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Longitudinal piezoelectric resonant photoelastic modulator for efficient intensity modulation at megahertz frequencies

Okan Atalar (), Raphaël Laer, Amir H. Safavi-Naeini and Amin Arbabian
Additional contact information
Okan Atalar: Stanford University
Raphaël Laer: Stanford University
Amir H. Safavi-Naeini: Stanford University
Amin Arbabian: Stanford University

Nature Communications, 2022, vol. 13, issue 1, 1-8

Abstract: Abstract Intensity modulators are an essential component in optics for controlling free-space beams. Many applications require the intensity of a free-space beam to be modulated at a single frequency, including wide-field lock-in detection for sensitive measurements, mode-locking in lasers, and phase-shift time-of-flight imaging (LiDAR). Here, we report a new type of single frequency intensity modulator that we refer to as a longitudinal piezoelectric resonant photoelastic modulator. The modulator consists of a thin lithium niobate wafer coated with transparent surface electrodes. One of the fundamental acoustic modes of the modulator is excited through the surface electrodes, confining an acoustic standing wave to the electrode region. The modulator is placed between optical polarizers; light propagating through the modulator and polarizers is intensity modulated with a wide acceptance angle and record breaking modulation efficiency in the megahertz frequency regime. As an illustration of the potential of our approach, we show that the proposed modulator can be integrated with a standard image sensor to effectively convert it into a time-of-flight imaging system.

Date: 2022
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DOI: 10.1038/s41467-022-29204-9

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