PHYSICAL REVIEW B 91, Broken SU(4) symmetry in a Kondo-correlated carbon nanotube Daniel R. Schmid,1 Sergey Smirnov,2 Magdalena Marga´nska,2 Alois Dirnaichner,1,2 Peter L. Stiller,1 Milena Grifoni,2 Andre - Marga - Document - PDFSEARCH.IO - Document Search Engine

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	PHYSICAL REVIEW B 91, Broken SU(4) symmetry in a Kondo-correlated carbon nanotube Daniel R. Schmid,1 Sergey Smirnov,2 Magdalena Marga´nska,2 Alois Dirnaichner,1,2 Peter L. Stiller,1 Milena Grifoni,2 Andre Add to Reading List Document Date: 2015-05-04 12:30:02 Open Document File Size: 1,71 MB Share Result on Facebook City Regensburg / / Country Germany / / / EntertainmentAwardEvent Emmy / / Event Product Issues / / Facility University of Regensburg / / IndustryTerm energy levels / intrinsic low-energy spectrum stems / infinite charging energy / energy scale εd / satellite peaks / broader satellite ridges / self-energy / energy scale / proper low-energy behavior / energy εd / low-energy behavior / energy-degenerate / energy gap / mesoscopic systems / energy range / finite energy / energy eigenstates / energy scales / magnetic-field-dependent inelastic energy / low-energy nonperturbative regime / chemical vapor deposition / energy degenerate states / reference energy / energy difference / characteristic energy scale / energy differences / reference energy εd / energy / / NaturalFeature Coulomb valley / / OperatingSystem Fermi / / Organization University of Regensburg / Institute for Theoretical Physics / American Physical Society / Institute for Experimental / Institute for Experimental and Applied Physics / U.S. Securities and Exchange Commission / / Person Hamiltonian / Daniel R. Schmid / / / Position minimal model / model / / Product CNTs / / Technology semiconductor / quantum dots / hybridization / simulation / chemical vapor deposition / / SocialTag Statistical mechanics Rotational symmetry Renormalization group Kondo effect Magnetic field Carbon nanotube T-symmetry Kondo model Spin Physics