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Magnetic Brightening of Carbon Nanotube Photoluminescence through Symmetry Breaking

Often a modification of microscopic symmetry in a system can result in a dramatic change in its macroscopic properties. Here we report that symmetry breaking by a tube-threading magnetic field can drastically increase the photoluminescence quantum yield of semiconducting single-walled carbon nanotubes, by as much as a factor of six, at low temperatures. To explain this striking connection between seemingly unrelated properties, we have developed a comprehensive theoretical model based on magnetic-field-dependent one-dimensional exciton band structure and the interplay of strong Coulomb interactions and the Aharonov-Bohm effect. This conclusively explains our data as the first experimental observation of dark excitons 5-10 meV below the bright excitons in single-walled carbon nanotubes. We predict that this quantum yield increase can be made much larger in disorder-free samples.

preprint2007arXivOpen access
J. ShaverJ. KonoO. PortugallV. KrsticG. L. J. A. RikkenY. MiyauchiS. MaruyamaV. Perebeinos
cond-mat.mes-hallcond-mat.mtrl-sci
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Open access8 authors2 topics
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J. ShaverJ. KonoO. PortugallV. KrsticG. L. J. A. RikkenY. MiyauchiS. MaruyamaV. Perebeinos

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