Method for detecting notoginseng using terahertz technology

What is claimed is: 1. A method for detecting notoginseng using terahertz technology, comprising: 1) pulverizing a notoginseng standard sample and a notoginseng test sample separately in a pulverizer; then mixing the pulverized standard sample and the pulverized test sample respectively with a polyethylene powder with the same ratio of between 1:4 and 1:6 to obtain a standard powder mixture and a test powder mixture; 2) pressing the standard powder mixture and the test powder mixture separately in a tablet press to obtain a standard tablet and a test tablet for detection; 3) reducing humidity in a sample chamber of a terahertz spectrograph to less than 3%; storing a peak position; measuring a single channel of background; and acquiring a time-domain graph of the background without sample; 4) placing the standard tablet and the test tablet on a sample holder successively; acquiring a time-domain graph of the standard tablet and a time-domain graph of the test tablet, respectively; 5) transforming the time-domain graphs of the background, the standard tablet and the test tablet into frequency-domain graphs by Fourier transform; 6) converting the frequency-domain graphs of the standard tablet, the test tablet and the background to obtain absorption spectra of the standard tablet and the test tablet by the following equation: Ab = - log ⁡ ( Sam Ref ) ; where, Ab is the absorption spectrum data, Sam is the standard frequency-domain data, and Ref is the reference frequency-domain data; 7) repeating test to obtain multiple sets of absorption spectrum data of the test tablet; averaging the obtained multiple sets of the absorption spectrum data; comparing an absorption spectrum of the test tablet obtained by analysis software according to the averaged absorption spectrum data with that of the standard tablet, wherein a comparison between absorption peak positions of the test tablet and absorption peak position of the standard tablet are made to determine authenticity of the notoginseng test sample; wherein, when position errors of absorption peak of the test notoginseng tablet are within a resolution range of the terahertz spectrograph, the notoginseng sample is authentic, otherwise it is fake notoginseng; 8) when it is determined that the test sample is authentic, quantitatively analyzing a concentration of key active substances of the test tablet by integrating an area under an absorption peak curve of the tablet notoginseng test sample; wherein the area under the absorption peak curve of the test tablet is calculated, and then compared with an area under an absorption peak curve of the standard tablet whose concentration of the key active substances is known to obtain an area ratio; the concentration of key active substances of the notoginseng test sample is calculated according to the area ratio with the same amount of samples. 2. The method of claim 1 , wherein in step 7), whether the position errors of absorption peak are within the resolution range of the terahertz spectrograph is further determined.