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Quantum magneto-optic sensor

A sensor and magneto-optical technology, which is used in the analysis of nuclear magnetic resonance, material excitation analysis, and complex mathematical operations. It can solve the problems of research focus, low application penetration, and expensive equipment, and achieve the effect of improving the acquisition sensitivity.

Active Publication Date: 2022-06-21
GREATER BAY AREA STAR BIOTECH (SHENZHEN) CO LTD
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  • Abstract
  • Description
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AI Technical Summary

Problems solved by technology

[0022] 1. Nuclear magnetic resonance and Raman spectroscopy belong to two irrelevant fields and are not integrated with each other at all;
[0023] 2. Most nuclear magnetic resonance is used for medical imaging, the equipment is expensive, and the basic resources of software and hardware are mostly monopolized by foreign countries;
[0024] 3. Most of the core equipment of Raman spectroscopy is produced abroad, and due to the high price, the application penetration rate is low;
[0025] 4. The underlying resources of nuclear magnetic resonance and Raman spectroscopy still have many areas that can be integrated and produce additional effects, which are yet to be developed;
[0026] 5. In addition, regarding quantum theory, because it is a theory with a short development history, the research work on its mainstream branch and single-point innovation is still in progress, and most researchers have not yet focused their research on tributary branches and multi-point innovation.
However, no research results and application cases have been found for this innovation.

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Embodiment 1

[0311] Embodiment 1. Universal off-axis quantum magneto-optical sensor

[0312] This embodiment is a general-purpose quantum magneto-optical sensor that uses off-axis excitation light and Raman scattered light in the application of the present invention, which can be used for non-invasive (non-invasive) medical biochemical detection, such as through fingers, palms, feet and other limbs. The blood glucose content, potassium ion content, hormones and other trace substances can be detected outside the skin, and it can also be used for non-destructive testing of food, medicine, drugs and other substances. The basic structure is to complete the excitation, acquisition and quantum magneto-optical sensing of Raman spectra in an off-axis manner. Compared with the on-axis method, the advantage of the off-axis method is that the Raman scattered light spectrum can be continuously detected by adjusting the first and second angles without knowing the optimal second angle of the detection m...

Embodiment 2

[0495] Embodiment 2. Universal coaxial quantum magneto-optical sensor

[0496] 1 Introduction

[0497] This embodiment is an example of the present invention using a coaxial method. Compared with the off-axis method, the coaxial method has a much simpler structure in terms of the magneto-optical angle controller, and has the advantage of low cost and simplified structure.

[0498] In addition, since the first included angle and the second included angle in the coaxial manner are coincident, for some specific protons, the possibility of obtaining an optimized magneto-optical included angle will be greatly reduced.

[0499] The coaxial method is used for the following reasons.

[0500] 1. For some detection molecules containing specific protons, the high probability angle of the Raman scattered light and the incident angle of the excitation light are approximately minus 180 degrees. At this time, the coaxial mode can still collect enough scattered light components;

[0501] 2. ...

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Abstract

Quantum magneto-optical sensors involve the field of sensors for quantum-level ultra-trace detection of nuclear magnetic resonance and Raman spectroscopy, specifically including the discovery of the electronic energy of specific protons in the detection object under the states of nuclear magnetic magnetization, nuclear magnetic resonance, nuclear magnetic relaxation and nuclear magnetic demagnetization. The difference in distribution probability of Raman scattered light in azimuth and direction caused by the order transition, and finding and adjusting the optimal magneto-optical angle between excitation light and Raman scattered light will obtain higher collection efficiency of Raman scattered light. The characteristic magnetic spectrum and the characteristic spectrum, according to the quantum correlation, can also find out more information from the quantum correlation. Specifically, the main magnetic field generator, the excitation induction coil, the control subsystem, the laser and the Raman probe constitute the quantum magneto-optical sensor. By adjusting the magneto-optical angle in an off-axis or coaxial way, the Raman spectrum collection efficiency can be improved, and at the same time, the correlation between the characteristic magnetic spectrum and the characteristic spectrum in multiple states can be realized, which provides a calculation basis for further analyzing the content of the detected molecules.

Description

technical field [0001] The invention relates to the field of the Internet and new energy, in particular to the sensor sub-field of quantum-level ultra-trace detection of nuclear magnetic resonance and Raman spectroscopy, and is used to innovatively design a class of medical IVD (in vitro diagnostic products) for human blood and tissue fluids. It can also be used for the detection of other trace substances such as food, drugs, drugs, etc. Background technique [0002] In vitro diagnostic products [0003] In Vitro Diagnostic Products IVD (English name: In Vitro Diagnostic products, abbreviation: IVD, Chinese abbreviation: In Vitro Diagnostic Products) is different from surgery and blood testing due to the use of in vitro human body for medical testing, especially non-invasive IVD, no need to break the skin The test can be completed, so it is more and more welcomed and valued by medical institutions and the subjects to be tested. However, since non-invasive IVD detects the i...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01N21/65G01N24/08G06F17/14
CPCG01N21/65G01N24/08G06F17/14
Inventor 丁贤根丁远彤肖苑辉谢宝虹
Owner GREATER BAY AREA STAR BIOTECH (SHENZHEN) CO LTD
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