Litcius/Paper detail

Agile manipulation of the time-frequency distribution of high-speed electromagnetic waves

Xinyi Zhu, Benjamin Crockett, M. Röwe, Hao Sun, José Azaña

2024Nature Communications11 citationsDOIOpen Access PDF

Abstract

Controlling the temporal evolution of an electromagnetic (EM) wave's frequency components, the so-called time-frequency (TF) distribution, in a versatile and real-time fashion remains very challenging, especially at the high speeds (> GHz regime) required in contemporary communication, imaging, and sensing applications. We propose a general framework for manipulating the TF properties of high-speed EM waves. Specifically, the TF distribution is continuously mapped along the time domain through phase-only processing, enabling its user-defined manipulation via widely-available temporal modulation techniques. The time-mapping operations can then be inverted to reconstruct the TF-processed signal. Using off-the-shelf telecommunication components, we demonstrate arbitrary control of the TF distribution of EM waves over a full bandwidth approaching 100 GHz with nanosecond-scale programmability and MHz-level frequency resolution. We further demonstrate applications for mitigating rapidly changing frequency interference terms and the direct synthesis of fast waveforms with customized TF distributions. The reported method represents a significant advancement in TF processing of EM waves and it fulfills the stringent requirements for many modern and emerging applications.

Topics & Concepts

Electromagnetic radiationComputer scienceAcousticsAgile software developmentPhysicsOpticsSoftware engineeringAdvanced Photonic Communication SystemsAdvanced Fiber Laser TechnologiesOptical Network Technologies