Electromagnetic Coupling Mechanism in a Layered Human Tissue Model as Reference for 434 MHz Medical Therapy Applicators

Sergio Curto

doi:10.21427/35s5-mn38

Electromagnetic Coupling Mechanism in a Layered Human Tissue Model as Reference for 434 MHz Medical Therapy Applicators

Sergio Curto

Research output: Contribution to conference › Paper › peer-review

Abstract

In order to minimize exposure to human tissue, electromagnetic interaction with antennas has benefited from a lot of research since hand-held communication transceivers became widely used consumer products. On the other hand, medical applications have been exploiting the ISM (industrial scientific and medical standard) 434 MHz frequency band for therapeutic applications such as hyperthermia. Various antennas have been used in hyperthermia applicators but advanced designs depend on improved knowledge of the radiated antenna modes and interacting influence of human tissue. As a preliminary step towards analyzing antennas interacting with tissues in the near- and far-fields, this study reports on the coupling mechanism of a half-wavelength dipole at 434 MHz. This will provide an experimental method for researching more suitable and efficient antennas for medical applications.

Original language	English
DOIs	https://doi.org/10.21427/35s5-mn38
Publication status	Published - 2007
Externally published	Yes
Event	IEEE International Symposium on Antennas and Propagation - Honolulu, United States Duration: 9 Jun 2007 → 15 Jun 2007

Conference

Conference	IEEE International Symposium on Antennas and Propagation
Country/Territory	United States
City	Honolulu
Period	9/06/07 → 15/06/07

Keywords

electromagnetic interaction
antennas
human tissue
ISM 434 MHz
hyperthermia
medical applications
near-field
far-field
coupling mechanism

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10.21427/35s5-mn38Licence: CC BY-NC-SA

Cite this

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title = "Electromagnetic Coupling Mechanism in a Layered Human Tissue Model as Reference for 434 MHz Medical Therapy Applicators",

abstract = "In order to minimize exposure to human tissue, electromagnetic interaction with antennas has benefited from a lot of research since hand-held communication transceivers became widely used consumer products. On the other hand, medical applications have been exploiting the ISM (industrial scientific and medical standard) 434 MHz frequency band for therapeutic applications such as hyperthermia. Various antennas have been used in hyperthermia applicators but advanced designs depend on improved knowledge of the radiated antenna modes and interacting influence of human tissue. As a preliminary step towards analyzing antennas interacting with tissues in the near- and far-fields, this study reports on the coupling mechanism of a half-wavelength dipole at 434 MHz. This will provide an experimental method for researching more suitable and efficient antennas for medical applications.",

keywords = "electromagnetic interaction, antennas, human tissue, ISM 434 MHz, hyperthermia, medical applications, near-field, far-field, coupling mechanism",

author = "Sergio Curto",

year = "2007",

doi = "10.21427/35s5-mn38",

language = "English",

note = "IEEE International Symposium on Antennas and Propagation ; Conference date: 09-06-2007 Through 15-06-2007",

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T1 - Electromagnetic Coupling Mechanism in a Layered Human Tissue Model as Reference for 434 MHz Medical Therapy Applicators

AU - Curto, Sergio

PY - 2007

Y1 - 2007

N2 - In order to minimize exposure to human tissue, electromagnetic interaction with antennas has benefited from a lot of research since hand-held communication transceivers became widely used consumer products. On the other hand, medical applications have been exploiting the ISM (industrial scientific and medical standard) 434 MHz frequency band for therapeutic applications such as hyperthermia. Various antennas have been used in hyperthermia applicators but advanced designs depend on improved knowledge of the radiated antenna modes and interacting influence of human tissue. As a preliminary step towards analyzing antennas interacting with tissues in the near- and far-fields, this study reports on the coupling mechanism of a half-wavelength dipole at 434 MHz. This will provide an experimental method for researching more suitable and efficient antennas for medical applications.

AB - In order to minimize exposure to human tissue, electromagnetic interaction with antennas has benefited from a lot of research since hand-held communication transceivers became widely used consumer products. On the other hand, medical applications have been exploiting the ISM (industrial scientific and medical standard) 434 MHz frequency band for therapeutic applications such as hyperthermia. Various antennas have been used in hyperthermia applicators but advanced designs depend on improved knowledge of the radiated antenna modes and interacting influence of human tissue. As a preliminary step towards analyzing antennas interacting with tissues in the near- and far-fields, this study reports on the coupling mechanism of a half-wavelength dipole at 434 MHz. This will provide an experimental method for researching more suitable and efficient antennas for medical applications.

KW - electromagnetic interaction

KW - antennas

KW - human tissue

KW - ISM 434 MHz

KW - hyperthermia

KW - medical applications

KW - near-field

KW - far-field

KW - coupling mechanism

U2 - 10.21427/35s5-mn38

DO - 10.21427/35s5-mn38

M3 - Paper

T2 - IEEE International Symposium on Antennas and Propagation

Y2 - 9 June 2007 through 15 June 2007

ER -

Electromagnetic Coupling Mechanism in a Layered Human Tissue Model as Reference for 434 MHz Medical Therapy Applicators

Abstract

Conference

Keywords

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