N. Stallkamp scite author profile

N. Stallkamp

3Publications

22Citation Statements Received

116Citation Statements Given

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110

Affiliations

GSI Helmholtz Centre for Heavy Ion Research, Friedrich Schiller University Jena, Helmholtz Institute Jena

Publications

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Single-pass non-destructive electronic detection of charged particles

Kiffer

Ringleb

Stallkamp

et al. 2019

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We have devised an experimental method and apparatus for the simultaneous nondestructive determination of the absolute ion number, ion kinetic energy, and length of bunches of charged particles. We have built and operated a corresponding electronic detector that is based on induced charges and their subsequent low-noise amplification at cryogenic temperatures. We have performed measurements with bunches of low-energy highly charged ions from an electron-beam ion source that show the capability of the methods and their implementation. We discuss requirements for, and applications of, such detectors with a particular view on the obtainable information and their sensitivity.

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Optically transparent solid electrodes for precision Penning traps

Wiesel

Birkl

Ebrahimi

et al. 2017

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We have conceived, built, and operated a cryogenic Penning trap with an electrically conducting yet optically transparent solid electrode. The trap, dedicated to spectroscopy and imaging of confined particles under large solid angles is of 'half-open' design with one open endcap and one closed endcap that mainly consists of a glass window coated with a highly transparent conductive layer. This arrangement allows for trapping of externally or internally produced particles, yields flexible access for optical excitation and efficient light collection from the trapping region. At the same time, it is electrically closed and ensures long-term ion confinement under well-defined conditions. With its superior surface quality and its high as well as homogeneous optical transmission, the window electrode is an excellent replacement for partially transmissive electrodes that use holes, slits, metallic meshes and the like.

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High-intensity laser experiments with highly charged ions in a Penning trap

et al. 2022

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We have conceived and built the HILITE (High-Intensity Laser-Ion Trap Experiment) Penning-trap setup for the production, confinement and preparation of pure ensembles of highly charged ions in a defined quantum state as a target for various high-intensity lasers. This enables a broad suite of laser-ion interaction studies at high photon energies and/or intensities, such as non-linear photo-ionisation studies. The setup has now been used to perform experiments at one such laser facility, namely the FLASH Free-Electron Laser at DESY in Hamburg, Germany. We describe the experimental possibilities of the apparatus, the results of the first measurements and future experiments at other laser facilities.

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N. Stallkamp

Single-pass non-destructive electronic detection of charged particles

Optically transparent solid electrodes for precision Penning traps

High-intensity laser experiments with highly charged ions in a Penning trap

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