Geetha Chakaravarthi scite author profile

The fabricated cavity-backed applicator is self-resonant at 434 MHz with a negligible shift in resonance when coupled to different phantoms, Δf/f0 less than 1.16%. IR thermography-based SAR measurements indicated that the -3 dB SAR of the cavity-backed aperture antenna covered the radiating aperture surface at 5 mm and 20 mm depths. It can be concluded that the compact cavity-backed patch antenna has stable resonance, higher directivity and low cross polarisation, and is suitable for design of microwave hyperthermia array applicators with adjustable heating pattern for superficial and/or deep tissue heating.

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RFID technology and its diverse applications: A brief exposition with a proposed Machine Learning approach

Suresh

Chakaravarthi

2022

Measurement

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Study of absorption of radio frequency field by gold nanoparticles and nanoclusters in biological medium

Chakaravarthi

Rao

et al. 2020

Electromagnetic Biology and Medicine

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A compact microwave patch applicator for hyperthermia treatment of cancer

Chakaravarthi

Arunachalam

2014

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Design and development of a compact microstrip C-type patch applicator for hyperthermia treatment of cancer is presented. The patch antenna is optimized for resonance at 434 MHz, return loss (S11) better than -15dB and co-polarized electric field in tissue. Effect of water bolus thickness on power delivery is studied for improved power coupling. Numerical simulations for antenna design optimization carried out using EM simulation software, Ansys HFSS(®), USA were experimentally verified. The effective field coverage for the optimized patch antenna and experimental results indicate that the compact antenna resonates at ISM frequency 434 MHz with better than -15 dB power coupling.

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