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Nuclear moments of neutron deficient iridium isotopes from laser spectroscopy (2000)

Verney, D. ; Le Blanc, F. ; Cabaret, L. ; [weitere]

Springer

Hyperfine interactions 127 (2000), S. 79-82

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ISSN: 1572-9540

Schlagwort(e): laser spectroscopy ; resonance ionization spectroscopy ; hyperfine structure ; isotope shift ; nuclear moments ; nuclear charge radius variation

Quelle: Springer Online Journal Archives 1860-2000

Thema: Physik

Notizen: Abstract Laser spectroscopy measurements have been performed on neutron deficient iridium isotopes. The hyperfine structure and isotope shift of the optical Ir I transition 5d76s2 4F9/2 → 5d76s6p 6F11/2 at 351.5 nm have been studied for the 182–189Ir, $$^{186} {\text{Ir}}^\user1{m} $$ and 191,193Ir isotopes. The nuclear magnetic and quadrupole moments were obtained from the HFS measurements and the changes of the mean square charge radii from the IS measurements. A large mean square charge radius change between 187Ir and 186Ir and between $$^{186} {\text{Ir}}^\user1{m} $$ and $$^{186} {\text{Ir}}^\user1{g} $$ has been observed.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1023/A:1012602525009

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Digitale Medien

Bohr–Weisskopf effect: influence of the distributed nuclear magnetization on hfs (2000)

Stroke, H.H. ; Duong, H.T. ; Pinard, J.

Springer

Hyperfine interactions 129 (2000), S. 319-335

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ISSN: 1572-9540

Schlagwort(e): nuclear magnetic moments ; Bohr–Weisskopf effect ; hyperfine structure ; parity nonconservation in atomic interactions ; Knight shift ; QED

Quelle: Springer Online Journal Archives 1860-2000

Thema: Physik

Notizen: Abstract Nuclear magnetic moments provide a sensitive test of nuclear wave functions, in particular those of neutrons, which are not readily obtainable from other nuclear data. These are taking added importance by recent proposals to study parity non-conservation (PNC) effects in alkali atoms in isotopic series. By taking ratios of the PNC effects in pairs of isotopes, uncertainties in the atomic wave functions are largely cancelled out at the cost of knowledge of the change in the neutron wave function. The Bohr–Weisskopf effect (B–W) in the hyperfine structure interaction of atoms measures the influence of the spatial distribution of the nuclear magnetization, and thereby provides an additional constraint on the determination of the neutron wave function. The added great importance of B–W in the determination of QED effects from the hfs in hydrogen-like ions of heavy elements, as measured recently at GSI, is noted. The B–W experiments require precision measurements of the hfs interactions and, independently, of the nuclear magnetic moments. A novel atomic beam magnetic resonance (ABMR) method, combining rf and laser excitation, has been developed for a systematic study and initially applied to stable isotopes. Difficulties in adapting the experiment to the ISOLDE radioactive ion beam, which have now been surmounted, are discussed. A first radioactive beam measurement for this study, the precision hfs of 126Cs, has been obtained recently. The result is 3629.515(∼0.001) MHz. The ability of ABMR to determine with high precision nuclear magnetic moments in free atoms is a desideratum for the extraction of QED effects from the hfs of the hydrogen-like ions. We also point out manifestations of B–W in condensed matter and atomic physics.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1023/A:1012630404421

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