What question did this study set out to answer?

To design a resonator that efficiently excites optically detected magnetic resonance in a diamond hosting nitrogen-vacancy centers.

March 15, 2026

Design of a coplanar iOmega;/i-resonator for excitation of optically detected magnetic resonance

Key Points

To design a resonator that efficiently excites optically detected magnetic resonance in a diamond hosting nitrogen-vacancy centers.
Developed a two-port resonator with an Ω-shaped coplanar coil
Conducted finite-element method simulations to calculate S-parameters
Measured S-parameters using a vector network analyzer after fabrication
Achieved a minimum reflection coefficient of approximately −24.85 dB at 2.87 GHz
Loaded quality factor was around 44.2
Obtained a -3 dB bandwidth of about 66 MHz

Abstract

We present a miniature two-port resonator with an Ω-shaped coplanar coil designed to excite optically detected magnetic resonance at 2.87 GHz in a diamond sample hosting nitrogen-vacancy (NV-centers). The resonator architecture was chosen because its fabrication does not require patterning planar structures on the diamond. The dimensions were calculated, and electromagnetic simulations using the finite-element method were performed to obtain the S-parameters both without and with the diamond included. After fabrication, the S-parameters were measured with a vector network analyzer. For the resonator with the diamond mounted on it, at 2.87 GHz we obtained a minimum reflection coefficient |S11| approx; −24.85 dB, a loaded quality factor QH approx; 44.2, and a −3 dB bandwidth of about 66 MHz.

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Cite This Study

Guseva et al. (Wed,) studied this question.

synapsesocial.com/papers/69b6068883145bc643d1c6c6 https://doi.org/https://doi.org/10.7868/s3034590125120017

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