Kailing Zhang scite author profile

Magnon-polaritons are shown to play a dominant role in the propagation of terahertz (THz) waves through TmFeO3 orthoferrite, if the frequencies of the waves are in the vicinity of the quasi-antiferromagnetic spin resonance mode. Both time-domain THz transmission and emission spectroscopies reveal clear beatings between two modes with frequencies slightly above and slightly below this resonance, respectively. Rigorous modeling of the interaction between the spins of TmFeO3 and the THz light shows that the frequencies correspond to the upper and lower magnon-polariton branches. Our findings reveal the previously ignored importance of propagation effects and polaritons in such heavily debated areas as THz magnonics and THz spectroscopy of electromagnons. It also shows that future progress in these areas calls for an interdisciplinary approach at the interface between magnetism and photonics.

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Application of Infrared Multiple Photon Dissociation (IRMPD) Spectroscopy in Chiral Analysis

Shi

Ren

et al. 2020

Molecules

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In recent years, methods based on photodissociation in the gas phase have become powerful means in the field of chiral analysis. Among them, infrared multiple photon dissociation (IRMPD) spectroscopy is a very attractive one, since it can provide valuable spectral and structural information of chiral complexes in addition to chiral discrimination. Experimentally, the method can be fulfilled by the isolation of target diastereomeric ions in an ion trap followed by the irradiation of a tunable IR laser. Chiral analysis is performed by comparing the difference existing in the spectra of enantiomers. Combined with theoretical calculations, their structures can be further understood on the molecular scale. By now, lots of chiral molecules, including amino acids and peptides, have been studied with the method combined with theoretical calculations. This review summarizes the relative experimental results obtained, and discusses the limitation and prospects of the method.

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Selection of risk response actions with consideration of secondary risks

Zuo

Zhang

2018

International Journal of Project Management

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Contactless Optical Characterization of Carrier Dynamics in Free-Standing InAs-InAlAs Core–Shell Nanowires on Silicon

Zhang

Treu

et al. 2019

Nano Lett.

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Contactless time-resolved optical pump–probe and external quantum efficiency measurements were performed in epitaxially grown free-standing wurtzite indium arsenide/indium aluminum arsenide (InAs-InAlAs) core–shell nanowires on Si (111) substrate from 77 to 293 K. The first independent investigation of Shockley–Read–Hall, radiative, and Auger recombination in InAs-based NWs is presented. Although the Shockley–Read–Hall recombination coefficient was found to be at least 2 orders of magnitude larger than the average experimental values of other reported InAs materials, the Auger recombination coefficient was reported to be 10-fold smaller. The very low Auger and high radiative rates result in an estimated peak internal quantum efficiency of the core–shell nanowires as high as 22% at 77 K, making these nanowires of potential interest for high-efficiency mid-infrared emitters. A greater than 2-fold enhancement in minority carrier lifetime was observed from capping nanowires with a thin InAlAs shell due to the passivation of surface defects.

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Kailing Zhang

Terahertz Magnon-Polaritons in TmFeO₃

Application of Infrared Multiple Photon Dissociation (IRMPD) Spectroscopy in Chiral Analysis

Selection of risk response actions with consideration of secondary risks

Contactless Optical Characterization of Carrier Dynamics in Free-Standing InAs-InAlAs Core–Shell Nanowires on Silicon

Contact Info

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Resources

About

Kailing Zhang

Terahertz Magnon-Polaritons in TmFeO3

Application of Infrared Multiple Photon Dissociation (IRMPD) Spectroscopy in Chiral Analysis

Selection of risk response actions with consideration of secondary risks

Contactless Optical Characterization of Carrier Dynamics in Free-Standing InAs-InAlAs Core–Shell Nanowires on Silicon

Contact Info

Product

Resources

About

Terahertz Magnon-Polaritons in TmFeO₃