The transformation of quantum scanner signals into the DNA sequences
The quantum scanner is based on the LGN 303 laser operating in a stabilized mode. The laser modes jumps are recorded as the audio file which is heard as a buzz during listening. The signal above zero of the audio file indicates the laser frequency drift over the normal position which is fixed in the manual; the signal under zero of the audio file indicates the laser frequency drift below this position. Thus, the frequency jumps above null is assigned the Yang energy (or 1 of the binary scale); respectively, the frequency jumps below null is assigned the Yin energy (or 0 of the binary scale). Thus, we receive the binary informational file from the audio file. I Ching can be used for its decoding where every hexagram corresponds f the human’s DNA codons. It is necessary to use two methods of analyzing such sequences. In the second version of the analysis, a 1-bit bias must be made since the beginning of the sequence of the information spin bit file is unknown. The resulting DNA codon sequences can be searched on specialized sites where the human genomes are the functions of searching for genes from given sections of sequences. Also, such binary files can be transformed into text and numerical sequences with the subsequent search them in databases of dictionaries. It is possible to create video images based on these files. Such methods give the prospect of using a quantum scanner based on the LGN 303 laser in instrumental transcommunication.