Hi, we are a non profit group of enthusiasts following an alternative physical concept of a unified theory, called BSM-SG (Basic Structures of Matter - Supergravitation Unified Theory).
If you are interested in a bit hardware tinkering and data analysis in exotic projects, we could need some people joining in. If you think the standard model is absolutely right, go to your next message and ignore the rest. About the physical background ----------------------------- http://www.amazon.com/Basic-Structures-Matter-Supergravitation-Unified/ dp/1412083877 The BSM model is basically a physical model developed from scratch by using the most simple and logical assumptions possible. Galaxies as we know it, filled with matter that implements quantum mechanical properties in a space with quantum mechanical properties are the deterministic result of very simple processes. All quantum mechanical properties have a classical explanation in the BSM model, as well as General and Special Relativity are derived effects. The model has a much higher resolution then the standard model, in fact, everything in the standard model is very huge in the the BSM model. Depending on the model you are using, measured values may differ from the expected values, in the best case, they fit perfect all the time. The interpretation of effects you measure can differ, however quite strongly between models. What this project is about ? ---------------------------- In the BSM model, gravity waves exist, in fact 2 types of it. The first type is a form of vacuum pressure wave that can be detected by Michelson-Morley type of experiments like the LIGO experiment. They are created by any large mass-change event like supernovae, mergers of black holes (will result in a similar event), gamma ray bursts etc and propagate at the speed of light. The amount of events they find at LIGO are already quite high above the expected count - so this events are quite common and not only results of black hole mergers. Real gravity waves according to BSM behave differently and where already measured by research groups in Germany and China als well as Gregory Hodowanec in the 80s. Depending on how closely you follow scientific research, now and then you will find papers that greatly contradict our expectations. Taken together there are more then enough for falsification the standard model. My guess why those experiments where not widely discussed, is that they contradict the expectations. When you measure a eclipse transition at the correct spot, you can detect changes ~8 minutes before the visual transition takes place. In the BSM model, those waves are the fastest signal in the universe and best suited for long distance communication as well as observation of large cosmological events. This does not mean that the signal travels backwards in time, no such nonsense. In BSM time never ever can go backwards as it has a proper arrow of time. If you wondering about the Fermi Paradox, this is my reason why. It is the only sensible signal to use for interstellar communication - if aliens exists with advanced technology, they would use those. I already built one Hodowanec Gravity Wave Detector http://www.rexresearch.com/hodorhys/xptgwsig/xptgwsig.htm and used a RIGOL DS1052E to analyze the signal for some hours. Plan is to use something like HackRF + a frequency shifter or a second radio of signals < 1 MHz. I have a rad1o ( https://rad1o.badge.events.c cc.de/start ) for the higher frequencies. What I can say from the RIGOL analysis so far. It looked for me like a larger synchronization spike followed by 3 smaller waves those waveforms changed constantly. The small waves looked for me like 3 data bits. The whole signal seemed to have some sort of frequency hopping scheme. Without a larger collection of data and it's analysis I can not be sure if this is an actual signal or an artifact of the amplifier circuit. Unfortunately I don't have much time for this side project as I'm organizing some other very important projects for the foundation. Goal of this project is to have a distributed sensor network on open hardware/software that collects events and signals. A search-able database will then provide access for everybody interested on decoded signals and partial dumps. Being self no specialist for such kind of data analysis and no experience in gnuradio as well, I'm inviting those who are interested in such research. Those who are interested, drop me a PM :) kind regards Daniel
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