Physical bounds on the antenna scattering matrix

Mats Gustafsson; Christian Sohl; Sven Nordebo

Physical bounds on the antenna scattering matrix

Mats Gustafsson, Christian Sohl, Sven Nordebo

Institutionen för elektro- och informationsteknik

Forskningsoutput: Konferensbidrag › Konferenspaper, ej i proceeding/ej förlagsutgivet › Peer review

Sammanfattning

The antenna scattering matrix is based on a spherical vector wave expansion and contains a complete description of the matching, transmission, receiving, and scattering properties of an antenna. It is commonly utilized in near-field measurements and it can also be used to model MIMO antennas. Here, an approach based on the holomorphic properties of the antenna scattering matrix is used to derive physical bounds on the bandwidth of lossless antennas. The resulting bounds are expressed in the radius of the smallest circumscribing sphere and the polarizability dyadics of the antenna. The derivation and final results resemble both the classical work by Chu (1948) and a recently developed theory based on the forward scattering. However, instead of estimating the Q-factor through the stored energy, the low-frequency expansion of the scattering matrix is used to obtain a set of summation rules from which bounds on the bandwidth are derived. The use of Cauchy integrals and the low-frequency expansion in terms of the polarizability dyadics are similar with the approach in (Chu, 1948 and Gustafsson et al., 2007).

Originalspråk	engelska
Sidor	4246-4249
Status	Published - 2008
Evenemang	IEEE Antennas-and-Propagation-Society International Symposium, 2008 - San Diego, CA, San Diego, CA, USA Varaktighet: 2008 juli 5 → 2008 juli 11

Konferens

Konferens	IEEE Antennas-and-Propagation-Society International Symposium, 2008
Land/Territorium	USA
Ort	San Diego, CA
Period	2008/07/05 → 2008/07/11

Ämnesklassifikation (UKÄ)

Elektroteknik och elektronik

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http://ieeexplore.ieee.org/search/srchabstract.jsp?arnumber=4619981&isnumber=4618896&punumber=4604650&k2dockey=4619981@ieeecnfs&query=(sohl+%3Cin%3E+metadata)+%3Cand%3E+(4618896+%3Cin%3E+isnumber)&pos=3&access=no

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Gustafsson, M., Sohl, C., & Nordebo, S. (2008). Physical bounds on the antenna scattering matrix. 4246-4249. Artikel presenterad vid IEEE Antennas-and-Propagation-Society International Symposium, 2008, San Diego, CA, USA. http://ieeexplore.ieee.org/search/srchabstract.jsp?arnumber=4619981&isnumber=4618896&punumber=4604650&k2dockey=4619981@ieeecnfs&query=(sohl+%3Cin%3E+metadata)+%3Cand%3E+(4618896+%3Cin%3E+isnumber)&pos=3&access=no

@conference{145658c51b8c40b7afb816b086c0097b,

title = "Physical bounds on the antenna scattering matrix",

abstract = "The antenna scattering matrix is based on a spherical vector wave expansion and contains a complete description of the matching, transmission, receiving, and scattering properties of an antenna. It is commonly utilized in near-field measurements and it can also be used to model MIMO antennas. Here, an approach based on the holomorphic properties of the antenna scattering matrix is used to derive physical bounds on the bandwidth of lossless antennas. The resulting bounds are expressed in the radius of the smallest circumscribing sphere and the polarizability dyadics of the antenna. The derivation and final results resemble both the classical work by Chu (1948) and a recently developed theory based on the forward scattering. However, instead of estimating the Q-factor through the stored energy, the low-frequency expansion of the scattering matrix is used to obtain a set of summation rules from which bounds on the bandwidth are derived. The use of Cauchy integrals and the low-frequency expansion in terms of the polarizability dyadics are similar with the approach in (Chu, 1948 and Gustafsson et al., 2007).",

keywords = "sum rule, spherical vector wave, Physical bounds, MIMO",

author = "Mats Gustafsson and Christian Sohl and Sven Nordebo",

year = "2008",

language = "English",

pages = "4246--4249",

note = "IEEE Antennas-and-Propagation-Society International Symposium, 2008 ; Conference date: 05-07-2008 Through 11-07-2008",

}

Gustafsson, M, Sohl, C & Nordebo, S 2008, 'Physical bounds on the antenna scattering matrix', Artikel presenterad vid IEEE Antennas-and-Propagation-Society International Symposium, 2008, San Diego, CA, USA, 2008/07/05 - 2008/07/11 s. 4246-4249. <http://ieeexplore.ieee.org/search/srchabstract.jsp?arnumber=4619981&isnumber=4618896&punumber=4604650&k2dockey=4619981@ieeecnfs&query=(sohl+%3Cin%3E+metadata)+%3Cand%3E+(4618896+%3Cin%3E+isnumber)&pos=3&access=no>

TY - CONF

T1 - Physical bounds on the antenna scattering matrix

AU - Gustafsson, Mats

AU - Sohl, Christian

AU - Nordebo, Sven

PY - 2008

Y1 - 2008

N2 - The antenna scattering matrix is based on a spherical vector wave expansion and contains a complete description of the matching, transmission, receiving, and scattering properties of an antenna. It is commonly utilized in near-field measurements and it can also be used to model MIMO antennas. Here, an approach based on the holomorphic properties of the antenna scattering matrix is used to derive physical bounds on the bandwidth of lossless antennas. The resulting bounds are expressed in the radius of the smallest circumscribing sphere and the polarizability dyadics of the antenna. The derivation and final results resemble both the classical work by Chu (1948) and a recently developed theory based on the forward scattering. However, instead of estimating the Q-factor through the stored energy, the low-frequency expansion of the scattering matrix is used to obtain a set of summation rules from which bounds on the bandwidth are derived. The use of Cauchy integrals and the low-frequency expansion in terms of the polarizability dyadics are similar with the approach in (Chu, 1948 and Gustafsson et al., 2007).

AB - The antenna scattering matrix is based on a spherical vector wave expansion and contains a complete description of the matching, transmission, receiving, and scattering properties of an antenna. It is commonly utilized in near-field measurements and it can also be used to model MIMO antennas. Here, an approach based on the holomorphic properties of the antenna scattering matrix is used to derive physical bounds on the bandwidth of lossless antennas. The resulting bounds are expressed in the radius of the smallest circumscribing sphere and the polarizability dyadics of the antenna. The derivation and final results resemble both the classical work by Chu (1948) and a recently developed theory based on the forward scattering. However, instead of estimating the Q-factor through the stored energy, the low-frequency expansion of the scattering matrix is used to obtain a set of summation rules from which bounds on the bandwidth are derived. The use of Cauchy integrals and the low-frequency expansion in terms of the polarizability dyadics are similar with the approach in (Chu, 1948 and Gustafsson et al., 2007).

KW - sum rule

KW - spherical vector wave

KW - Physical bounds

KW - MIMO

M3 - Paper, not in proceeding

SP - 4246

EP - 4249

T2 - IEEE Antennas-and-Propagation-Society International Symposium, 2008

Y2 - 5 July 2008 through 11 July 2008

ER -

Physical bounds on the antenna scattering matrix

Sammanfattning

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