A Novel Miniaturized Band‐Stop Frequency Selective Surface With Ultra‐Wideband Characteristics.

This paper presents the design of an Ultra‐wide band‐stop Frequency Selective Surface (FSS), the building block of which makes use of a modified Jerusalem cross loop structure. The proposed FSS unit cell has a coupled configuration with a modified Jerusalem cross loop on the top and a square loop on the rear side to operate over an ultra‐wide bandwidth. The proposed FSS design offers band‐stop characteristics over the entire UWB operating bandwidth extending from 2.95 to 12 GHz with a reference transmission loss of 10 dB. The proposed FSS unit cell has a miniaturized profile of 0.05λ˳ × 0.05λ˳ where the λ˳ corresponds to the free space wavelength at the lowest operating frequency. The rotational symmetry of the proposed FSS makes it polarization‐independent under both TE and TM modes of operation. Also, the proposed FSS exhibits a good angular stability response up to 60°. The prototype FSS is fabricated and the simulated results are validated using experimental measurements. Thus, the proposed FSS is a promising candidate for a multitude of applications such as spatial filtering (Bayatpur & Sarabandi, 2010, https://doi.org/10.1109/LMWC.2009.2038517), antenna gain enhancement (Chatterjee & Parui, 2016, https://doi.org/10.1109/TAP.2016.2552543), and electromagnetic shields (Chiu et al., 2008, https://doi.org/10.1109/TEMC.2008.2004560) operating over the UWB spectrum. Key Points: This paper presents the design of an Ultra‐wide band‐stop Frequency Selective Surface (FSS)The proposed FSS design offers band‐stop characteristics over the entire UWB operating bandwidthThe proposed FSS is a promising candidate for a multitude of applications such as spatial filtering, antenna gain enhancement [ABSTRACT FROM AUTHOR]