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Article Dans Une Revue The European Physical Journal B: Condensed Matter and Complex Systems Année : 2009

Ground state energy of N Frenkel excitons

Résumé

By using the composite many-body theory for Frenkel excitons we have recently developed, we here derive the ground state energy of N Frenkel excitons in the Born approximation through the Hamiltonian mean value in a state made of N identical Q = 0 excitons. While this quantity reads as a density expansion in the case of Wannier excitons, due to many-body effects induced by fermion exchanges between N composite particles, we show that the Hamiltonian mean value for N Frenkel excitons only contains a first order term in density, just as for elementary bosons. Such a simple result comes from a subtle balance, difficult to guess a priori, between fermion exchanges for two or more Frenkel excitons appearing in Coulomb term and the ones appearing in the N exciton normalization factor - the cancellation being exact within terms in 1/N(s) where N(s) is the number of atomic sites in the sample. This result could make us naively believe that, due to the tight binding approximation on which Frenkel excitons are based, these excitons are just bare elementary bosons while their composite nature definitely appears at various stages in the precise calculation of the Hamiltonian mean value.

Dates et versions

hal-01229243 , version 1 (16-11-2015)

Identifiants

Citer

W. Pogosov, Monique Combescot. Ground state energy of N Frenkel excitons. The European Physical Journal B: Condensed Matter and Complex Systems, 2009, 68 (2), pp.183-192. ⟨10.1140/epjb/e2009-00087-5⟩. ⟨hal-01229243⟩
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