Sensitivity to external optical feedback of circular-side hexagonal resonator microcavity laser*

Abstract: The sensitivity to fault reflection is very important for larger dynamic range in fiber fault detection technique. Using time delay signature (TDS) of chaotic laser formed by optical feedback can solve the sensitivity limitation of photodetector in fiber fault detection. The TDS corresponds to the feedback position and the fault reflection can be detected by the laser diode. The sensitivity to feedback level of circular-side hexagonal resonator (CSHR) microcavity laser is numerically simulated and the feedback… Show more

“…[35] The sensitivity to feedback level of circular-side hexagonal microlaser was numerically simulated, which owns a smaller internal cavity round-trip time compared with distributed feedback laser (DFB) laser. [36] Two different modes excited in an octagonal toroidal microcavity were analyzed, [37] and stable optical coupling in octagonal silica toroid microcavity was experimentally demonstrated. [38] However, the integrated circular-side-octagon microcavities have rarely been studied.…”

Single-mode lasing in a coupled twin circular-side-octagon microcavity

“…[35] The sensitivity to feedback level of circular-side hexagonal microlaser was numerically simulated, which owns a smaller internal cavity round-trip time compared with distributed feedback laser (DFB) laser. [36] Two different modes excited in an octagonal toroidal microcavity were analyzed, [37] and stable optical coupling in octagonal silica toroid microcavity was experimentally demonstrated. [38] However, the integrated circular-side-octagon microcavities have rarely been studied.…”

Single-mode lasing in a coupled twin circular-side-octagon microcavity