Christian Lüder scite author profile

Christian Lüder

4Publications

101Citation Statements Received

27Citation Statements Given

How they've been cited

143

How they cite others

Affiliations

Leibniz University Hannover, Foundation for Research and Technology Hellas, Paderborn University

Publications

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Structural transitions in metal ion-doped noble gas clusters: Experiments and molecular dynamics simulations

Prekas

Lüder

Velegrakis

1998

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We present the size distributions of metal ion-doped noble gas clusters of the form M+Xn (M=Mg, K and X=Ar, Kr, Xe) studied with time-of-flight mass spectrometry. All the recorded spectra exhibit magic number patterns, which change gradually from the familiar icosahedral sequence N=n+1=13,19,23,26,29,32 to another one that exhibits the magic numbers N=9,10,11,17,21,24,26,27,30, as the atomic size ratio of the metal ion to the noble gas atom decreases. Furthermore, as the cluster size N increases, the new sequence seems to convert again to the icosahedral one at some critical cluster size. Molecular dynamics simulations using pairwise additive Lennard-Jones potentials are performed in order to investigate the stability and the geometrical structure of these systems as a function of radii ratio, interaction energy, and cluster size. The results obtained are in very good agreement with the experimental ones and indicate that when the size of the dopant is comparable to that of the noble gas atoms then the clusters exhibit icosahedral geometries, while for smaller ratios, clusters having a geometry based on a capped square antiprism (CSA) are more stable.

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Ion‐Size Effects in the Growth Sequences of Metal‐Ion‐Doped NobleGas Clusters

1997

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We have studied the stability and the structure of doped noble gas cluster ions of the type M+Xn, (M=In, Al, Na, X=Ar, Kr, Xe) by systematically changing the composition M/X and observing changes in the magic number patterns appearing in the mass spectra. When the metal ion radius is comparable to the radius of the noble gas atom, the mass spectra show the familar icosahedral magic numbers n+ 1=13,19,23,26,29,32, 46, 55,... In constrast, for metal ions with radii significantly smaller than the noble gas atoms, we observe a new series of magic numbers n + 9, 11, 17, 21,24, 26,... This series converts into the icosahedral one for larger clusters. Using a simple hard sphere packing model, we show that this new series of magic numbers is consistent with a cluster growth sequence which is based on a capped square antiprism (CSA) geometrical structure of the clusters.

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Photodissociation spectrum of Sr+Ne

Lüder¹,

Prekas²,

Vourhotaki³

et al. 1997

Chemical Physics Letters

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In situmicroscopy and MIR-spectroscopy as non-invasive optical sensors for cell cultivation process monitoring

Lüder¹,

Lindner²,

Bulnes-Abundis³

et al. 2014

Pharmaceutical Bioprocessing

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