Photonic Temporal Illusion

TL;DR

This paper introduces the concept of temporal illusion, a dynamic framework that enables the synthesis of arbitrary optical responses by modulating material parameters over time, expanding control over light beyond natural materials.

Contribution

The authors propose and theoretically demonstrate a method to replicate exotic material behaviors through temporal modulation of dielectric permittivity, enabling new optical functionalities.

Findings

Temporal modulation replicates responses of exotic materials.

Control over transient responses like lowering resonator time constants.

Additional functionalities achieved through modulation-excitation detuning.

Abstract

Materials with unusual optical properties are central to advanced control of light. Yet, in nature, such materials may be exceedingly rare and often difficult to obtain. To overcome this limitation, here we introduce the concept of temporal illusion: A temporally dynamic framework in which carefully programmed temporal variations in effective parameters generate responses akin to those of, in principle, any arbitrary time-invariant structure. We theoretically demonstrate that proper modulation of the permittivity of a conventional dielectric in space and time replicates the optical behavior associated with exotic materials. Besides, we reveal that, beyond steady-state effects, temporal illusion also enables control over transient responses, for instance, by effectively lowering the time constant of high-quality-factor resonators, therefore, allowing faster energy accumulation. Moreover, by incorporating detuning between modulation and excitation, we show that the framework unlocks additional functionalities. The temporal illusion paradigm thus broadens the capabilities of space-time varying systems, offering a powerful route to synthesize material responses on demand and paving the way for new theoretical and experimental directions in optics and wave physics.