Waveguide mode imaging and dispersion analysis with terahertz near-field microscopy

Oleg Mitrofanov; Thomas Tan; Paul R. Mark; Bradley Bowden; James A. Harrington

doi:10.1063/1.3126053

Waveguide mode imaging and dispersion analysis with terahertz near-field microscopy

Oleg Mitrofanov, Thomas Tan, Paul R. Mark, Bradley Bowden, James A. Harrington

School of Engineering, Materials Science & Engineering

Research output: Contribution to journal › Article › peer-review

57 Scopus citations

Abstract

Propagation of terahertz waves in hollow metallic waveguides depends on the waveguide mode. Near-field scanning probe terahertz microscopy is applied to identify the mode structure and composition in dielectric-lined hollow metallic waveguides. Spatial profiles, relative amplitudes, and group velocities of three main waveguide modes are experimentally measured and matched to the HE11, HE12, and TE11 modes. The combination of near-field microscopy with terahertz time-resolved spectroscopy opens the possibility of waveguide mode characterization in the terahertz band.

Original language	English (US)
Article number	171104
Journal	Applied Physics Letters
Volume	94
Issue number	17
DOIs	https://doi.org/10.1063/1.3126053
State	Published - 2009

All Science Journal Classification (ASJC) codes

Physics and Astronomy (miscellaneous)

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10.1063/1.3126053

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title = "Waveguide mode imaging and dispersion analysis with terahertz near-field microscopy",

abstract = "Propagation of terahertz waves in hollow metallic waveguides depends on the waveguide mode. Near-field scanning probe terahertz microscopy is applied to identify the mode structure and composition in dielectric-lined hollow metallic waveguides. Spatial profiles, relative amplitudes, and group velocities of three main waveguide modes are experimentally measured and matched to the HE11, HE12, and TE11 modes. The combination of near-field microscopy with terahertz time-resolved spectroscopy opens the possibility of waveguide mode characterization in the terahertz band.",

author = "Oleg Mitrofanov and Thomas Tan and Mark, {Paul R.} and Bradley Bowden and Harrington, {James A.}",

year = "2009",

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language = "English (US)",

volume = "94",

journal = "Applied Physics Letters",

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T1 - Waveguide mode imaging and dispersion analysis with terahertz near-field microscopy

AU - Mitrofanov, Oleg

AU - Tan, Thomas

AU - Mark, Paul R.

AU - Bowden, Bradley

AU - Harrington, James A.

PY - 2009

Y1 - 2009

N2 - Propagation of terahertz waves in hollow metallic waveguides depends on the waveguide mode. Near-field scanning probe terahertz microscopy is applied to identify the mode structure and composition in dielectric-lined hollow metallic waveguides. Spatial profiles, relative amplitudes, and group velocities of three main waveguide modes are experimentally measured and matched to the HE11, HE12, and TE11 modes. The combination of near-field microscopy with terahertz time-resolved spectroscopy opens the possibility of waveguide mode characterization in the terahertz band.

AB - Propagation of terahertz waves in hollow metallic waveguides depends on the waveguide mode. Near-field scanning probe terahertz microscopy is applied to identify the mode structure and composition in dielectric-lined hollow metallic waveguides. Spatial profiles, relative amplitudes, and group velocities of three main waveguide modes are experimentally measured and matched to the HE11, HE12, and TE11 modes. The combination of near-field microscopy with terahertz time-resolved spectroscopy opens the possibility of waveguide mode characterization in the terahertz band.

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M1 - 171104

ER -

Waveguide mode imaging and dispersion analysis with terahertz near-field microscopy

Abstract

All Science Journal Classification (ASJC) codes

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