with google in the spot light, its a good time to study up on their sommerfeld goubau technology.

Google with facebook in the spot light, its a good time to study up on their sommerfeld goubau technology Facebook

Both of these companies are working close toward a similar goal, its clear when investigating the patent technology shared in this thread. for example a sommerfeld-goubau launcher can transmit wireless energy only if met by a near line of site receiver. Facebook, during the same time span has had a number of patents having to do with deploying line of sight recievers.

The sommerfeld goubau launchers have been being placed on power lines via google. That’s terahertz microwave frequency, this particular wave has a plethora of use case. I have compiled a detailed synopsis of it here: Sommerfeld Goubau

At first it would be reasonable to assume that there is no connection and the line of site receivers would have been made interdependently. The first hurdle with that assumption is the fact that Karthik Yogeeswaran is an inventor for both patents. Karthiks catalog of patent development is here: Karthik Yogeeswaran

You’ll notice the projects in large portion have to do with propagation of electromagnetic radiation from power lines, the system in which goubau launchers operate. More telling, the electrical event detection is a very specific use case that is necessary for electronics that are too small or too hidden for consumer intervention. I’m getting at NANO Machines, aka Microelectromechanical systems.

Upon researching these systems, it has been noted that some of the most prominent names in the field, such as Anthony Treizebré, are seemingly just as invested in Goubau Tech. in fact it has been bluntly stated that the development in goubau systems has been spearheaded most entirely due to its ability power MEMs. There are a few reasons for Goubau desirability in that field. 1) THZ waves can penetrate the skin easily 2) The wave can be received via an antenna only a few micrometers thick

in his own words however we have this: "THz spectroscopy could provide interesting new complementary information at the systemic biology due to its faculty to probe the low binding energy between molecules or inside heavy bio-molecules. We describe here a THz BioMEMS based on a new integrated propagation mode around a metallic wire where the radial size is down to the nanometer scale. This size is required for a sub-micrometer spatial resolution. We give the first results obtained in term of propagation