Echo wall sensor based on sound evanescent field coupling

A sensor and evanescent field technology, which is applied to instruments, scientific instruments, and the use of sound waves/ultrasonic waves/infrasonic waves to analyze fluids, etc., can solve problems such as high sensitivity cannot be exerted, and it is difficult to detect molecules combined with tiny mass changes, so as to avoid energy loss and low The effect of detection limit and quality factor improvement

Inactive Publication Date: 2012-06-27
CHANGCHUN INST OF OPTICS FINE MECHANICS & PHYSICS CHINESE ACAD OF SCI
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Problems solved by technology

Therefore, although its theoretical sensitivity is extremely high, due to the low Q value, the frequency change caused by phase noise often exceeds the frequency change caused by antigen-antibody binding, especially in a liquid environment, it is difficult to detect the tiny mass caused by molecular binding in an affinity reaction change, making its high sensitivity feature unable to play

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  • Echo wall sensor based on sound evanescent field coupling
  • Echo wall sensor based on sound evanescent field coupling
  • Echo wall sensor based on sound evanescent field coupling

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Embodiment Construction

[0011] The whispering gallery sensor based on the coupling of the evanescent field, the sensor includes: a thin film structure 2, a thin-walled circular tube resonant cavity 6, a support device and an excitation and receiving device 4; the support device supports the thin-walled circular tube resonant cavity 6, and jointly excites the whispering gallery mode 7 The distance between the thin-walled circular tube resonant cavity 6 and the thin-film structure 2 is adjustable, and the axis of the thin-walled circular tube resonant cavity 6 is parallel to the upper surface of the thin-walled circular tube resonant cavity 2 and perpendicular to the direction of sound wave propagation; the input end of the exciting and receiving device 4 for exciting and receiving lamb waves and the output end are fixed on the film structure 2.

[0012] Depend on figure 1 , figure 2 As shown, in this embodiment, the whispering gallery sensor based on the coupling of the evanescent field includes: a ...

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Abstract

The invention provides an echo wall sensor based on sound evanescent field coupling, relates to an acoustic wave biosensor used for biological detection. The sensor includes a membrane structure, a thin-walled round tube resonant cavity, a support device and an excitation receiving device, wherein the thin-walled round tube resonant cavity is supported by the support device; the distance between the thin-walled round tube resonant cavity in a joint excitation echo wall mode and the membrane structure is adjustable; the axis of the thin-walled round tube resonant cavity is parallel to the upper surface of the membrane structure and vertical to the propagation direction of acoustic waves; and the input end and the output end of the excitation receiving device used for exciting and receiving lamb waves are fixed on the membrane structure. The sensor separates the transmission function and the sensing function, and improves the quality factor of acoustic wave resonance in liquid phase, the label-free biosensors of high sensitivity, low detection-limit detection and in integration and array form can be manufactured, and information in the thin-walled resonant cavity in the echo wall mode and related physical information of a to-be-detected object can be obtained through the variation of detection signals.

Description

technical field [0001] The invention relates to an acoustic wave biosensor for biological detection, in particular a whispering wall sensor based on acoustic evanescent field coupling. Background technique [0002] An ideal biosensor should not only have high sensitivity, but also have the characteristics of small size, portability, reusability, high specificity and stable operation. At present, although the whispering gallery optical sensor has a very high quality factor (Q value) and detection sensitivity in the air, its characteristics in the liquid have yet to be investigated. In addition, in order to achieve the mode matching between the optical fiber and the micro-resonator, it usually uses a tapered optical fiber to couple light into the resonant cavity. At this time, the diameter of the optical fiber is usually small, which is not only difficult to manufacture, but the system is fragile and difficult to reuse. However, thin-film acoustic wave devices can be designed...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01N29/036G01N33/543
Inventor 吴一辉李峰刘军毕晓猛
Owner CHANGCHUN INST OF OPTICS FINE MECHANICS & PHYSICS CHINESE ACAD OF SCI
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