This is a comprehensive, critical, and pedagogical review of volumetric emission
tomography for combustion processes. Many flames that are of interest to scientists and …

High-energy burst-mode lasers have enabled the development of kHz–MHz rate, multi-
dimensional diagnostics for characterizing highly dynamic and transient phenomena in …

Online in situ prediction of 3-D flame evolution has been long desired and is considered to
be the Holy Grail for the combustion community. Recent advances in computational power …

Time-resolved volumetric tomography (VT) has been applied extensively for turbulent
flow/combustion diagnostics, due to its great capacity in reconstructing three dimensional …

This work presents a new approach for high-speed four-dimensional (3D+ t) thermometry
using only two high-speed cameras which are equipped with different band pass filters to …

This work demonstrates single-shot, two-dimensional temperature measurements in a
premixed linear detonation channel using two-color OH planar laser-induced fluorescence …

Accurate and detailed data are vital for fundamental understanding of turbulent combustion.
However, studies of turbulent combustion often suffer from measurement sparsity or high …

The present paper reports on the assessment of single-shot 2D temperature measurements
by thermally assisted OH PLIF for the excitation of the A 2 Σ+–X 2 Π (1–0) band. The …

This paper describes the development of a Modular Plenoptic Adaptor (MPA) for rapid and
reversible conversion of high-speed cameras into plenoptic imaging systems, with the …

Three-dimensional swirling flame flow fields are often limited by factors such as system
complexity and operational difficulty, resulting in relatively low achievable spatial resolution …