V.Shkatov和V.Zamsha的“挠场与星际通信”
Experimentalreport: torsion field communication attempts in 5 kmGao Peng
gpufo@outlook.comTorsion field communication(TFC) is a very important research direction in torsion field research. A.E.Akimov conducted the first TFC experiment[1]. David.G.Yurth also made great contribution for the TFC, it’s said his group has made one prototypeof torsion field transmitter and receiver for communication[2]. In 2010,Dr. M. Krinker conducted successful TFC experiments with colleagues in Moscow[3].Author beganto pay attention to this topic all because a book called “Torsion Field and Interstellar Communication[4]” by V.Shkatov and V. Zamsha. This book introduces some kinds of torsion field generators and sensors, and mainly the “ShkatovZamsha” approach – using the photo as the addressing component. They transmitted obvious signal in 2011 with this approach. After that, Dr. M. Krinker in New York also did successful TFC tests with Mr. Shkatov. And further, Dr. M. Krinker developed the “Cross-Photo” approach for improving the signal-to-noise ratio. Cybertronica Research led by Dr. S. Kernbach developed many kinds of detectors, which can detect weak and super-weak signals – especially the torsion fieldnon-localsignals. Besides them, 1kreplication experiments with ElectrochemicalImpedance Spectroscopyhave been finished nonlocally [5]. So there are so much entanglement phenomena and experiments in macroscopic system with the help of torsion field or weak emission. But for the purpose of communication, the high signal-to-noise ratio and fast reaction time are also necessary.So author also tried to look for suitable sensor for detecting torsion field. In this work, author want to introduce a TFC experiment.1.Torsion field generatorFig 1: Torsion field generator based on spinning Poynting VectorThe principle of this torsion field generator is using the interaction of the magnetic field and electric field to generate the spinning Poynting Vector, S = E×H. There is a strong magnet inside the container andthe electric field will be generated between the coil and a copper coneinside.
2.Torsion field detectorFig 2: Torsion field detector based on the photodiodeAuthor has been using about two years to research this kind of torsion field detector based on the photodiode. The approach is to measure the dark current of the photodiode. The photodiode should be sealed and light and EM should also be shielded. A photo should be taken before the photodiode was sealed. After sealed, a suitable bias voltage should be adjusted. A semiconductor heating filmwas placed under the sensor, controled by a circuit board with PID algorithm, so the accuracyof temperature control is under 0.01℃.3.MethodThe method used in experimentis standard “Shkatov-Zamsha“ approach. The photo of photodiode taken before the sensor was sealed was placed on the top of the torsion field generator. Generally speaking, author did such experiments on the night. The detector was placed in lab, and took the photo of photodiode and torsion field generator back home. The distancebetween the lab and homeis about 5 km. After the environment of the TF detector was stable, especially the temperature, and the data recording became linear, the photo of photodiode was placed on the TF generator. In this experiment, author didn’t use the ONOFF mode, but use the polarization reverse mode, CW-CCW mode or right-left mode for improving signal-tonoise ratio. The configuration of the experiment at transmitter side is in Fig. 3.Fig 3: The configuration of TFC on the transmitter side
4.Resultand conclusionFig 4: Original result of the TFC experimentThe protocol at transmitter side is like follow:0-3000s: Before impact3000-4600s: right-handed TF4600-5600s: left-handed TF5600-6200s: right-handed TF6200-7100s: left-handed TFAfter 7100s: turn off the TF generatorSo from the result, there are two different trendsof the dark current of the photodiodewith different polarization of torsion field. From the time correlation, the reaction time of the detector is still not enough, but the signal-tonoise ratio is high fromthe linear regression of the original data, which is on the center of the data in each part. In some part, the slopes of the linear regression are obviously different. So for more obvious result, author also calculated the slope of the linear regression in each part in Fig 5:Fig 5: The calculationof the slope of linear regression(original slope multiply bya constant coefficient,otherwisethe slope is too small because of the large value of time in X axis)So from Fig 5, the waveform of the slope just like digital signals, for example, the parts less than 0 can be considered as “0“ and the parts more than 0 can be considered as “1“. So after adding protocol, meaningfulinformation can be transmitted.
(1)Themeasurement of thedark current inphotodiodeunder the stable environmental conditioncan beused for detection of the non-local torsion field signals.(2)The calculation of slope can be used to analyze the useful nonlocal torsion field signals, and translate the signals in original data into the waveform of digital signal.(3)It seems that the sensitivity of the sensor is proportionalto the noise level, the noise level in this experiment is very high.(4)The volumeof photodiode is very small and it’s convenient for the miniaturization applications, such as the telephone.(5)The “first measurement effect“ phenomena is serious in such experiments.References:[1] Акимов А.Е., Тарасенко В.Я., Толмачёв С.Ю. ТОРСИОННАЯ СВЯЗЬ — НОВАЯ ФИЗИЧЕСКАЯ ОСНОВА ДЛЯ СИСТЕМПЕРЕДАЧИ ИНФОРМАЦИИ [2] Gary Vesperman, Torsion field physics and communication.[3] М. Кринкер, Попытка дистанционного мониторинга удал¨енных ТПВ-экспериментов, P66-69, N9, International Journal of Unconventional Science.[4] V. Shkatov V. Zamsha, Torsion Field and Interstellar Communication, 2015.[5] S.Kernbach et al, Nonlocal quantum phenomena in macroscopic systems: 1k replication experiments with ElectrochemicalImpedance Spectroscopy in water, the 12th water conference in Bulgaria, Oct 26-29, 2017
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