Daiki Kitajima scite author profile

Daiki Kitajima

2Publications

8Citation Statements Received

29Citation Statements Given

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Osaka City University, Fukuoka Institute of Technology

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Photoinduced Kondo effect inCeZn3P3

et al. 2016

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The Kondo effect, which originates from the screening of a localized magnetic moment by a spinspin interaction, is widely observed in non-artificial magnetic materials, artificial quantum dots, and carbon nanotubes. In devices based on quantum dots or carbon nanotubes that target quantum information applications, the Kondo effect can be tuned by a gate voltage, a magnetic field, or light.However, the manipulation of the Kondo effect in non-artificial materials has not been thoroughly studied; in particular, the artificial creation of the Kondo effect remains unexplored. Per this subject study, however, a new route for the optical creation of the Kondo effect in the non-artificial material p-type semiconductor CeZn 3 P 3 is presented. The Kondo effect emerges under visiblelight illumination of the material by a continuous-wave laser diode and is ultimately revealed by photoinduced electrical resistivity, which clearly exhibits a logarithmic temperature dependency.By contrast, a La-based compound (LaZn 3 P 3 ) displays only normal metallic behavior under similar illumination. The photoinduced Kondo effect, which occurs at higher temperatures when compared with the Kondo effect in artificial systems, provides a potential new range of operation for not only quantum information/computation devices but also for operation of magneto-optic devices thereby expanding the range of device applications based on the Kondo effect.

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Real time measurements of UV-vis diffuse reflectance of silver nanoparticles on gallium oxide photocatalyst

et al. 2021

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Daiki Kitajima

Photoinduced Kondo effect inCeZn3P3

Real time measurements of UV-vis diffuse reflectance of silver nanoparticles on gallium oxide photocatalyst

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