE transition probes the [5p(3/2)np](J) resonances. However, the [5p(1/2)np](J) series below the 5p(1/2) threshold were excited also due to their mixing with the [5p(3/2)np](J) perturbers. An extended energy region was covered below and above the 5p(1/2) ionization limit by saturating the central ICE lobe and recording as many as possible "red" and "blue" secondary lobes. J identification was achieved by using mutually parallel and perpendicular linear polarizations of the laser beams. The ICE spectra were compared to those obtained by employing a two-step excitation scheme using the bound 4d5p P-1(1) valence state as an intermediate one. Final identification for very complex structures was achieved after comparison with theoretical energy level positions and excitation profiles produced by the R-matrix method combined with the multichannel quantum defect theory (MQDT) method. The agreement between theoretical and observed structures is quite satisfactory. European Physical Journal D

Published
2001

34. 3dnd J = 4, 5 autoionizing levels in Ca: laser optogalovanic spectroscopy and theoretical analysis

Author

Assimopoulos, S., Bolovinos, A., Luc-Koenig, E., Cohen, S., Lyras, A., Tsekeris, P., and Aymar, M.

Subjects
neutral barium, calcium, quantum-defect theory, limit, r-matrix calculation, optogalvanic spectroscopy, series, states, spectrum
Abstract

We report the even parity J = 4,5 autoionizing spectra of calcium below the 3d threshold, investigated by two-step laser excitation from the 3d4s metastables through the 3d4p F-3(3, 4), F-1(3) intermediate states and subsequent optogalvanic detection. The 3d4s states are populated by electronic collisions in a d.c. glow discharge sustained in a Ca heat-pipe. More than a hundred resonant transitions have been measured with an accuracy of similar to 0.2 cm(-1) for the narrow ones using standard laser calibration techniques. The high lying levels are assigned to all expected 3dnd J = 4, 5 autoionizing series. Moreover, some 3dng J = 4, 5 levels are observed. The theoretical interpretation is achieved by a combination of the nearly ab initio eigenchannel R-matrix and multichannel quantum-defect (MQDT) methods as well as by an empirical determination of the MQDT parameters in the phase-shifted formulation. Theoretical energy level positions and excitation profiles are compared with the experimental data confirming the identification of the observed structures. Strong mixing between 3dnd J = 4 series is found, while the 3dng ones do not couple with the 3dnd series. Further insight into the strong channel mixing in the studied energy range is provided by a comprehensive review of the excitation profiles in the vicinity of the 4p5p D-3(3) perturber as obtained from a number of intermediate levels used in the present and in earlier experiments. Systematic electron correlation trends for Ndnd J = 4 series of Ca(N = 3), Sr(N = 4) and Ba(N = 5) are discussed. European Physical Journal D

Published
1998

35. Eigenchannel R-matrix study of two-photon excitation of low-lying autoionizing states in strontium: dielectronic core-polarization effects

Author

Luc-Koenig, E., Aymar, M., Lecomte, J. M., and Lyras, A.

Subjects
parameters, quantum-defect theory, sr-i, spectra, theoretical-analysis, neutral strontium, threshold, barium, alkaline-earth atoms, polarizability
Abstract

Two-photon ionization processes from the ground state of strontium are studied employing the jj-coupled eigenchannel R-matrix approach combined with the multichannel quantum-defect theory (MQDT). The calculations satisfactorily reproduce the experimental spectra corresponding to two-photon excitation of the 4d6d J = O-e, J = 2(e) and 5p(2 1)S(0), D-1(2) low-lying autoionizing resonances, confirming that the method is suitable to account for the spin-orbit interaction effects in the multiphoton excitation of heavy atoms. it is also shown that the dielectronic core polarization cannot be disregarded in the description of these highly correlated resonances, as it affects significantly both their energy positions and autoionization widths. Journal of Physics B-Atomic Molecular and Optical Physics

Published
1998

37. Eigenchannel R-matrix study of two-photon processes including above-threshold ionization in magnesium

Author

LucKoenig, E., Lyras, A., Lecomte, J. M., and Aymar, M.

Subjects
optical-properties, l2 ci calculation, atomic magnesium, 2-photon processes, mg, multiphoton ionization, discrete, cross-sections, energy-spectrum, states
Abstract

The approach based on the eigenchannel R-matrix method and multichannel quantum-defect theory, introduced by Robicheaux and Gao to calculate two-photon processes in light alkaline-earth atoms, has been implemented in jj-coupling introducing explicitly spin-orbit effects and employing both the length and velocity forms of the electric dipole transition operator. Emphasis is placed on the identification of the intermediate-and final-state resonances appearing in the cross sections. The efficiency and potential of the method are demonstrated in magnesium, by calculating two-photon ionization cross sections, branching ratios and photoelectron angular distributions for an extended photon energy range, including above-threshold ionization. The contributions of electronic correlation, core-polarization and spin-orbit effects are investigated by a systematic comparison with experimental results and earlier theoretical calculations. Journal of Physics B-Atomic Molecular and Optical Physics

Published
1997

38. Channel mixing in 4fng autoionizing series of barium

Author

van Leeuwen, R., Luc-Koening, E., Aymar, M., Ubachs, W.M.G., Hogervorst, W., and Atoms, Molecules, Lasers

Subjects
SDG 7 - Affordable and Clean Energy
Abstract

Autoionizing 4fng J = 0-3 levels of barium in the energy range 88 240-90 460 cm

Published
1996

40. 3dnl J=0(E)-2(E) Autoionizing Levels of Calcium - Observation by Laser Optogalvanic Spectroscopy and Theoretical-Analysis

Author

Assimopoulos, S., Bolovinos, A., Jimoyiannis, A., Tsekeris, P., Luckoenig, E., and Aymar, M.

Subjects
rydberg states, neutral barium, ca, limit, r-matrix calculation, absorption-spectrum, threshold, even-parity, series, strontium
Abstract

The even parity J = 0-2 autoionizing spectra of calcium are investigated below the 3d threshold by a two-step laser excitation from the 3d4s metastables through the 3d4p P-3(0,1,2) intermediate states. The 3d4s are populated by electronic collisions in a DC glow discharge through a Ca heat-pipe. Around 300 resonance transitions are measured with an accuracy of approximately 0.2 cm-1 for the narrow ones using standard laser calibration techniques. Their upper levels are assigned to 17 autoionizing 3dns, 3dnd and 3dng Rydberg series and several perturbers belonging to the 4p2 and 4p5p configurations. The theoretical interpretation is achieved by a combination of the eigenchannel R-matrix and multichannel quantum defect (MQDT) methods. Five, twelve and fourteen interacting channels are introduced for J = 0, J = 1 and J = 2 series respectively. Theoretical energy level positions and excitation profiles are compared with the experimental data, confirming the identification of the observed structures and pointing out the behaviour of the different perturbed Rydberg series. Journal of Physics B-Atomic Molecular and Optical Physics

Published
1994

41. 3dnl-J=3(E) Autoionizing Levels of Calcium - Observation by Laser Optogalvanic Spectroscopy and Theoretical-Analysis

Author

Luckoenig, E., Bolovinos, A., Aymar, M., Assimopoulos, S., Jimoyiannis, A., and Tsekeris, P.

Subjects
quantum-defect theory, barium
Abstract

The even parity J = 3 autoionizing spectra of calcium were investigated below the 3d threshold by a two-step laser excitation from the 3d 4s metastables through the 3 d 4 p 3P2, 1F3 intermediate states. The 3 d 4 s were populated by electronic collisions in a d.c. glow discharge through a Ca heat-pipe. More than a hundred resonance transitions have been measured with an accuracy of approximately 0.2 cm-1 for the narrow ones using standard laser calibration techniques. Their upper levels are assigned to all expected nine autoionizing 3 d n s, 3 d n d and 3 d n g Rydberg series and the 4 p 5 p 3D3 perturber. The theoretical interpretation is achieved by a combination of the eigenchannel R-matrix and multichannel quantum defect (MQDT) methods. Ten closed and two open J = 3 interacting channesl are used. Theoretical energy level positions and excitation profiles are compared with the experimental data confirming the identification of the observed structures. Strong mixing between the 3d3/2 nd5/2 and 3d5/2 nd3/2 series is found, while the 3d3/2 nd3/2 and 3d5/2 nd5/2 series are almost pure jj-coupled. The calculations were particularly successful in reproducing the spectrum in the region of the 4 p 5 p 3D3 perturber, where strong chancel mixing appears leading to interference effects in the excitation cross sections. Zeitschrift Fur Physik D-Atoms Molecules and Clusters

Published
1994

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