Identifying diverging-effective mass in MOSFET and 3He systems

Abstract

Emerging devices such as a neuromorphic device and a qubit can use the Mott transition phenomenon, but in particular, the diverging mechanism of the phenomenon remains to be clarified. The diverging-effective mass near Mott insulators was measured in strongly correlated Mott systems such as a fermion 3He and a Si metal-oxide-semiconductor-field-effect transistor, and is closely fitted by the effective mass obtained by the extension of the Brinkman-Rice(BR) picture, m*/m=1/[1-(U/Uc)2]=1/(1-2BR4) when 2BR≈1(≠1), where 0<U/Uc=BR2<1, correlation strength is BR, band-filling is . Its identification is a percolation of a constant mass in the Brinkman-Rice picture. Over BR≈0.96 is evaluated.

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