Analytical and Numerical Treatment of the Mott--Hubbard Insulator in Infinite Dimensions

CA; Eva Kalinowski; Florian Gebhard; Germany); La Jolla; Michael P. Eastwood (Univ. of California; Philipps-Univ. Marburg; Reinhard M. Noack (Inst. f. Theoretische Physik III; Satoshi Nishimoto (Fachbereich Physik; Univ. Stuttgart

arxiv: cond-mat/0303085 · v2 · submitted 2003-03-05 · ❄️ cond-mat.str-el

Analytical and Numerical Treatment of the Mott--Hubbard Insulator in Infinite Dimensions

Michael P. Eastwood (Univ. of California , La Jolla , CA , USA) , Florian Gebhard , Eva Kalinowski , Satoshi Nishimoto (Fachbereich Physik , Philipps-Univ. Marburg

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Germany) Reinhard M. Noack (Inst. f. Theoretische Physik III Univ. Stuttgart

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classification ❄️ cond-mat.str-el

keywords analyticalnumericaldensityinfiniteinsulatormott--hubbardresultsstates

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We calculate the density of states in the half-filled Hubbard model on a Bethe lattice with infinite connectivity. Based on our analytical results to second order in $t/U$, we propose a new `Fixed-Energy Exact Diagonalization' scheme for the numerical study of the Dynamical Mean-Field Theory. Corroborated by results from the Random Dispersion Approximation, we find that the gap opens at $U_{\rm c}=4.43 \pm 0.05$. Moreover, the density of states near the gap increases algebraically as a function of frequency with an exponent $\alpha=1/2$ in the insulating phase. We critically examine other analytical and numerical approaches and specify their merits and limitations when applied to the Mott--Hubbard insulator.

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Analytical and Numerical Treatment of the Mott--Hubbard Insulator in Infinite Dimensions

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