High Field Single- to Few-Cycle THz Generation with Lithium Niobate

The transient terahertz (THz) pulse with high peak field has become an important tool for matter manipulation, enabling many applications such as nonlinear spectroscopy, particle acceleration, and high harmonic generation. Among the widely used THz generation techniques, optical rectification in lithium niobate (LN) has emerged as a powerful method to achieve high fields at low THz frequencies, suitable to exploring novel nonlinear phenomena in condensed matter systems. In this review, we focus on introducing single- to few-cycle THz generation in LN, including the basic principles, techniques, latest developments, and current limitations. We will first discuss the phase matching requirements of LN, which leads to Cherenkov-like radiation, and the tilted pulse front (TPF) technique. Emphasis will be put on the TPF technique, which has been shown to improve THz generation efficiency, but still has many limitations. Different geometries used to produce continuous and discrete TPF will be systematically discussed. We summarize the advantages and limitations of current techniques and future trends.

Automated summary

This review focuses on single- to few-cycle terahertz generation in lithium niobate (LN), including the basic principles, techniques, latest developments, and limitations. Emphasis is placed on the tilted pulse front (TPF) technique, which has been shown to improve THz generation efficiency but still has many limitations. Different geometries used to produce continuous and discrete TPF are systematically discussed, and the advantages and limitations of current techniques as well as future trends are summarized.