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Advances in Radio Science

Volumn 6, Issue , 2008, Pages 209-211

Investigation of carbon nanotube antennas using thin wire integral equations

(3) Fichtner, N a Zhou, X a Russer, P a

a TECHNICAL UNIVERSITY OF MUNICH (Germany)

Author keywords

[No Author keywords available]

Indexed keywords

ANTENNAS; DIPOLE ANTENNAS; ELECTRIC CURRENT DISTRIBUTION MEASUREMENT; ELECTRIC IMPEDANCE; INTEGRAL EQUATIONS; NANOANTENNAS; NANOTUBES; YARN;

ANTENNA CHARACTERISTICS; ANTENNA EFFICIENCY; CARBON NANOTUBE ANTENNA; CURRENT DISTRIBUTION; DRIVING POINT IMPEDANCES; NUMERICAL SOLUTION; STRONG DEPENDENCES; SURFACE IMPEDANCE MODELS;

CARBON NANOTUBES;

EID: 67749120842 PISSN: 16849965 EISSN: 16849973 Source Type: Journal
DOI: 10.5194/ars-6-209-2008 Document Type: Article

Times cited : (22)

References (9)

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2
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3
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- Fichtner, N.¹ Russer, P.²

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- Fikioris, G.¹ Wu, T.²

5
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- Fundamental Transmitting Properties of Carbon Nanotube Antennas
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- Hanson, G.¹

6
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8
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- Electrodynamics of carbon nanotubes: Dynamic conductivity, impedance boundary conditions, and surface wave propagation
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9
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- Yordanov, H., Ivrlac, M. T., Mezghani, A., Nossek, J., and Russer, P.: Computation of the Impulse Response and Coding Gain of a Digital Interconnection Bus, in: Proceedings of the 23rd Annual Review of Progress in Applied Computational Electromagnetics ACES, Niagara Falls, Canada, accepted, 2008.
- Yordanov, H., Ivrlac, M. T., Mezghani, A., Nossek, J., and Russer, P.: Computation of the Impulse Response and Coding Gain of a Digital Interconnection Bus, in: Proceedings of the 23rd Annual Review of Progress in Applied Computational Electromagnetics ACES, Niagara Falls, Canada, accepted, 2008.

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