81 research outputs found
Design of resonant microcavities: application to optical gyroscopes
We study theoretically and numerically the effect of rotation on resonant
frequencies of microcavities in a rotating frame of reference. Cavity rotation
causes the shifts of the resonant frequencies proportional to the rotation rate
if it is larger than a certain value. Below the value, a region of rotation
rate exists where there is no resulting the frequency shifts proportional to
the rotation rate. We show that designing cavity symmetry as () can eliminate this region.Comment: 10 page
Phase-shift extraction from twice-normalized light intensity changes recorded with random phase shifts
A simple phase-shift extraction algorithm is proposed for interferograms recorded with random phase shifts that vary over at least 2Ï€. The phase-shift-dependent changes in the intensity at two pixels having different phases, selected from one frame, are taken out and normalized. The sum and difference of the two normalized changes are calculated, and both the changes are normalized again along the phase shifts. The normalized sum and difference become the cosine and sine of a term including the random phase shift, respectively. Thereby, the phase shifts are extracted from both twice-normalized intensity changes. An experiment using an interference microscope equipped with a piezoelectric-transducer positioner of an objective lens is conducted to estimate the validity of the algorithm. The algorithm is verified to have satisfactory results when the multiple interferograms used have a sample size of more than 15 frames recorded with random phase shifts
- …