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Free voice and data services will be available through an international consortium’s program that deploys a proton-based global network. The telecommunications network’s potential was confirmed last week following research using the Large Hadron Collider at CERN, European Organization for Nuclear Research, and the world’s largest particle physics laboratory.

Large Hadron Collider

While the Large Hadron Collider (LHC), the world’s largest high-energy particle accelerator, was not expected to come online and be available for research activities for another six months, this information-transfer process was tested during the system’s post-installation efficacy evaluation process (PIEEP). The LHC resides within a 27 km circumference underground tunnel that ranges in depth below ground level from 50 to 150 meters.

The telecommunications network, which requires no physical interstitial points of transmission, will allow transmission bandwidth of at least 100MB/s between endpoints. Owing to the quantum distribution properties of protons and the availability of unused geosynchronous satellites currently in orbit, terrestrial endpoints may be located anywhere and airborne endpoints may be located to a maximum altitude of 150 miles above the surface of the Earth.

Technology Background

A proton is a subatomic particle with a positive electrical charge of one fundamental unit (1.602 x 10-19 coulomb). The CERN scientists, led by Dr. Albus Luminare, were able to store 8 bytes of quantum data within a single photon of pure white light. Using light photons, which travel through a vacuum at 299,792,458 meters per second, the scientists were able to effect the high bandwidth data network, creating multiple individual channels of data between two end points at near fiber-optic speed.

The current research demonstrates that data transmission does not have to be limited to a single transmission medium, such as a fiber-optic cable. Rather, multiple independent transmission streams may be effected through the use of quantum entanglement, and directed focus mirrors, which allow the digital data to be transmitted without the need of physical cables. Data endpoints may transmit and receive data between cellular and internet endpoints using satellite-based mirrors, literally reflecting the multiple data streams off mirrors in geostationary orbit, 22,500 miles above the surface of the Earth.

Dr. Luminare, chairman of the Worldwide System Hardware Language Infrastructure Systems & Technology Symposium (WiSHLISTS), has announced that the charitable organization will license—at no cost–the new technology, called the Proton-based Information System (PIS), to nations willing to offer free nationalized cellular and internet service to citizens, without restriction.

Dave’s Opinion

The PIS network sounds the death knell for terrestrial telephone and broadband providers. My sources confirm that the symposium’s services will be available before the end of the year, and I expect to see a plethora of new mobile digital devices that will take advantage of this high-speed data network.
It is fortunate that Dr. Luminaire’s team of scientists conducted their research during the LHC’s PIEEP phase, as CERN reported earlier this week that the LHC suffered a failure of its three quadrupole magnets.

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References

CERN
LHC Magnet Test Failure