Because of the uncertainty principle, a very powerful energy pathway like an anapole magnetic beam, the vacuum is squeezed. Energy at one point in the vacuum can be sent to anther point in the vacuum by teleportation. Because the energy density of the vacuum is so great, In an energy saturated vacuum. position does not matter anymore because the vacuum is saturated. To particles that are separated by a fair distance are superimposed on each other energetically because of the high energy density of space between the two particles.
On Tue, Apr 14, 2015 at 2:30 AM, Axil Axil <[email protected]> wrote: > An experiment that shows that entanglement of many photons over large > distances can happen > > > http://planetsave.com/2014/03/28/quantum-entanglement-experiment-proves-non-locality-for-first-time-will-permit-multi-party-quantum-communication/ > > On Tue, Apr 14, 2015 at 2:20 AM, Axil Axil <[email protected]> wrote: > >> More... >> >> First, they teleported photons, then atoms and ions. Now one physicist >> has worked out how to do it with energy, a technique that has profound >> implications for the future of physics. >> >> >> >> In 1993, Charlie Bennett at IBM’s Watson Research Center in New York >> State and a few pals showed how to transmit quantum information from one >> point in space to another without traversing the intervening space. >> >> The technique relies on the strange quantum phenomenon called >> entanglement, in which two particles share the same existence. This deep >> connection means that a measurement on one particle immediately influences >> the other, even though they are light-years apart. Bennett and company >> worked out how to exploit this to send information. (The influence between >> the particles may be immediate, but the process does not violate relativity >> because some informatiom has to be sent classically at the speed of light.) >> They called the technique teleportation. >> >> That’s not really an overstatement of its potential. Since quantum >> particles are indistinguishable but for the information they carry, there >> is no need to transmit them themselves. A much simpler idea is to send the >> information they contain instead and ensure that there is a ready supply of >> particles at the other end to take on their identity. Since then, >> physicists have used these ideas to actually teleport photons, atoms, and >> ions. And it’s not too hard to imagine that molecules and perhaps even >> viruses could be teleported in the not-too-distant future. >> >> But Masahiro Hotta at Tohoku University in Japan has come up with a much >> more exotic idea. Why not use the same quantum principles to teleport >> energy? >> >> Today, building on a number of papers published in the last year, Hotta >> outlines his idea and its implications. The process of teleportation >> involves making a measurement on each one an entangled pair of particles. >> He points out that the measurement on the first particle injects quantum >> energy into the system. He then shows that by carefully choosing the >> measurement to do on the second particle, it is possible to extract the >> original energy. >> >> All this is possible because there are always quantum fluctuations in the >> energy of any particle. The teleportation process allows you to inject >> quantum energy at one point in the universe and then exploit quantum energy >> fluctuations to extract it from another point. Of course, the energy of the >> system as whole is unchanged. >> >> He gives the example of a string of entangled ions oscillating back and >> forth in an electric field trap, a bit like Newton’s balls. Measuring the >> state of the first ion injects energy into the system in the form of a >> phonon, a quantum of oscillation. Hotta says that performing the right kind >> of measurement on the last ion extracts this energy. Since this can be done >> at the speed of light (in principle), the phonon doesn’t travel across the >> intermediate ions so there is no heating of these ions. The energy has been >> transmitted without traveling across the intervening space. That’s >> teleportation. >> >> Just how we might exploit the ability to teleport energy isn’t clear yet. >> Post your suggestions in the comments section if you have any. >> >> But the really exciting stuff is the implications this has for the >> foundations of physics. Hotta says that his approach gives physicists a way >> of exploring the relationship between quantum information and quantum >> energy for the first time. >> >> There is a growing sense that the properties of the universe are best >> described not by the laws that govern matter but by the laws that govern >> information. This appears to be true for the quantum world, is certainly >> true for special relativity, and is currently being explored for general >> relativity. Having a way to handle energy on the same footing may help to >> draw these diverse strands together. >> >> On Tue, Apr 14, 2015 at 2:07 AM, Axil Axil <[email protected]> wrote: >> >>> More,,, >>> >>> Here is a theory that explains the teleportation of energy via >>> entanglement. >>> >>> >>> http://physicsworld.com/cws/article/news/2014/jan/27/energy-can-be-teleported-over-long-distances-say-physicists >>> >>> Energy can be teleported over long distances, say physicists >>> >>> On Tue, Apr 14, 2015 at 1:59 AM, Axil Axil <[email protected]> wrote: >>> >>>> "especially not without radiation - we must look elsewhere >>>> than nuclear." >>>> >>>> >>>> If two atomic structures become entangled, they might be able to share >>>> energy between themselves without the production of a gamma ray. If one >>>> structure which has undergone a nuclear reaction such as an isotopic shift >>>> or a fusion reaction becomes entangled with a receiver, this sender of the >>>> energy might send it excess energy to the receiver of that energy. The >>>> process of entanglement between the two quantum mechanical structures may >>>> allow for an energy transfer in a higher dimension in which entanglement >>>> manifests. >>>> >>>> See >>>> http://arxiv.org/pdf/physics/0401153.pdf >>>> >>>> Matter and Light in Flatland >>>> >>>> I have become intrigued by the internal structure of the photon in >>>> higher dimensions. >>>> >>>> This reference enplanes how electrons an photons must be higher >>>> dimensional waveform because they can interfere with themselves in a double >>>> stile experiment. >>>> >>>> A gamma ray can become entangled in a higher dimension with another >>>> waveform at a higher dimension and pass energy to the other waveform >>>> through an entangled path without our 4 dimensional world knowing it. >>>> >>>> >>>> On Mon, Apr 13, 2015 at 11:44 PM, Jones Beene <[email protected]> >>>> wrote: >>>> >>>>> -----Original Message----- >>>>> From: [email protected] >>>>> >>>>> In reply to David Roberson's message >>>>> >>>>> >At this point we need to have a long term experiment that exhibits >>>>> the same >>>>> type of correlations before we can be certain that the process is >>>>> nuclear >>>>> instead of some unknown chemical effect. You can be confident that the >>>>> behavior is nuclear if indications of this type persist for a month. >>>>> Perhaps someone would like to calculate how long a chemical cause could >>>>> exist that leads to this same observation set to establish a lower >>>>> limit >>>>> upon the time required to prove LENR beyond any doubt. >>>>> >>>>> > If you look at the Lugano experiment, and assume that all the energy >>>>> came >>>>> from H, then given the small amount that was present, each atom would >>>>> have >>>>> to have delivered near 9 MeV of energy. This is out of reach of any >>>>> Hydrino >>>>> reaction, so the process must have been nuclear, to a very large >>>>> degree. >>>>> >>>>> >>>>> This conclusion is not logical either, Robin. Since there is also no >>>>> known >>>>> nuclear reaction involving hydrogen which can provide the amount of >>>>> energy >>>>> claimed by Levi, especially not without radiation - we must look >>>>> elsewhere >>>>> than nuclear. >>>>> >>>>> Either there is another source of energy... or else we cannot trust >>>>> what has >>>>> been claimed. Clearly the Levi report was flawed, and much less energy >>>>> was >>>>> involved than what is stated in the report. >>>>> >>>>> Nevertheless, Watson ... another source of energy is possible - in the >>>>> zero >>>>> point field. As Sherlock sez: "Once you eliminate the impossible, >>>>> whatever >>>>> remains, no matter how improbable, must be the truth." If Levi is >>>>> correct on >>>>> the 1.5 MW-hrs, then ZPE extraction - which may be improbable, is not >>>>> impossible and would be a strong candidate for truth (by the process of >>>>> elimination) ... >>>>> >>>>> ... and BTW - this can bring us back to the Hydrino reaction. It is as >>>>> simple as this: >>>>> >>>>> Premise: there is a previously undescribed mechanism will convert DDL >>>>> all >>>>> the way back to hydrogen, at the expense of ZPE. Thus the hydrogen >>>>> that was >>>>> converted to maximum redundancy is "expanded" back, sequentially with >>>>> zero >>>>> point energy from outside our 3-space. This must happen dozens of >>>>> times for >>>>> the numbers to add up ... but, according to the experts on zero point, >>>>> there >>>>> is massive energy available from this avenue. >>>>> >>>>> >>>>> >>>>> >>>>> >>>>> >>>> >>> >> >
