Publications by authors named "J Szabados"
Owing to the discrete frequency spectrum of whispering gallery resonators (WGRs), the resonance and phase-matching conditions for the interacting waves in the case of second-harmonic generation (SHG) cannot generally be fulfilled simultaneously. To account for this, we develop a model describing SHG in WGRs with non-zero frequency detunings at both the pump and second-harmonic frequencies. Our model predicts strong distortions of the line shape of pump and second-harmonic resonances for similar linewidths at both frequencies; for much larger linewidths at the second-harmonic frequency, this behavior is absent.
View Article and Find Full Text PDFOptical frequency combs are revolutionizing modern time and frequency metrology. In the past years, their range of applications has increased substantially, driven by their miniaturization through microresonator-based solutions. The combs in such devices are typically generated using the third-order χ^{(3)} nonlinearity of the resonator material.
View Article and Find Full Text PDFAdiabatic frequency conversion has some key advantages over nonlinear frequency conversion. No threshold and no phase-matching conditions need to be fulfilled. Moreover, it exhibits a conversion efficiency of 100 % down to the single-photon level.
View Article and Find Full Text PDFArticle Synopsis
- Optical frequency combs are essential for precise optical measurements, primarily operating in the near-infrared (NIR) range.
- Many applications require these combs to function at mid-infrared (MIR), visible (VIS), or ultraviolet (UV) wavelengths, which can be done through nonlinear optical processes, but it's tough for high-repetition-rate combs.
- Researchers show that a specific microresonator can efficiently convert high-repetition-rate NIR combs into VIS, UV, and MIR wavelengths, opening up new possibilities in fields like molecular sensing, astronomy, and quantum optics.