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381.
We show that the chiral-symmetry-broken phase of massless QED in the presence of a magnetic field exhibits strong paraelectricity. A large anisotropic electric susceptibility develops in the infrared region, where most of the fermions are confined to their lowest Landau level, and dynamical mass and anomalous magnetic moment are generated via the magnetic catalysis mechanism. The nonperturbative nature of this effect is reflected in the dependence of the electric susceptibility on the fine-structure constant. The strong paraelectricity is linked to the electric dipole moments of the particle-antiparticle pairs that form the chiral condensate. The significant electric susceptibility can be used as a probe to detect the realization of the magnetic catalysis of chiral symmetry breaking in physical systems. 相似文献
382.
A battery-operated, atmospheric pressure, self-igniting, planar geometry Ar–H2 microplasma for elemental analysis of liquid microsamples is described. The inexpensive microplasma device (MPD) fabricated
for this work was a hybrid plastic–quartz structure that was formed on chips with an area (roughly) equal to that of a small-sized
postage stamp (MPD footprint, 12.5-mm width by 38-mm length). Plastic substrates were chosen due to their low cost, for rapid
prototyping purposes, and for a speedy microplasma device evaluation. To enhance portability, the microplasma was operated
from an 18-V rechargeable battery. To facilitate portability even further, it was demonstrated that the battery can be recharged
by a portable solar panel. The battery-supplied dc voltage was converted to a high-voltage ac. The ∼750-μm (diameter) and
12-mm (long) Ar–H2 (3% H2) microplasma was formed by applying the high-voltage ac between two needle electrodes. Spectral interference from the electrode
materials or from the plastic substrate was not observed. Operating conditions were found to be key to igniting and sustaining
a microplasma that was simply “warm” to the touch (thus alleviating the need for cooling or other thermal management) and
that had a stable background emission. A small-sized (900 μL internal volume) electrothermal vaporization system (40-W max
power) was used for microsample introduction. Microplasma background emission in the spectral region between 200 and 850 nm
obtained using a portable fiber-optic spectrometer is reported and the effect of the operating conditions is described. Analyte
emission from microliter volumes of dilute single-element standard solutions of Cd, Cu, K, Li, Mg, Mn, Na, Pb, and Zn is documented.
The majority of spectral lines observed for the elements tested were from neutral atoms. The relative lack of emission from
ion lines simplified the spectra, thus facilitating the use of a portable spectrometer. Despite the relative spectral simplicity,
some spectral interference effects were noted when running a multi-element solution. An example of how interference in the
spectral domain can be resolved in the time domain using selective thermal vaporization is provided. Analytical utility and
performance characteristics are reported; for example, K concentrations in diluted (∼30 times) bottled water were determined
to be 4.1 ± 1.0 μg/mL (4 μg/mL was the stated concentration), precision was about 25%, and the estimated detection limits
were in the picogram range (or in nanograms per milliliter in relative units). 相似文献
383.
384.
Tao Yu Daniel Ping‐Kuen Tsang Dr. Vonika Ka‐Man Au Dr. Wai Han Lam Dr. Mei‐Yee Chan Prof. Dr. Vivian Wing‐Wah Yam 《Chemistry (Weinheim an der Bergstrasse, Germany)》2013,19(40):13418-13427
A series of triarylamine‐containing tricarbonyl rhenium(I) complexes, [BrRe(CO)3(N^N)] (N^N=5,5′‐bis(N,N‐diaryl‐4‐[ethen‐1‐yl]‐aniline)‐2,2′‐bipyridine), has been designed and synthesized by introducing a rhenium(I) metal center into a donor‐π‐acceptor‐π‐donor structure. All of the complexes showed an intense broad structureless emission band in dichloromethane at around 680–708 nm, which originated from an excited state of intraligand charge transfer (3ILCT) character from the triarylamine to the bipyridine moiety. Upon introduction of the bulky and electron‐donating pentaphenylbenzene units attached to the aniline groups, the emission bands were found to be red shifted. The nanosecond transient absorption spectra of two selected complexes were studied, which were suggestive of the formation of an initial charge‐separated state. Computational studies have been performed to provide further insight into the origin of the absorption and emission. One of the rhenium(I) complexes has been utilized in the fabrication of organic light‐emitting diodes (OLEDs), representing the first example of the realization of deep red to near‐infrared rhenium(I)‐based OLEDs with an emission extending up to 800 nm. 相似文献
385.
Christian Berchtold Vivian Müller Lukas Meier Stefan Schmid Renato Zenobi 《Journal of mass spectrometry : JMS》2013,48(5):587-593
Most pesticides, herbicides and other plant treatment agents are applied to the crop surface. Direct mass spectrometric methods, such as desorption electrospray ionization (DESI), offer new ways to analyze plant samples directly and rapidly. A strategy for the development and optimization of a DESI method for the direct determination of chemicals on complex surfaces is described. Chlorpropham (CP) was applied to potato surfaces as an example for a crop protection agent and analyzed using a self‐made DESI source. Aspects such as instrument selectivity, sensitivity and reproducibility were investigated. The MS4 fragmentation pattern of CP was analyzed to achieve the necessary detection selectivity, and is discussed in detail. Similar fragmentation was found in the ESI and DESI mass spectra, indicating that the mechanisms of ESI and DESI are closely related. A DESI method for semi‐quantification of CP on potatoes was developed. Detection limits of 6.5 µg/kg were found using MS/MS. The reproducibility, in the range of 12% (signal variation), appears to be sufficient for semi‐quantitative measurements. Copyright © 2013 John Wiley & Sons, Ltd. 相似文献
386.