3D interference fringe pattern recognition using a plasmonic sensing circuit is proposed. The plasmonic sensing in the form of a panda ring comprises an embedded gold grating at the microring center. WGM (whispering gallery mode) is observed at the microring center with suitable parameters. The dark soliton of 1.50 µm wavelength excites the gold grating which leads to electron cloud oscillation and forms the electron densities where the trapped electrons inside the silicon microring are transported via wireless connection using WGM and cable connection. The spin down \(\left| \downarrow \right\rangle\left( {\left| 1 \right\rangle } \right)\) and spin up \(\left| \uparrow \right\rangle\left( {\left| 0 \right\rangle } \right)\) result from the electron cloud oscillation. By using the changes in gold lengths, the excited electron pattern recognition can be manipulated, where the values “0” and “1” are useful for pattern recognition. The fringe patterns of the plasmonic interferometric sensor are recorded, which means that the novel 3D pattern recognition can be possibly implemented and used in many applications. Therefore, the plasmonic sensing circuit can be used to form the quantum code, quantum encryption, quantum sensor, and pattern recognition.

提出了利用等离激元感测电路的3D干涉条纹模式识别。熊猫环形式的等离子传感在微环中心包括一个嵌入式金光栅。在微环中心使用适当的参数可以观察到WGM（低语画廊模式）。波长为1.50 µm的暗孤子激发金光栅，从而导致电子云振荡并形成电子密度，硅微环内部的捕获电子通过使用WGM和电缆连接的无线连接进行传输。向下旋转\（\ left | \ downarrow \ right \ rangle \ left（{\ left | 1 \ right \ rangle} \ right）\）并向上旋转\（\ left | \ uparrow \ right \ rangle \ left（{ \ left | 0 \ right \ rangle} \ right）\）由电子云振荡引起。通过使用金长度的变化，可以操纵激发的电子图案识别，其中值“ 0”和“ 1”对于图案识别是有用的。记录了等离子干涉传感器的条纹图案，这意味着可以在许多应用中实现和使用新颖的3D模式识别。因此，等离子体感测电路可用于形成量子代码，量子加密，量子传感器和模式识别。