Call us at +86 13377766112

Our Product Detail

Welcome to our website!

_
_
_
_

ethernet cable optical fiber ftth optical fiber cable structure twisted pair coaxial cable and optical fiber Armored cable fiber

We are a professional and trustworthy manufacture of ethernet cable optical fiber ftth optical fiber cable structure twisted pair coaxial cable and optical fiber Armored cable fiber optic cable Single fiber optic cable fiber optic audio cable Single mode optic cable in China.For providing high quality products, we are stricted to control our process flow.We can provide high quality optical fiber cable network products and satisfactory service in reasonable price.Customer satisfaction is our greatest pursuit.Service first is our best guarantee of product quality.I wish you health, happiness and well-being.

Download instructions

Products Details

We are a professional and trustworthy manufacture of ethernet cable optical fiber ftth optical fiber cable structure twisted pair coaxial cable and optical fiber Armored cable fiber optic cable Single fiber optic cable fiber optic audio cable Single mode optic cable in China.For providing high quality products, we are stricted to control our process flow.We can provide high quality optical fiber cable network products and satisfactory service in reasonable price.Customer satisfaction is our greatest pursuit.Service first is our best guarantee of product quality.I wish you health, happiness and well-being.

optical fiber cable networkoptical fiber cable network
INNSBRUCK, Austria, Aug. 30, 2019 — A team from the institution of Innsbruck and the Institute of Quantum Optics and Quantum tips of the Austrian Academy of Sciences has finished what could be a list for the transfer of quantum entanglement between matter (a trapped ion) and light (a photon). The crew sent quantum information over a distance of fifty km using fiber optic cables. “here is two orders of magnitude further than became prior to now feasible and is a practical distance to birth building intercity quantum networks,” lead researcher Ben Lanyon talked about.

The researchers all started by way of trapping a calcium atom in an ion lure. the usage of lasers, they wrote a quantum state onto the ion while interesting it to emit a photon, in which quantum counsel was stored. The quantum states of the atom and the photon grew to become entangled.

The photon that was emitted by means of the calcium ion had a wavelength of 854 nm. To keep away from the photon from being absorbed via the optical fiber because it become being transmitted over a fiber optic cable, the researchers first sent the photon through a nonlinear crystal illuminated by way of a powerful laser. This step led to the photon wavelength to be converted to 1550 nm, the latest telecommunications usual wavelength and an appropriate wavelength for long-distance shuttle.

In a nonlinear crystal illuminated by using a strong laser, the photon wavelength is transformed to the most advantageous cost for lengthy-distance shuttle. Courtesy of IQOQI Innsbruck/Harald researchers then sent the photon through a 50-km-long optical fiber line. Their measurements showed that the atom and photon were nonetheless entangled, even after the wavelength conversion and the 50-km journey.

subsequent, the researchers plan to reveal that their formulation can be used to permit entanglement between ions 100 km aside and extra. With the chance of one hundred-km node spacing, constructing the area’s first intercity gentle-remember quantum community could be possible in the coming years. for example, just a small variety of trapped ion-programs would be required to establish a quantum cyber web between Innsbruck and Vienna, the group mentioned.

The analysis changed into published in npj Quantum counsel (

LEAVE A MESSAGE