Similarity renormalization group evolution of chiral effective nucleon-nucleon potentials in the subtracted kernel method approach

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Data de publicação
2011
Periódico
Annals of Physics
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17
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Szpigel S.
Timoteo V.S.
Duraes F.D.O.
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Methods based on Wilson's renormalization group have been successfully applied in the context of nuclear physics to analyze the scale dependence of effective nucleon-nucleon (NN) potentials, as well as to consistently integrate out the high-momentum components of phenomenological high-precision NN potentials in order to derive phase-shift equivalent softer forms, the so called Vlow-k potentials. An alternative renormalization group approach that has been applied in this context is the similarity renormalization group (SRG), which is based on a series of continuous unitary transformations that evolve hamiltonians with a cutoff on energy differences. In this work we study the SRG evolution of a leading order (LO) chiral effective NN potential in the 1S0 channel derived within the framework of the subtracted kernel method (SKM), a renormalization scheme based on a subtracted scattering equation. © 2010 Elsevier Inc.
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