TY - JOUR
T1 - Topological transition by dielectric control of exciton wavefunction in thin nanotube structure
AU - Kumagai, Masami
AU - Takagahara, Toshihide
AU - Yakubo, Kousuke
PY - 2011/5
Y1 - 2011/5
N2 - Dielectric control of the topology of an exciton wavefunction is proposed and investigated theoretically. As we have shown in a previous paper, we can change the topology of an exciton wavefunction in a nanotube structure by controlling the length and radius of the nanotube. This nature yields a new device which utilizes the topology of an exciton wavefunction, however, its control via the structural parameters does not suit it to device applications. We found that the in-situ control can be achieved by changing the ambient dielectric constants of the nanotube structure and we calculated the transition condition of the topology of an exciton wavefunction.
AB - Dielectric control of the topology of an exciton wavefunction is proposed and investigated theoretically. As we have shown in a previous paper, we can change the topology of an exciton wavefunction in a nanotube structure by controlling the length and radius of the nanotube. This nature yields a new device which utilizes the topology of an exciton wavefunction, however, its control via the structural parameters does not suit it to device applications. We found that the in-situ control can be achieved by changing the ambient dielectric constants of the nanotube structure and we calculated the transition condition of the topology of an exciton wavefunction.
KW - C. Nanotube
KW - C. Topology
KW - D. Exciton
UR - http://www.scopus.com/inward/record.url?scp=79952992295&partnerID=8YFLogxK
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U2 - 10.1016/j.ssc.2011.02.026
DO - 10.1016/j.ssc.2011.02.026
M3 - Article
AN - SCOPUS:79952992295
SN - 0038-1098
VL - 151
SP - 663
EP - 666
JO - Solid State Communications
JF - Solid State Communications
IS - 9
ER -