Optical Q Factor at Lindsay Johnson blog

Optical Q Factor. In summary, we have demonstrated an integrated resonator with a record optical q factor. The q factor of an optical resonator equals the finesse. The finesse is related to the q factor: Essentially, while the finesse relates the resonance bandwidth to the free spectral range, the q factor relates it to the average optical frequency. The latter is the finesse times the resonance frequency divided by the free spectral range. This page describes how to calculate the quality factor (q) of resonance peaks in a resonant cavity. The q factor equals 2 π times the number of oscillation periods required for the stored energy to decay to 1 / e (≈ 37%) of its initial value. The design of high quality factor (q) optical cavities in two dimensional photonic crystal (pc) slab waveguides based upon a momentum space picture is presented. There are two classes of cavities for q factor calculations, low q cavities and high q.

Essentially, while the finesse relates the resonance bandwidth to the free spectral range, the q factor relates it to the average optical frequency. The q factor of an optical resonator equals the finesse. The latter is the finesse times the resonance frequency divided by the free spectral range. The q factor equals 2 π times the number of oscillation periods required for the stored energy to decay to 1 / e (≈ 37%) of its initial value. There are two classes of cavities for q factor calculations, low q cavities and high q. In summary, we have demonstrated an integrated resonator with a record optical q factor. The design of high quality factor (q) optical cavities in two dimensional photonic crystal (pc) slab waveguides based upon a momentum space picture is presented. The finesse is related to the q factor: This page describes how to calculate the quality factor (q) of resonance peaks in a resonant cavity.

Qfactor as a function of the angle for jc j = 05. The lines are

Optical Q Factor Essentially, while the finesse relates the resonance bandwidth to the free spectral range, the q factor relates it to the average optical frequency. In summary, we have demonstrated an integrated resonator with a record optical q factor. Essentially, while the finesse relates the resonance bandwidth to the free spectral range, the q factor relates it to the average optical frequency. The q factor equals 2 π times the number of oscillation periods required for the stored energy to decay to 1 / e (≈ 37%) of its initial value. The finesse is related to the q factor: The q factor of an optical resonator equals the finesse. The latter is the finesse times the resonance frequency divided by the free spectral range. The design of high quality factor (q) optical cavities in two dimensional photonic crystal (pc) slab waveguides based upon a momentum space picture is presented. There are two classes of cavities for q factor calculations, low q cavities and high q. This page describes how to calculate the quality factor (q) of resonance peaks in a resonant cavity.