English

Synchronous micromechanically resonant programmable photonic circuits

Optics 2023-11-27 v1

Abstract

Programmable photonic integrated circuits (PICs) are emerging as powerful tools for the precise manipulation of light, with applications in quantum information processing, optical range finding, and artificial intelligence. The leading architecture for programmable PICs is the mesh of Mach-Zehnder interferometers (MZIs) embedded with reconfigurable optical phase shifters. Low-power implementations of these PICs involve micromechanical structures driven capacitively or piezoelectrically but are limited in modulation bandwidth by mechanical resonances and high operating voltages. However, circuits designed to operate exclusively at these mechanical resonances would reduce the necessary driving voltage from resonantly enhanced modulation as well as maintaining high actuation speeds. Here we introduce a synchronous, micromechanically resonant design architecture for programmable PICs, which exploits micromechanical eigenmodes for modulation enhancement. This approach combines high-frequency mechanical resonances and optically broadband phase shifters to increase the modulation response on the order of the mechanical quality factor QmQ_m, thereby reducing the PIC's power consumption, voltage-loss product, and footprint. The architecture is useful for broadly applicable circuits such as optical phased arrays, 11 x NN, and NN x NN photonic switches. We report a proof-of-principle programmable 1 x 8 switch with piezoelectric phase shifters at specifically targeted mechanical eigenfrequencies, showing a full switching cycle of all eight channels spaced by approximately 11 ns and operating at >3x average modulation enhancement across all on-chip modulators. By further leveraging micromechanical devices with high QmQ_m, which can exceed 1 million, our design architecture should enable a new class of low-voltage and high-speed programmable PICs.

Keywords

Cite

@article{arxiv.2306.03895,
  title  = {Synchronous micromechanically resonant programmable photonic circuits},
  author = {Mark Dong and Julia M. Boyle and Kevin J. Palm and Matthew Zimmermann and Alex Witte and Andrew J. Leenheer and Daniel Dominguez and Gerald Gilbert and Matt Eichenfield and Dirk Englund},
  journal= {arXiv preprint arXiv:2306.03895},
  year   = {2023}
}

Comments

18 pages, 5 figures, 5 supplementary figures

R2 v1 2026-06-28T10:58:05.897Z