Natália C. Carvalho scite author profile

Cylindrical re-entrant cavities are unique three-dimensional structures that resonate with their electric and magnetic fields in separate parts of the cavity. To further understand these devices, we undertake rigorous analysis of the properties of the resonance using "in-house" developed Finite Element Method (FEM) software capable of dealing with small gap structures of extreme aspect ratio. Comparisons between the FEM method and experiments are consistent and we illustrate where predictions using established lumped element models work well and where they are limited. With the aid of the modeling we design a highly tunable cavity that can be tuned from 2 GHz to 22 GHz just by inserting a post into a fixed dimensioned cylindrical cavity. We show this is possible, as the mode structure transforms from a re-entrant mode during the tuning process to a standard cylindrical transverse magnetic mode.

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Quasinormal-Mode Perturbation Theory for Dissipative and Dispersive Optomechanics

Primo

Carvalho

Kersul

et al. 2020

Phys. Rev. Lett.

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Whey protein isolate hydrolysates obtained with free and immobilized Alcalase: Characterization and detection of residual allergens

Pessato

Carvalho

Tavano

et al. 2016

Food Research International

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