Deep-Subwavelength Direction-Of-Arrival Detection with Enhanced Sensitivity Using Temporal Modulation

Electromagnetic wave interaction with time-varying systems has gained a lot of research interest in recent years. The temporal modulation gives unprecedented control over the response, allowing us to go beyond the state of the art in passive systems. In this work, we use time variation and show it can enhance the direction-of-arrival sensitivity of a deeply subwavelength dimer, using the added to degrees of freedom. We formulate the problem, derive an analytical model, and discuss the various physical mechanisms responsible for the enhancement. We show that time modulation enables an alternative degree of control that can be used to optimize the response for various incident frequencies, allowing for wideband operation. Additionally, we show that incorporating the currents from higher generated harmonics into the sensing scheme allows us to extract more accurate information about the impinging wave.