Publications

Maurice Lombardi

[89]
M. Lombardi and A. Matzkin.
Reply to “Comment on ‘Entanglement and chaos in the kicked top’ ”.
Physical Review E: Statistical, Nonlinear, and Soft Matter Physics 92(3), 036902 (2015).
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[88]
M. Lombardi and A. Matzkin.
Entanglement and chaos in the kicked top.
Physical Review E: Statistical, Nonlinear, and Soft Matter Physics 83(1), 016207 (2011).
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[87]
M. Lombardi and A. Matzkin.
Dynamical entanglement as a signature of chaos in the semiclassical limit.
Laser Physics 20(5), 1215–20 (2010).
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[86]
M. Lombardi and A. Matzkin.
Dynamical entanglement and chaos: the case of the Rydberg molecule.
Physical Review A (Atomic, Molecular, and Optical Physics) 73(6), 062335 (2006).
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[85]
M. Lombardi and A. Matzkin.
Scattering induced dynamical entanglement and the quantum-classical correspondence.
Europhysics Letters 74(5), 771–7 (2006).
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[84]
A. Matzkin and M. Lombardi.
Quantum and semiclassical phase functions for the quantization of symmetric oscillators.
Journal of Physics A (Mathematical and General) 38(27), 6211–30 (2005).
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[83]
B. Dietz, M. Lombardi, and T. H. Seligman.
Unified theory of bound and scattering molecular Rydberg states as quantum maps.
Annals of Physics 312(2), 441–79 (2004).
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[82]
M. Joyeux, R. Jost, and M. Lombardi.
An effective model for the X 2A1 – A 2B2 conical intersection in NO2.
Journal of Chemical Physics 119(12), 5923–32 (2003).
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[81]
M. Joyeux, D. Sugny, and M. Lombardi.
A local diabatic representation of non-Born-Oppenheimer dynamics.
Chemical Physics Letters 352(1-2), 91–8 (2002).
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[80]
A. Matzkin and M. Lombardi.
Numerical construction of “optimal” nonoscillating amplitude and phase functions.
Physical Review E: Statistical, Nonlinear, and Soft Matter Physics 66(3), 037702 (2002).
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[79]
F. Leyvraz, M. Lombardi, and T. H. Seligman.
A diffusion model for classical chaotic compound scattering.
Physica D: Nonlinear Phenomena 157(3), 169–85 (2001).
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[78]
M. Joyeux, D. Sugny, M. Lombardi, R. Jost, R. Schinke, S. Skokov, and J. Bowman.
Vibrational dynamics up to the dissociation threshold: A case study of two-dimensional HOCl.
Journal of Chemical Physics 113(21), 9610–21 (2000).
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[77]
F. Leyvraz, R. A. Méndez-Sánchez, M. Lombardi, and T. H. Seligman.
Multichannel quantum defect theory: a quantum Poincaré map.
Physics Letters A 268(4-6), 309–14 (2000).
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[76]
Y. Colin de Verdière, M. Lombardi, and J. Pollet.
The microlocal Landau-Zener formula.
Annales de l’Institut Henri Poincaré (A) Physique Théorique 71(1), 95–127 (1999).
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[75]
M. Boiron and M. Lombardi.
Complex trajectory method in semiclassical propagation of wave packets.
Journal of Chemical Physics 108(9), 3431–44 (1998).
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[74]
M. Boiron, M. Lombardi, and L. Wiesenfeld.
Coupled modes semiclassical treatment of nonadiabatic transitions.
Journal of Physics A (Mathematical and General) 30(11), 3907–26 (1997).
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[73]
B. Dietz, M. Lombardi, and T. H. Seligman.
Parabolic manifolds in the scattering map and direct quantum processes.
Journal of Physics A (Mathematical and General) 29(5), L95–9 (1996).
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[72]
B. Dietz, M. Lombardi, and T. H. Seligman.
Universal parametric correlations of the eigenphases of the S-matrix.
Physics Letters A 215(3-4), 181–6 (1996).
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[71]
M. Boiron, M. Lombardi, and L. Wiesenfeld.
Chaos induit par transition non-adiabatique dans les molécules.
Annales de Physique France 19, 759–64 (1994).
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[70]
M. Boiron, M. Lombardi, and L. Wiesenfeld.
Nonadiabatic effects in two-level systems: a classical analysis.
Physical Review A (General Physics) 50(2), 1409–19 (1994).
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[69]
M. Lombardi, O. Bohigas, and T. H. Seligman.
New evidence of GOE statistics for compound nuclear resonances.
Physics Letters B 324(3-4), 263–6 (1994).
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[68]
M. Lombardi and T. H. Seligman.
Universal and nonuniversal statistical properties of levels and intensities for chaotic Rydberg molecules.
Physical Review A (General Physics) 47(5), 3571–86 (1993).
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[67]
A. Delon, R. Jost, and M. Lombardi.
NO2 jet cooled visible excitation spectrum: vibronic chaos induced by the X 2A1-A 2B2 interaction.
Journal of Chemical Physics 95(8), 5701–18 (1991).
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[66]
P. Dupré, R. Jost, M. Lombardi, P. G. Green, E. Abramson, and R. W. Field.
Anomalous behavior of the anticrossing density as a function of excitation energy in the C2H2 molecule.
Chemical Physics 152(3), 293–318 (1991).
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[65]
F. Leyvraz, J. Quezada, T. H. Seligman, and M. Lombardi.
Novel signature of chaos in quantum-mechanical states.
Physical Review Letters 67(21), 2921–5 (1991).
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[64]
M. Lombardi, J.-P. Pique, U. Brühlmann, and J. R. Huber.
S1-T1 coupling in propynal by level anticrossing spectroscopy.
Chemical Physics 156(2), 163–75 (1991).
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[63]
M. Lombardi, J.-P. Pique, P. Labastie, M. Broyer, and T. Seligman.
Chaos in molecules by statistical Fourier transform spectroscopy.
Comments on Atomic and Molecular Physics 25(4-6), 345–57 (1991).
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[62]
M. Lombardi.
Dynamique moléculaire: du régulier au chaotique, du classique au quantique.
Journal de Chimie Physique et de Physico-Chimie Biologique 87(5), 623–646 (1990).
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[61]
M. Lombardi, P. Labastie, M. C. Bordas, and M. Broyer.
Chaos in molecular Rydberg states.
In Physics of Electronic and Atomic Collisions. XVIth International Conference, edited by A. Dalgarno (American Institute of Physics, 1990), no. 205 in AIP Conference Proceedings, pp. 398–403.
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[60]
M. Lombardi.
Singlet-triplet coupling in small organic molecules by anticrossing, quantum beat, and magnetic resonance spectroscopy.
In Rotational effects on the behavior of excited molecules, edited by E. C. Lim and K. K. Innes (Academic Press, New York, 1988), no. 7 in Excited States, pp. 163–241.
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[59]
M. Lombardi, P. Labastie, M. C. Bordas, and M. Broyer.
Is there a signature of the chaoticity of the associated classical system in the spectrum of a quantum system.
Berichte der Bunsengesellschaft für Physikalische Chemie 92(3), 387–8 (1988).
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[58]
M. Lombardi, P. Labastie, M. C. Bordas, and M. Broyer.
Molecular Rydberg states: classical chaos and its correspondence in quantum mechanics.
Journal of Chemical Physics 89(6), 3479–90 (1988).
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[57]
J.-P. Pique, M. Lombardi, Y. Chen, R. W. Field, and J. L. Kinsey.
New order out of the chaotic bath of high vibrational states of C2H2.
Berichte der Bunsengesellschaft für Physikalische Chemie 92(3), 422–4 (1988).
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[56]
J.-P. Pique, M. Lombardi, U. Brühlmann, and H. R. Huber.
Anticrossing in propynal excited by a near UV high repetition rate copper vapor laser pumped dye laser.
Journal de Physique Colloque C7 48(12), 659–61 (1987).
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[55]
R. Jost and M. Lombardi.
Survey of correlation properties of polyatomic molecules vibrational energy levels using FT analysis.
In Quantum Chaos and Statistical Nuclear Physics. Proceedings of the 2nd International Conference on Quantum Chaos and the 4th International Colloquium on Statistical Nuclear Physics, edited by T. H. Seligman and H. Nishioka (Springer-Verlag, Berlin, 1986), no. 263 in Lecture Notes in Physics, pp. 72–90.
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[54]
L. Leviandier, M. Lombardi, R. Jost, and J.-P. Pique.
Fourier transform: a tool to measure statistical level properties in very complex spectra.
Physical Review Letters 56(23), 2449–52 (1986).
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[53]
C. Michel, M. Lombardi, and R. Jost.
’Gate states’ participation in collision-induced intersystem crossing in Glyoxal: experimental evidence.
Chemical Physics 109(2-3), 357–73 (1986).
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[52]
E. Pebay-Peyroula, R. Jost, M. Lombardi, and P. Dupré.
Study of singlet-triplet coupling in glyoxal by level anticrossing spectroscopy. VI Vibrational density and statistics of matrix elements versus energy.
Chemical Physics 102(3), 417–35 (1986).
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[51]
E. Pebay-Peyroula, R. Jost, M. Lombardi, and J.-P. Pique.
Study of singlet-triplet coupling in glyoxal by level anticrossing spectroscopy. VII. Complete assignment of the 00, 81, 61 71 and 41 anticrossing spectra.
Chemical Physics 106(2), 243–57 (1986).
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[50]
P. Dupré, R. Jost, and M. Lombardi.
Study of singlet-triplet coupling in glyoxal by level anticrossing spectroscopy. V. Nature of singlet-triplet interaction.
Chemical Physics 91(3), 355–72 (1984).
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[49]
P. Dupré, R. Jost, M. Lombardi, C. Michel, and A. Tramer.
Study of singlet-triplet coupling in glyoxal by level anticrossing spectroscopy. IV. Theory of anticrossing position. Application to the measurement of triplet quantum numbers and rotational constants.
Chemical Physics 82(1-2), 25–39 (1983).
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[48]
A. Dorelon, M. Lombardi, and J.-C. Maan.
Electron temperature measurement of cold plasma in a strong magnetic field.
Journal of Physics D (Applied Physics) 15(4), 605–14 (1982).
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[47]
M. Carré, A. Zgainski, M. Gaillard, M. Nouh, and M. Lombardi.
Determination of the relative populations of magnetic sublevels of the 4 1D level of He I excited by heavy ion impact.
Le Journal de Physique 42(2), 235–46 (1981).
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[46]
R. Jost, M. Lombardi, C. Michel, and A. Tramer.
Study of the singlet-triplet coupling in glyoxal trans and cis by level-anticrossing spectroscopy.
Il Nuovo Cimento B 63(1), 228–32 (1981).
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[45]
M. Lombardi, R. Jost, C. Michel, and A. Tramer.
Study of singlet-triplet coupling in glyoxal by level anticrossing spectroscopy. II. Theory of the positions of double resonances near a single-triplet anticrossing. Application to the precise measurement of singlet-triplet coupling and of fine and hyperfine structure parameters of the triplet of glyoxal.
Chemical Physics 57(3), 341–53 (1981).
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[44]
M. Lombardi, R. Jost, C. Michel, and A. Tramer.
Study of singlet-triplet coupling in glyoxal by level anticrossing spectroscopy. III. Theory of widths and intensities of double resonances near a singlet-triplet anticrossing. Application to the measurement of relaxation parameters of glyoxal.
Chemical Physics 57(3), 355–63 (1981).
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[43]
J. Derouard, M. Lombardi, and R. Jost.
Forbidden single-triplet anticrossings in 3He: precise determination of n1D-n3D (n=3-6) intervals.
Le Journal de Physique 41(8), 819–30 (1980).
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[42]
M. Lombardi, R. Jost, C. Michel, and A. Tramer.
Study of the singlet-triplet coupling in glyoxal by level-anticrossing spectroscopy. I. Experimental techniques and results.
Chemical Physics 46(3), 273–9 (1980).
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[41]
R. Jost, M. Lombardi, R. S. Freund, and T. A. Miller.
The 3d-triplet complex of molecular hydrogen: the measured Zeeman effect and the calculated eigenvectors and g-factors.
Molecular Physics 37(5), 1605–20 (1979).
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[40]
Spectroscopie par anticroisements en champ magnétique intense.
Images de la Physique pp. 34–9 (1978).
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[39]
J. Derouard and M. Lombardi.
Theoretical cross sections for collisional angular momentum transfer in atomic Rydberg states.
Journal of Physics B (Atomic and Molecular Physics) 11(22), 3875–86 (1978).
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[38]
R. S. Freund, T. A. Miller, R. Jost, and M. Lombardi.
Singlet-triplet anticrossings between the doubly excited 3 1K state and the g(3d)3Σg+ state of H2.
Journal of Chemical Physics 68(4), 1683–8 (1978).
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[37]
R. Jost and M. Lombardi.
Anticroisement singulet-triplet ou doublet-quadruplet dans les molécules diatomiques légères.
Journal de Physique. Colloque C1 39(5), 26–31 (1978).
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[36]
F. Stoeckel and M. Lombardi.
Electronic pumping of the ground state of 21Ne studied by alignment transfer, role of multiple diffusion.
Le Journal de Physique 39(5), 485–99 (1978).
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[35]
M. Carré, M. L. Gaillard, and M. Lombardi.
Étude de la relaxation des niveaux de l’Hélium excités par impact d’ions lourds: I. Relaxation de l’alignement de niveaux non résonants de He I.
Le Journal de Physique 38(6), 553–70 (1977).
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[34]
M. Carré and M. Lombardi.
Étude de la relaxation des niveaux de l’Hélium excités par impact d’ions lourds: II. relaxation du niveau de résonance 3 1P de He I.
Le Journal de Physique 38(6), 571–89 (1977).
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[33]
E. Chamoun, M. Lombardi, M. Carré, and M. L. Gaillard.
Étude de la relaxation des niveaux de l’Hélium excités par impact d’ions lourds: III. orientation par relaxation anisotrope d’atomes excités dans des états initialement alignés.
Le Journal de Physique 38(6), 591–8 (1977).
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[32]
R. S. Freund, T. A. Miller, B. R. Zegarski, R. Jost, M. Lombardi, and A. Dorelon.
Collisional angular momentum transfer in Rydberg states of helium.
Chemical Physics Letters 51(1), 18–22 (1977).
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[31]
M.-A. Mélières Maréchal and M. Lombardi.
I. Theory of the relaxation by collision of molecular multipole moments: impact approximation with long range electrostatic interactions.
Le Journal de Physique 38(6), 527–46 (1977).
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[30]
M.-A. Mélières Maréchal and M. Lombardi.
II. Depolarisation cross-section of the (1s 3p) 3Πu (N=1) level of H2 due to electrostatic long range interactions.
Le Journal de Physique 38(6), 547–52 (1977).
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[29]
J. Derouard, R. Jost, and M. Lombardi.
Pressure broadening of an anticrossing signal.
Le Journal de Physique Lettres 37(6), L135–8 (1976).
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[28]
J. Derouard, R. Jost, M. Lombardi, T. A. Miller, and R. S. Freund.
Singlet-triplet anticrossings in 4He. III. Separation and mixing of the n=3-8 1D and 3D states.
Physical Review A (General Physics) 14(3), 1025–35 (1976).
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[27]
R. Jost, M. Lombardi, J. Derouard, R. S. Freund, T. A. Miller, and B. R. Zegarski.
Singlet-triplet anticrossings and the electronic isotope shift in D2.
Chemical Physics Letters 37(3), 507–11 (1976).
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[26]
M. Lombardi.
Alignment and orientation. production, measurement and conversion.
In Beam Foil Spectroscopy, Vol. 2, Collisional and Radiative Processes, edited by I. Sellin and D. Pegg (Plenum Press, New York, 1976), pp. 731–47.
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[25]
M. Lombardi and M. Giroud.
Orientation of hydrogenic levels by Stark effect and sp coherence resulting from direct excitation or molecular dissociation.
Physical Review Letters 36(8), 409–12 (1976).
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[24]
M. Lombardi.
Surface electric field model for the beam-tilted-foil interaction.
Physical Review Letters 35(17), 1172–5 (1975).
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[23]
M. Lombardi, M. Giroud, and J. Macek.
Coherently excited atoms in external electric fields.
Physical Review A (General Physics) 11(3), 1114–7 (1975).
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[22]
T. A. Miller, R. S. Freund, B. R. Zegarski, R. Jost, M. Lombardi, and J. Derouard.
Observation of singlet-triplet anticrossings in 4He2.
Journal of Chemical Physics 63(9), 4042–6 (1975).
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[21]
A. Zgainski, S. Churassy, and M. Lombardi.
Study of a radiofrequency resonance experiment on excited levels in a fast ion beam. Application to the determination of excitation cross-sections for n=6 in 4He+.
Le Journal de Physique 36(12), 1221–31 (1975).
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[20]
R. Jost and M. Lombardi.
Determination of the singlet-triplet separation of H2 by a ’level-anticrossing’ technique.
Physical Review Letters 33(2), 53–6 (1974).
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[19]
M. Lombardi.
Fine and hyperfine structure of the 4p and 5p 3Πu states of H2.
Journal of Chemical Physics 60(10), 4094–5 (1974).
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[18]
M.-A. Mélières Maréchal and M. Lombardi.
Weak hyperfine structure measurement using the magnetic polarisation effect: application to N=1 ν =1 (1s3d)1Σ level of H2.
Journal of Chemical Physics 61(7), 2600–8 (1974).
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[17]
F. Stoeckel, M. Lombardi, and J.-C. Pebay-Peyroula.
Nuclear alignment of the 1S0 ground state of 21Ne by electron pumping using R-F discharge.
Le Journal de Physique Lettres 35(4), L45–7 (1974).
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[16]
J. Dufayard, M. Lombardi, and O. Nédélec.
Study of molecular oxygen and nitrogen in magnetic depolarization experiments.
Comptes Rendus Hebdomadaires des Séances de l’Académie des Sciences, Serie B (Sciences Physiques) 276(12), 471–4 (1973).
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[15]
M. Gaillard, M. Carré, H. G. Berry, and M. Lombardi.
Larmor precessions in the 2 3P and 4 3P terms of beam-foil excited 6Li II and 7Li II.
Nuclear Instruments and Methods 110, 273–84 (1973).
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[14]
M. Lombardi.
Fine and hyperfine structure of the 2p and 3p 3Πu states of H2.
Journal of Chemical Physics 58(2), 797–802 (1973).
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[13]
P. A. Moskowitz and M. Lombardi.
Distribution of nuclear magnetization in mercury isotopes.
Physics Letters B 46(3), 334–6 (1973).
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[12]
F. Stoeckel and M. Lombardi.
Measurement of the weak hyperfine structure of the 3 1P1 level of 3He by observation of a signal resulting from an electronic alignment and a nuclear orientation.
Le Journal de Physique 34(11-12), 951–9 (1973).
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[11]
M. Chenevier and M. Lombardi.
Magnetic depolarization of atomic fluorescence in flames.
Chemical Physics Letters 16(1), 154–6 (1972).
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[10]
R. Jost, M.-A. Maréchal, and M. Lombardi.
Fine structure of the N=1 (1s3p)3Πu state of the hydrogen molecule determined by magnetic resonance.
Physical Review A (General Physics) 5(2), 740–6 (1972).
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[9]
M.-A. Maréchal, R. Jost, and M. Lombardi.
Lifetimes, g factor, and collision cross sections of hydrogen molecules in the (1s3p) 3Πu level.
Physical Review A (General Physics) 5(2), 732–40 (1972).
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[8]
F. Stoeckel, M. Lombardi, and J.-C. Pebay-Peyroula.
On the possibility to determine weak hyperfine structure interaction constants by magnetic depolarization (3He 3 1P1 level).
Physics Letters A 40(2), 151–2 (1972).
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[7]
M. Giroud and M. Lombardi.
Alignement d’une vapeur atomique excitée par une décharge H.F. Application à l’étude des transferts d’excitation et aux effets de cascade dans l’Hélium.
Journal de Physique. Colloque C1 30, 84 (1969).
[Online] , [Get local copy] , [Ask for a (p)reprint by email] .
[6]
M. Giroud, M. Lombardi, and J.-C. Pebay Peyroula.
Study of different relaxation processes of excited atomic levels of helium by high frequency discharge method.
Le Journal de Physique 30(10), 789–94 (1969).
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[5]
M. Lombardi.
Création d’orientation par combinaison de deux alignements. Alignement et orientation des niveaux excités d’une décharge haute fréquence.
Le Journal de Physique 30(8-9), 631–42 (1969).
[Online] , [Get local copy] , [Ask for a (p)reprint by email] .
[4]
M. Lombardi and J.-C. Pebay-Peyroula.
Alignement et orientation dans des niveaux atomiques excités par une décharge haute fréquence.
In Polarisation, Matière et rayonnement. Volume Jubilaire en l’honneur d’Alfred Kastler (Presses Universitaires de France, 1969), pp. 371–80.
[Get local copy] , [Ask for a (p)reprint by email] .
[3]
M. Lombardi and M. Giroud.
Mise en évidence expérimentale et interprétation de l’orientation d’atomes excités dans une décharge haute fréquence.
Comptes Rendus Hebdomadaires des Séances de l’Académie des Sciences, Serie B (Sciences Physiques) 266, 60–3 (1968).
[Online] , [Get local copy] , [Ask for a (p)reprint by email] .
[2]
M. Lombardi.
Note sur la possibilité d’orienter un atome par superposition de deux interactions séparément non orientantes, en particulier par alignement électronique et relaxation anisotrope.
Comptes Rendus Hebdomadaires des Séances de l’Académie des Sciences, Serie B (Sciences Physiques) 265, 191–4 (1967).
[Online] , [Get local copy] , [Ask for a (p)reprint by email] .
[1]
M. Lombardi and J.-C. Pebay-Peyroula.
Polarisation de la lumière émise par une vapeur atomique lors d’une décharge haute fréquence.
Comptes Rendus Hebdomadaires des Séances de l’Académie des Sciences 261, 1485–7 (1965).
[Online] , [Get local copy] , [Ask for a (p)reprint by email] .

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