2013
DOI: 10.1016/j.nuclphysb.2012.11.013
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Towards the ground state of the supermembrane

Abstract: The explicit, near the origin, form of the ground state of the SU(2) supermembrane matrix model is studied. We evaluate the 2nd order terms of the Taylor expansion of the wave-function, which together with the 0th and the 1st order terms can be used to determine other terms by recurrence equations coming from the Schrödinger equation.

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Cited by 8 publications
(7 citation statements)
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“…Let us verify the condition (K) for the supersymmetric charges. Assume that (11) Q α ψ = 0 and Q † α ψ = 0 in Ω for ψ ∈ H 2 (Ω) ∩ H 1 0 (Ω). We wish to prove that ψ = 0 in Ω. Regularity at the boundary (Lemma 5), allows us to extend the restriction on ∂ψ ∂ρ ′ arising from (11) smoothly to the boundary.…”
Section: The Ground State Of the D = 11 Supermembranementioning
confidence: 99%
See 1 more Smart Citation
“…Let us verify the condition (K) for the supersymmetric charges. Assume that (11) Q α ψ = 0 and Q † α ψ = 0 in Ω for ψ ∈ H 2 (Ω) ∩ H 1 0 (Ω). We wish to prove that ψ = 0 in Ω. Regularity at the boundary (Lemma 5), allows us to extend the restriction on ∂ψ ∂ρ ′ arising from (11) smoothly to the boundary.…”
Section: The Ground State Of the D = 11 Supermembranementioning
confidence: 99%
“…Assume that (11) Q α ψ = 0 and Q † α ψ = 0 in Ω for ψ ∈ H 2 (Ω) ∩ H 1 0 (Ω). We wish to prove that ψ = 0 in Ω. Regularity at the boundary (Lemma 5), allows us to extend the restriction on ∂ψ ∂ρ ′ arising from (11) smoothly to the boundary. The conditions Q α ψ| ∂Ω = 0 and Q † α ψ| ∂Ω = 0 for the SU(N) regularized supermembrane found in [8], now evaluated on the boundary where ψ = 0, are…”
Section: The Ground State Of the D = 11 Supermembranementioning
confidence: 99%
“…For an (incomplete) list of contributions towards its solution, mainly in asymptotic regimes, c.f. [16,15,13,19,17,18,12].…”
Section: Introductionmentioning
confidence: 99%
“…One of these started with [1]. Although the problem remains open several interesting contributions to it have been obtained [1,[20][21][22][23][24][25]. We follow this perspective and prove, for a well-defined region around the valleys of the potential extended to infinity, the existence and uniqueness of the nontrivial state annihilating the Hamiltonian.…”
Section: Introductionmentioning
confidence: 99%