Richard Heming scite author profile

In this study a simple micro-tube-based system for analysis of metal-containing liquids is introduced and its analytical performance is evaluated. It is based on a miniaturised dielectric barrier discharge driven at atmospheric pressure. The emission lines of various elements are observed. The system is developed for quantitative measurements and the limits of detection are determined. Because of very low flow rates of just microL min(-1) the approach requires extremely low sample volumes.

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Magnetic-Field-Dependent THz Emission of Spintronic TbFe/Pt Layers

Schneider

Fix

Heming

et al. 2018

ACS Photonics

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We measure the THz emission of a layered spintronic system based on platinum (Pt) and terbium–iron (Tb x Fe1–x ) alloys for the entire range of Tb content (0 ≤ x ≤ 1) under different external applied magnetic fields. We find that the THz emission amplitude closely follows the in-plane magnetization. Deviations occur when the ferrimagnetic TbFe layer changes from an in-plane to an out-of-plane easy axis at x = 0.2, and in the medium composition range x = 0.45–0.55, where Tb magnetic moments dominate the total magnetic moment. The increasing influence of Tb also leads to an inverted THz amplitude for samples with comparable Fe and Tb contents. The THz emission is highest for Tb x Fe1–x /Pt samples with small amounts of Tb (x = 0.03–0.15) due their reduced electrical conductivity compared to pure Fe/Pt and strongly decreases with increasing Tb content by 2 orders of magnitude. Our systematic study paves the way for designing optimized spintronic THz emitters and demonstrates that transient THz spectroscopy is a powerful tool to gain insight into complex magnetic systems.

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Richard Heming

Characterization of a capillary dielectric barrier plasma jet for use as a soft ionization source by optical emission and ion mobility spectrometry

Liquid analysis dielectric capillary barrier discharge

Magnetic-Field-Dependent THz Emission of Spintronic TbFe/Pt Layers

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