Cascaded parametric amplification for highly efficient terahertz generation

Koustuban Ravi; Michael Hemmer; Giovanni Cirmi; Fabian Reichert; Damian N. Schimpf; Oliver D. Mücke; Franz X. Kärtner

doi:10.1364/OL.41.003806

Optics Letters
Vol. 41,
Issue 16,
pp. 3806-3809
(2016)
•https://doi.org/10.1364/OL.41.003806

Cascaded parametric amplification for highly efficient terahertz generation

Koustuban Ravi, Michael Hemmer, Giovanni Cirmi, Fabian Reichert, Damian N. Schimpf, Oliver D. Mücke, and Franz X. Kärtner

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Koustuban Ravi, Michael Hemmer, Giovanni Cirmi, Fabian Reichert, Damian N. Schimpf, Oliver D. Mücke, and Franz X. Kärtner, "Cascaded parametric amplification for highly efficient terahertz generation," Opt. Lett. 41, 3806-3809 (2016)

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Abstract

A highly efficient, practical approach to high-energy multi-cycle terahertz (THz) generation based on spectrally cascaded optical parametric amplification (THz-COPA) is introduced. Feasible designs are presented that enable the THz wave, initially generated by difference frequency generation between a narrowband optical pump and optical seed (0.1–10% of pump energy), to self-start a cascaded (or repeated) energy downconversion of pump photons in a single pass through a single crystal. In cryogenically cooled, periodically poled lithium niobate, unprecedented energy conversion efficiencies $> 8 %$ achievable with existing pump laser technology are predicted using realistic simulations. The calculations account for cascading effects, absorption, dispersion, and laser-induced damage. Due to the simultaneous, coupled nonlinear evolution of multiple phase-matched three-wave mixing processes, THz-COPA exhibits physics distinctly different from conventional three-wave mixing parametric amplifiers. This, in turn, governs optimal phase-matching conditions, evolution of optical spectra, and limitations of the nonlinear process. Circumventing these limitations is shown to yield conversion efficiencies $≫ 10 %$ .

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