In this paper, a micro-stereo sensor is proposed using two-identical Panda-ring resonators, which are coupled by jointed drop ports. When light from the identical coherent sources is fed into the system via the input ports, the coupling outputs are obtained at the drop port at the resonant condition. These are mixed signals in the form of stereo signals. By using different input power between the right and left systems, the phase difference generated by the Kerr-Effect in the non-linear medium leads to the shift in the coupling outputs. The shift in the center wavelength is the primary measurement of interest along with coupling crosstalk signals that are also visible at the output. The measurement self-calibration of the two channels is confirmed by the mixed channel signals. In the manipulation, the crosstalk signals can be used to interpret the cross-communication of bio-cells. The crosstalk results have shown the optical crosstalks of $\sim$2.0 and $\sim$2.5 dB are calculated and obtained, respectively. The stereo sensor sensitivity of $\sim$5.70 nmW${}^{-1}$ is noted.

在本文中，提出了一种使用两个完全相同的熊猫环谐振器的微立体传感器，该谐振器通过连接的引入端口耦合。当来自相同相干光源的光通过输入端口馈入系统时，在谐振条件下在出射端口获得耦合输出。这些是立体声信号形式的混合信号。通过在左右系统之间使用不同的输入功率，非线性介质中克尔效应产生的相位差会导致耦合输出发生偏移。中心波长的偏移是关注的主要测量指标，也是在输出端也可见的耦合串扰信号。通过混合通道信号确认两个通道的测量自校准。在操纵中 串扰信号可用于解释生物细胞的交叉通信。串扰结果显示了$〜$2.0和 $〜$分别计算和获得2.5 dB。立体声传感器的灵敏度$〜$5.70海里${}^{-\mathrm{1个}}$ 被注意到。