2012
DOI: 10.1142/s0129055x12500225
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A Rigorous Approach to the Magnetic Response in Disordered Systems

Abstract: This paper is a part of an ongoing study on the diamagnetic behavior of a 3-dimensional quantum gas of non-interacting charged particles subjected to an external uniform magnetic field together with a random electric potential. We prove the existence of an almost-sure non-random thermodynamic limit for the grand-canonical pressure, magnetization and zero-field orbital magnetic susceptibility. We also give an explicit formulation of these thermodynamic limits. Our results cover a wide class of physically releva… Show more

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Cited by 7 publications
(19 citation statements)
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“…The regularity properties announced in (ii)-(iii) of Lemma 1.1 are far from being optimum. On the one hand, one can prove that z → P (β, z, b) can be analytically extended to [3,4,7]. On the other hand, the use of the gauge invariant magnetic perturbation theory to prove (iii) allows us actually to get that b → P (β, z, b) is a C ∞ -function.…”
Section: )mentioning
confidence: 99%
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“…The regularity properties announced in (ii)-(iii) of Lemma 1.1 are far from being optimum. On the one hand, one can prove that z → P (β, z, b) can be analytically extended to [3,4,7]. On the other hand, the use of the gauge invariant magnetic perturbation theory to prove (iii) allows us actually to get that b → P (β, z, b) is a C ∞ -function.…”
Section: )mentioning
confidence: 99%
“…Owing to this splitting of Λ N , we expect only the contribution to Tr(R N,b (ξ)) coming from the core regioñ Λ N to give rise to the limit in (2.6). With this aim in view, the geometric perturbation method consists in approximating the resolvent R N,b (ξ) with the operator U N,b (ξ) defined by: 7) where χΛ N and χΛ N are the characteristic functions ofΛ N andΛ N respectively. Afterwards, it remains to control the behavior when N → ∞ of the trace of the r.h.s.…”
Section: The Content Of the Papermentioning
confidence: 99%
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“…Under this approximation, we suppose that the distance R > 0 between two consecutive ions is sufficiently large so that the Fermi gas 'feels' mainly the potential energy generated by one single nucleus. To investigate the atomic orbital magnetism, our starting-point is the expression derived in [12,Thm. 1.2] for the bulk zero-field orbital susceptibility of the Fermi gas valid for any 'temperature' β > 0 and R > 0.…”
Section: What Are the Motivations Of This Paper?mentioning
confidence: 99%
“…The starting-point is the expression (3.9) for the bulk zero-field orbital susceptibility (under the grand-canonical conditions) which holds for any β > 0 and R > 0. The derivation of such an expression is the main subject of [12]. Its proof relies on the gauge invariant magnetic perturbation theory applied on the magnetic resolvent operator.…”
Section: Outline Of the Proof Of Theorem 11mentioning
confidence: 99%