Cladding based GaN waveguide engineering for efficient octave-spanning spectra generation and fceo detection
A. Volpini, I. Rousseau, S. Lecomte, D. GrassaniExtending the spectral content of femtosecond lasers to span at least one octave is key for their stabilization through self-referencing. An effective way to achieve this goal is to leverage soliton dynamics and dispersive wave (DW) generation in third-order nonlinear waveguides or fibers. Tuning of the DW position at the second harmonic of the pump is still a challenge, and it results in an excessive power requirement on the input pulse. Here, we show a new tuning mechanism of DW position in GaN waveguides by controlling the thickness of the cladding deposition. We demonstrate efficient octave-spanning supercontinuum generation by controlling the position of the DW and detecting the carrier-envelope offset frequency with only 22 pJ of pulse energy with, respectively, 100 kHz resolution and 100 Hz video bandwidth.