A. Rupp scite author profile

A. Rupp

5Publications

85Citation Statements Received

38Citation Statements Given

How they've been cited

102

How they cite others

Affiliations

Fraunhofer Institute for Telecommunications, Heinrich Hertz Institute, University of Kaiserslautern

Publications

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SANS polarization analysis at V4 SANS instrument of HMI Berlin

Keiderling¹,

Wiedenmann²,

Rupp³

et al. 2008

Meas. Sci. Technol.

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The V4 instrument has recently been upgraded with a 3 He spin filter cell, placed directly in the homogeneous field B of the sample magnet, to enhance the SANSPOL option for polarization analysis. The prototype setup was still affected by: (a) a quick relaxation of the 3 He nuclear polarization in the cell with a time constant of only ≈130 min which significantly changes the spin filter transmissions T + and T − for neutrons polarized parallel I + and anti-parallel I − to B, and (b) the absence of a flipping aid behind the sample. The usual polarization analysis procedure, expecting virtually time-independent transmissions and a second flipping device, is therefore not applicable. We present an alternative way of polarization analysis, developed especially for this case of a spin filter cell with insufficient time stability, and not requiring a second flipper. A concentrated Co-ferrofluid sample 'MFT3N' was measured with the spin filter cell for 5.5 h. From the time-dependent change of I + and I − caused by the change of T + and T − , the spin-flip and non-spin-flip components of the scattering were calculated by fitting procedures. The two-dimensional flip patterns obtained represent the purely magnetic scattering contribution, featuring the typical (sin α cos α) 2 angular behavior expected for superparamagnetic systems.

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Two-component structure in the angular emission of a laser-produced Ta plasma

Thum

Rupp

Rohr

1994

J. Phys. D: Appl. Phys.

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Modeling of laser induced plasma, spectroscopic and time of flight experiments in pulsed laser deposition

Granse

Völlmar

Lenk

et al. 1996

Applied Surface Science

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Velocity-resolved recombination dynamics in a laser-produced Ta plasma

Rupp¹,

Rohr²

1995

J. Phys. D: Appl. Phys.

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Ion energy spectra of a laser-produced Ta plasma have been investigated as a function of the flight distance from the focus. The laser (Nd:YAG, 20 ns, 210 mJ) is incident obliquely (45 degrees ) and focused to an intensity of about 1011 W cm-2. The changes in the ion distributions have been analysed for the Ta+ to Ta6+ ions in an expansion range 64-220 cm. With increasing distance from the target, a weak but monotonic decrease is observed for the total number ions, which is essentially due to the decrease in number of the more highly charged species. For the Ta+ and Ta2+ ions the net changes approximately cancel. A more sophisticated picture of the recombination dynamics is obtained, however, if the changes within individual groups of ions expanding with different velocities are compared. Here, in the same spectrum, both increasing and decreasing ion numbers can be observed. This can be interpreted as direct evidence of recombination and its dependence on temperature, density and charge.

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Research on 3He spin filter cells made of quartz glass

Hutanu¹,

Rupp²

2005

Physica B: Condensed Matter

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A. Rupp

SANS polarization analysis at V4 SANS instrument of HMI Berlin

Two-component structure in the angular emission of a laser-produced Ta plasma

Modeling of laser induced plasma, spectroscopic and time of flight experiments in pulsed laser deposition

Velocity-resolved recombination dynamics in a laser-produced Ta plasma

Research on 3He spin filter cells made of quartz glass

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