Digital hologram transformations for RGB color holographic display with independent image magnification and translation in 3D.

Abstract

A new framework for in-plane transformations of digital holograms (DHs) is proposed, which provides improved control over basic geometrical features of holographic images reconstructed optically in full color. The method is based on a Fourier hologram equivalent of the adaptive affine transformation technique [Opt. Express18, 8806 (2010)OPEXFF1094-408710.1364/OE.18.008806]. The solution includes four elementary geometrical transformations that can be performed independently on a full-color 3D image reconstructed from an RGB hologram: (i)transverse magnification; (ii)axial translation with minimized distortion; (iii)transverse translation; and (iv)viewing angle rotation. The independent character of transformations (i) and (ii) constitutes the main result of the work and plays a double role: (1)it simplifies synchronization of color components of the RGB image in the presence of mismatch between capture and display parameters; (2)provides improved control over position and size of the projected image, particularly the axial position, which opens new possibilities for efficient animation of holographic content. The approximate character of the operations (i) and (ii) is examined both analytically and experimentally using an RGB circular holographic display system. Additionally, a complex animation built from a single wide-aperture RGB Fourier hologram is presented to demonstrate full capabilities of the developed toolset.