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Walter Neu
Researcher at University of Mainz
Publications - 95
Citations - 1327
Walter Neu is an academic researcher from University of Mainz. The author has contributed to research in topics: Laser & Excimer laser. The author has an hindex of 20, co-authored 93 publications receiving 1255 citations. Previous affiliations of Walter Neu include CERN & Frankfurt University of Applied Sciences.
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Journal ArticleDOI
Nuclear spin and magnetic moment of 11Li
Eddy Arnold,J. Bonn,R. Gegenwart,Walter Neu,Rainer Neugart,Ernst W. Otten,G. Ulm,Klaus Wendt +7 more
TL;DR: In this article, the angular asymmetry of the β-radiation from the polarized nuclei was used to detect the hfs of the 2s 2 S 1 2 −2 p 2 P 1 2 resonance line and the NMR signal cubic LiF crystal lattice.
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Double-pulse technique for optical emission spectroscopy of ablation plasmas of samples in liquids
Ralf Nyga,Walter Neu +1 more
TL;DR: Sharp atomic and ionic line spectra of excimer-laser-induced ablation plasmas of samples in liquids were observed and a new double-pulse technique employing quartz fibers facilitates spectral analysis of samplesIn liquids in which spectral lines normally are strongly broadened and quenched.
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Systematics of nuclear ground state properties in Sr 78 – 100 by laser spectroscopy
F. Buchinger,E. B. Ramsay,Eddy Arnold,Walter Neu,Rainer Neugart,Klaus Wendt,Roger Silverans,Peter Lievens,L. Vermeeren,D. Berdichevsky,R. Fleming,Dwl Sprung,G. Ulm +12 more
TL;DR: In this paper, the spins and moments of strontium isotopes with A=78 to A=98 and A=100 were extracted from the collinear fast beam laser spectroscopy data and compared with predictions of the droplet model and Hartree-Fock-plus-BCS calculations.
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Compact mid-infrared trace gas sensor based on difference-frequency generation of two diode lasers in periodically poled LiNbO3
TL;DR: In this paper, a PPLN crystal was pumped by two single-frequency diode lasers with a maximum DFG power of 1.6μm at 3.6 µm and a signal power of 41.5 µm at 1083 µm.
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Xenon isotopes far from stability studied by collisional ionization laser spectroscopy
TL;DR: The collisional ionization scheme in collinear laser spectroscopy has enabled the study of hyperfine structures and isotope shifts of xenon isotopes over the large mass range A = 116−146.