This study demonstrates that PCI affects the levels of adiponectin and leptin within 48 h. These effects may be secondary to the inflammatory response triggered by PCI.
We consider a whispering gallery mode (WGM) sensor where a dielectric perturber extends into the evanescent tail of the microresonator. The position of the perturber rather than the morphology of the resonator is modified by a change in the measured property, inducing a shift in the WGM. This approach can be used for both three-dimensional (spheres, toroids) and planar (disks, rings) resonator geometries. We demonstrate, through analysis and experiments, the feasibility of this sensor approach for both geometries by using a sphere resonator and an on-chip ring resonator. Experiments show that the motion of the perturber across the evanescent tail on the resonator’s outer surface leads to a measurable shift in the resonator WGM. In the latter experiment, a ferromagnetic structure is attached to the perturber stem so that the system acts as a magnetic field detector. The results show a consistent relationship between the mode shift and the magnetic field strength.
We present the concept of an all-optical seismometer based on the principle of optical whispering gallery modes (WGMs). The proposed sensor is compact, rugged, low power, and resistant to electromagnetic interference. A cantilever configuration of a fiber-pigtailed photonic integrated circuit with a ring resonator is employed as the sensing element. The measurement approach is based on the optical excitation of the WGMs of a ring resonator using a 1313 nm tunable diode laser. A digital signal processing system analyzes the recorded WGM scans. The base acceleration is calculated from the WGM shifts caused by the deformation of the optical ring resonator. A prototype seismometer is developed, calibrated, and tested. The frequency response of the seismometer is assessed by observing the free vibration of the sensor. The preliminary results are encouraging and suggest that a WGM-based optical seismometer is feasible.
In this paper, we demonstrate an application of high Q-factor optical ring resonators to seismometry. A coupled opto-mechanical (cantilever + ring resonator) system was successfully used to track the motion of a vibration table.
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