Compact novel circular shaped fractal quad-port MIMO antenna loaded with DGS and stub for 6G, WiMax and weather monitoring

The demand for compact, efficient, and versatile antennas has surged in tandem with the rapid evolution of wireless communication technologies. In response, this paper presents a pioneering Quadport-based fractal compact MIMO antenna designed to meet the stringent requirements of modern communication systems. The antenna incorporates a circular-shaped fractal radiating element and a stub-loaded ground region with a Partial ground, resulting in a significant enhancement of isolation performance. Through iterative optimisation, involving the integration of Partial ground, loading stubs, and fractals into the patch area, the antenna achieves optimal dimensions of 0.66λ × 0.83λ while operating across five distinct frequency bands, thereby catering to a wide range of multiband applications. Remarkable performance metrics are demonstrated, including peak isolation of 35 dB and minimum return loss of − 25.80 dB, alongside a peak electric field of 5.51 × 10 V/m. The polarization response for various resonating frequencies is meticulously analysed. The diverse parameters such as Total Active Reflection Coefficient < − 10, Mean Effective Gain around 0, Diversity Gain is around 10, Channel Capacity Loss < 0.2, and Envelope Correlation Coefficient < 0.1 are achieved. Utilising FR4 material for design enables mass production feasibility, further enhancing the antenna's practicality. Comparative analysis against existing literature underscores its superiority, positioning it as an ideal candidate for applications in 6G networks, WiMax, and weather monitoring. Overall, this Quadport-based fractal compact MIMO antenna represents a significant advancement in antenna offering a compelling blend of compactness, multiband capability, and exceptional performance metrics essential for the next generation of communication applications.