Pure rotational spectra of PbSe and PbTe: Potential function, Born-Oppenheimer breakdown, field shift effect and magnetic shielding

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autorschaft

  • Barbara M. Giuliano
  • Luca Bizzocchi
  • Stephen Cooke
  • Deike Banser
  • Mareike Hess
  • Juliane Fritzsche
  • Jens Uwe Grabow

Organisationseinheiten

Externe Organisationen

  • Università di Bologna
  • University of North Texas
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Details

OriginalspracheEnglisch
Seiten (von - bis)2078-2088
Seitenumfang11
FachzeitschriftPhysical Chemistry Chemical Physics
Jahrgang10
Ausgabenummer15
PublikationsstatusVeröffentlicht - 2008

Abstract

The pure rotational spectra of 41 isotopic species of PbSe and PbTe have been measured in their X1Σ+ electronic state with a resonator pulsed-jet Fourier transform microwave spectrometer. The molecules were prepared by laser ablation of suitable target rods and stabilised in supersonic jets of noble gas. Global multi-isotopologue analyses yielded spectroscopic Dunham parameters Y01, Y11, Y21, Y31, Y02, and Y12 for both species, as well as effective Born-Oppenheimer breakdown (BOB) coefficients δ01 for Pb, Se and Te. Unusual large values of the BOB parameters for Pb have been rationalized in terms of finite nuclear size (field shift) effect. A direct fit of the same data sets to an appropriate radial Hamiltonian yielded analytic potential energy functions and BOB radial functions for the X 1Σ+ electronic state of both PbSe and PbTe. Additionally, the magnetic hyperfine interactions produced by the uneven mass number A nuclei 207Pb, 77Se, 123Te, and 125Te were observed, yielding first determinations of the corresponding nuclear spin-rotation coupling constants.

ASJC Scopus Sachgebiete

Zitieren

Pure rotational spectra of PbSe and PbTe: Potential function, Born-Oppenheimer breakdown, field shift effect and magnetic shielding. / Giuliano, Barbara M.; Bizzocchi, Luca; Cooke, Stephen et al.
in: Physical Chemistry Chemical Physics, Jahrgang 10, Nr. 15, 2008, S. 2078-2088.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Giuliano BM, Bizzocchi L, Cooke S, Banser D, Hess M, Fritzsche J et al. Pure rotational spectra of PbSe and PbTe: Potential function, Born-Oppenheimer breakdown, field shift effect and magnetic shielding. Physical Chemistry Chemical Physics. 2008;10(15):2078-2088. doi: 10.1039/b716896a
Giuliano, Barbara M. ; Bizzocchi, Luca ; Cooke, Stephen et al. / Pure rotational spectra of PbSe and PbTe : Potential function, Born-Oppenheimer breakdown, field shift effect and magnetic shielding. in: Physical Chemistry Chemical Physics. 2008 ; Jahrgang 10, Nr. 15. S. 2078-2088.
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abstract = "The pure rotational spectra of 41 isotopic species of PbSe and PbTe have been measured in their X1Σ+ electronic state with a resonator pulsed-jet Fourier transform microwave spectrometer. The molecules were prepared by laser ablation of suitable target rods and stabilised in supersonic jets of noble gas. Global multi-isotopologue analyses yielded spectroscopic Dunham parameters Y01, Y11, Y21, Y31, Y02, and Y12 for both species, as well as effective Born-Oppenheimer breakdown (BOB) coefficients δ01 for Pb, Se and Te. Unusual large values of the BOB parameters for Pb have been rationalized in terms of finite nuclear size (field shift) effect. A direct fit of the same data sets to an appropriate radial Hamiltonian yielded analytic potential energy functions and BOB radial functions for the X 1Σ+ electronic state of both PbSe and PbTe. Additionally, the magnetic hyperfine interactions produced by the uneven mass number A nuclei 207Pb, 77Se, 123Te, and 125Te were observed, yielding first determinations of the corresponding nuclear spin-rotation coupling constants.",
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Download

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T1 - Pure rotational spectra of PbSe and PbTe

T2 - Potential function, Born-Oppenheimer breakdown, field shift effect and magnetic shielding

AU - Giuliano, Barbara M.

AU - Bizzocchi, Luca

AU - Cooke, Stephen

AU - Banser, Deike

AU - Hess, Mareike

AU - Fritzsche, Juliane

AU - Grabow, Jens Uwe

PY - 2008

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N2 - The pure rotational spectra of 41 isotopic species of PbSe and PbTe have been measured in their X1Σ+ electronic state with a resonator pulsed-jet Fourier transform microwave spectrometer. The molecules were prepared by laser ablation of suitable target rods and stabilised in supersonic jets of noble gas. Global multi-isotopologue analyses yielded spectroscopic Dunham parameters Y01, Y11, Y21, Y31, Y02, and Y12 for both species, as well as effective Born-Oppenheimer breakdown (BOB) coefficients δ01 for Pb, Se and Te. Unusual large values of the BOB parameters for Pb have been rationalized in terms of finite nuclear size (field shift) effect. A direct fit of the same data sets to an appropriate radial Hamiltonian yielded analytic potential energy functions and BOB radial functions for the X 1Σ+ electronic state of both PbSe and PbTe. Additionally, the magnetic hyperfine interactions produced by the uneven mass number A nuclei 207Pb, 77Se, 123Te, and 125Te were observed, yielding first determinations of the corresponding nuclear spin-rotation coupling constants.

AB - The pure rotational spectra of 41 isotopic species of PbSe and PbTe have been measured in their X1Σ+ electronic state with a resonator pulsed-jet Fourier transform microwave spectrometer. The molecules were prepared by laser ablation of suitable target rods and stabilised in supersonic jets of noble gas. Global multi-isotopologue analyses yielded spectroscopic Dunham parameters Y01, Y11, Y21, Y31, Y02, and Y12 for both species, as well as effective Born-Oppenheimer breakdown (BOB) coefficients δ01 for Pb, Se and Te. Unusual large values of the BOB parameters for Pb have been rationalized in terms of finite nuclear size (field shift) effect. A direct fit of the same data sets to an appropriate radial Hamiltonian yielded analytic potential energy functions and BOB radial functions for the X 1Σ+ electronic state of both PbSe and PbTe. Additionally, the magnetic hyperfine interactions produced by the uneven mass number A nuclei 207Pb, 77Se, 123Te, and 125Te were observed, yielding first determinations of the corresponding nuclear spin-rotation coupling constants.

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