Design of Wideband Dielectric Near-Field Lens for Medical Applications in Tumor Treatment

Haghshenas-Kashani, Behrooz; Damavandi, Mohammad-Ali; Khalaj‐Amirhosseini, Mohammad

doi:10.37256/est.3220221434

Engineering Science & Technology

2022

DOI: 10.37256/est.3220221434

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Design of Wideband Dielectric Near-Field Lens for Medical Applications in Tumor Treatment

Behrooz Haghshenas-Kashani

Mohammad-Ali Damavandi

Mohammad Khalaj‐Amirhosseini

Abstract: This paper presents a dielectric near-field lens for hyperthermia applications in tumor cell destruction, unlike the previous methods that used microstrip near-field lenses. Dielectric lenses benefit from operating in a wideband frequency range, low profile, and no surface current generated on them. The proposed dielectric lens is divided into 13 symmetric regions and each region comprises exclusive dielectric constants that contribute to microwave energy aggregation in the tumor area. The microwave energy acc… Show more

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2023

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Homogeneous microwave near-field power focusing using a cylindrical antenna array

Damavandi,

Khalaj-Amirhosseini

2023

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This paper presents an investigation of a microwave near-field power focusing (NFPF) analytical approach utilizing a cylindrical array of electric line sources along the z-axis, applicable to any arbitrary homogeneous linear medium. A novel parameter, termed the “focus ability” (FA), is introduced to quantitatively assess a method's capabilities in achieving power focusing. In the following, the phases and amplitudes of the excitation signals of the array elements are obtained with optimization to maximize FA over a certain studied area. Each stage of the theoretical analysis is supported through COMSOL full-wave simulations, ensuring the validity of the results. Theoretical results relevant to focused power are then compared to outcomes obtained from CST full-wave simulations with the same array configuration while employing half-wave dipole antenna elements with excitations obtained via optimization. These comparisons indicate that the excitation signals obtained by theoretical analysis can be used for power focusing when the array of half-wave dipole antenna sources is utilized. Furthermore, the proposed method leads to a significant reduction in the optimization time. Also, in the provided examples, the FA parameter and NFPF are investigated for the different conditions consisting of the type of the homogeneous medium and the number of antennas.

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Homogeneous microwave near-field power focusing using a cylindrical antenna array

Damavandi,

Khalaj-Amirhosseini

2023

Sci Rep

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Design of Wideband Dielectric Near-Field Lens for Medical Applications in Tumor Treatment

Cited by 1 publication

References 14 publications

Homogeneous microwave near-field power focusing using a cylindrical antenna array

Homogeneous microwave near-field power focusing using a cylindrical antenna array

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