Litcius/Paper detail

Multi-color complex spatial light modulation with a single digital micromirror device

Hengzhe Yan, Y. Sun, Yiqiao Lin, F. S. Chu, Wenjie Wan

2023Optics Express12 citationsDOIOpen Access PDF

Abstract

Spatial light modulators enabling complex light field manipulation has opened up many opportunities in biomedical imaging, holographic display, and adaptive optics. However, traditional spatial light modulators do not allow multi-color operations simultaneously due to their physical constraints, while multi-color modulations are highly desirable in many applications. To overcome this limitation, we demonstrate a multi-color spatial complex light field modulation with a single binary hologram on digital micromirror devices (DMD). This method combines several neighboring micro-mirror pixels into a giant single superpixel, in which the light field's amplitude and phase can be individually determined by internal pixel combinations, and the dynamic range of phase modulation can exceed 2π for the single wavelength. As a result, this extra phase modulation range offers an additional degree of freedom for independent multi-wavelength light modulation. Based on this scheme, multi-color light modulations have been demonstrated in a 2D plane as well as in multiple 3D holographic planes. Moreover, a dual-colored Airy beam has been realized using the same technique. These results bring complex light modulation into a multi-color regime, paving the way for practical applications in information display, imaging, and optical trapping.

Topics & Concepts

Spatial light modulatorOpticsDigital micromirror deviceHolographic displayHolographyLight fieldModulation (music)Phase modulationDigital holographyPhysicsRGB color modelComputer scienceArtificial intelligencePhase noiseAcousticsOrbital Angular Momentum in OpticsRandom lasers and scattering mediaAdvanced Optical Imaging Technologies
Multi-color complex spatial light modulation with a single digital micromirror device | Litcius