P.C. Pattnaik, D.M. Newns
Physical Review B
We report that symmetry breaking by a magnetic field can drastically increase the photoluminescence quantum yield of single-walled carbon nanotubes, by as much as a factor of 6, at low temperatures. To explain this we have developed a theoretical model based on field-dependent exciton band structure and the interplay of 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. © 2007 American Chemical Society.
P.C. Pattnaik, D.M. Newns
Physical Review B
I. Morgenstern, K.A. Müller, et al.
Physica B: Physics of Condensed Matter
Frank R. Libsch, Takatoshi Tsujimura
Active Matrix Liquid Crystal Displays Technology and Applications 1997
William Hinsberg, Joy Cheng, et al.
SPIE Advanced Lithography 2010