• 커뮤니티
  • 세미나/콜로퀴움
세미나/콜로퀴움

Quantum 바카라 배팅 법ic Science and Spin-바카라 배팅 법ics

본문

"The 21st-century Advanced Information Era needs the development of ultrafast, compact, extremely-high capacity and low power-consuming devices, which also requires the quantum-mechanical understanding on the 바카라 배팅 법-controlled properties of charge/spin, the basic physical properties for the information-processing devices, and the fabrication of new-concept 바카라 배팅 법-controlled charge-spin devices which can perform a synthetic function for the information processing. Therefore, it is urgent to investigate the complete elucidation of the 바카라 배팅 법-controlled properties, represented by the 바카라 배팅 법-charge/spin ones, for the quantum structures (QS), and constructs the foundation for the advanced devices such as next-generation optical memory, optical/spin coherence devices, and new-concept 바카라 배팅 법ics.

This can be obtained by performing the following researches; 1) ""Advanced 바카라 배팅 법-charge interactions"" investigates the quantum-mechanical (QM) correlations between 바카라 배팅 법 and QS, such as advanced nonlinear optical thin films, 바카라 배팅 법ic bandgap structures, etc., through phase-control, non/linear optical and ultrahigh-resolution spectroscopic studies, 2) ""Advanced 바카라 배팅 법-spin interactions"" concerns the QM correlations between 바카라 배팅 법 and 바카라 배팅 법-spin QS, such as polarization-controlled hetero-structures, new-concept 바카라 배팅 법-spin QS, etc., through non/linear magneto-optical and ultrafast 바카라 배팅 법-spin dynamic studies, and 3) ""Control and application of 바카라 배팅 법-charge/spin interactions"" will play a central role to connect the electro- and magneto-optic characteristics, to design the 바카라 배팅 법ic QS and to predict their 바카라 배팅 법ic properties by simulation.

By establishing the unified understanding of 바카라 배팅 법-controlled charge/spin properties of QS, it is possible to create new-concept devices through the general but systematic elucidation of the 바카라 배팅 법-controlled properties of QS. Research results based on Co/Pt multilayered structures and magnetic shape-memory alloy films are presented as an initial example for this field of science, and the brief perspective of this science is also discussed.
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