This work studies the design and investigation of a single/dual port hybrid (mixture of silicon graphene) antenna for wireless power transfer. The following are a few crucial characteristics of the suggested radiating structure: (i) Circularly polarized waves in the 4.92–5.38 THz range are produced by using cross shaped slot; (ii) 1*2 array design yields high gain, or 10.0 dBi, within the operating frequency range. Power received is calculated by varying the gain of the antenna, operating frequency and distance is varying, while transmitted power is fixed to 5.0 dBW. It is established that the intended radiator functions between 4.71 and 5.85 THz by comparing the findings of the HFSS and CST. The suitability of the suggested radiator for wireless power transmission in the THz domain is approved by good values for the diversity and far-field characteristics.

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Wireless Power Transfer Analysis of Single/Two Port Aray Hybrid Antenna in THz Regime

  • Kundan Kumar,
  • Pradip Kumar Sadhu

摘要

This work studies the design and investigation of a single/dual port hybrid (mixture of silicon graphene) antenna for wireless power transfer. The following are a few crucial characteristics of the suggested radiating structure: (i) Circularly polarized waves in the 4.92–5.38 THz range are produced by using cross shaped slot; (ii) 1*2 array design yields high gain, or 10.0 dBi, within the operating frequency range. Power received is calculated by varying the gain of the antenna, operating frequency and distance is varying, while transmitted power is fixed to 5.0 dBW. It is established that the intended radiator functions between 4.71 and 5.85 THz by comparing the findings of the HFSS and CST. The suitability of the suggested radiator for wireless power transmission in the THz domain is approved by good values for the diversity and far-field characteristics.