Titlebook: Hidden Order and Exotic Superconductivity in the Heavy-Fermion Compound URu2Si2; Ryuji Okazaki Book 2013 Springer Japan 2013 Electronic Ne

Brain-Imaging

MOTIF

Ryuji Okazakiresents one operational principle to quickly remove exploitable vulnerabilities. Finally, the chapter discusses how a systemic failure can occur in a complex adaptive system even when no parts fail, as well as the need to build models to understand such extreme global behavior.

AXIOM

断断续续

Introduction,metry breaking. The heavy-fermion superconductor . exhibits the so-called “hidden-order” phase transition at ., whose order parameter remains to be clarified despite the past quarter-century study. Here, through the precise magnetic torque measurement, we show that an in-plane magnetic anisotropy wi

EXALT

Heavy-Fermion Superconductor , ,odynamic and transport properties. However, the microscopic view of the transition has never been elucidated by any experimental probes such as neutron diffraction or resonant x-ray scattering, and thus the term “hidden-order” phase is adapted for an ordered state below .. The latter transition is a

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轻率看法

Lower Critical Field Study on the Superconducting Phase,oexist with magnetic orders, the superconductivity in . cannot coexist with the antifferomagnetic order but it coexists with the so-called “hidden-orders” state (. K) whose order parameter is still unknown. The clarification of the superconducting state of . therefore should provide important inform

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荣幸

异端邪说2

are infected. Furthermore, nodes recover from infections with given probabilities, only to be reinfected later. An incident from 2007, where the same worm repeatedly infected the internal networks of a Norwegian bank, illustrates how reinfections can occur in real networks.