Zhen-Jia Cheng

TL;DR: A time-resolved holographic polarization microscopy, based on angular multiplexing holographic technique, is proposed for imaging ultrafast phenomena in polarization-sensitive transparent materials, which can retrieve and image the complex amplitude distributions of two orthogonal polarization components of two sequential vector wavefronts with ultrashort time interval.

TL;DR: Using this double-channel angular-multiplexing polarization holographic imaging system, the complex amplitude distributions of two orthogonal polarized components from an object can be recorded and reconstructed by one single-shot DC-AM-PH at the same time.

TL;DR: In this paper, an experimental system for measuring the complex vector transmission matrix (VTM) of an anisotropic multiple-scattering medium (AMSM) is proposed, where a simple vector spatial modulator unit composed of a conventional transmittance spatial light modulator and a small-angle birefringent beam splitter is introduced to realize programmable and quantitative control of both the amplitudes and phases of two orthogonal polarization components of the input vector beam point by point.

TL;DR: A compact system for single-shot sequential holographic imaging (SSSHI) with high temporal resolution and a large field of view is proposed, and a SSSHI of dynamical air plasmas induced by a femtosecond pulse laser is successfully realized.

TL;DR: Because no coupling element and half-wave plate are to be placed between the CGH and the BBS, the extinction ratios of both the two orthogonal polarization components for the vector beam can be better than 10(-5) and so high-quality vector beams can be generated.