Anonymous ID: 0962f5 March 21, 2019, 3:50 p.m. No.5816710   🗄️.is 🔗kun   >>7098

 

Sent from my iPad

 

Let me, let y’all in on little bit of info.

I’m not here to preach or insult anyone, but I’m not holding back and I’m gonna give y’all some tough love, cause I love you anons.

 

We as a people need to think , I mean really think. One of biggest concerns as a nation is healthcare, we want affordable healthcare and cures for our diseases and we expect our elected officials to make that happen. I think what we fail to realize is that we have the ability ourselves to mitigate this totally. I’m talking to you you Cheeto eating muthafukkas….

 

Breakdown:

 

Bad eating habits-risk of poor health

No national program to teach Americans the value of homeopathy-risk of poor health

Treat disease with synthetic medicine in the form of pills-side effects and risk of poor health

Over indulgence of any kind-risk of poor health

 

What all this leads to is the trillion dollar snack food, soda/big sugar, healthcare, pharmaceutical scam. ProblemReactionSolution Hegelian Dialectic

 

In closing I suggest all you snicker eating, chicken wing grubbing, soda gulping, toxic zombies stop feeding the FDA and their cohorts trillions of dollars and stop draining our nation with your overwhelming burden on our nations economy. Sorry but it’s fact, that’s why candy, soda, chips, etc. have their own isle in all groceries. Yes I’m talking to you fatass…

 

Peace out

Choose healthy

Anonymous ID: 0962f5 March 21, 2019, 4:16 p.m. No.5817221   🗄️.is 🔗kun

An entanglement-based wavelength-multiplexed quantum communication network has been demonstrated. It can operate alongside classical communications in the same telecommunication fibre.

 

Sören Wengerowsky's team at the University of Vienna has come up with a fully-connected quantum network architecture in which a single entangled photon source distributes quantum states to many users while minimizing the resources required for each. And it does this without sacrificing security or functionality relative to two-party communication schemes.

 

The Vienna team used a single source of bipartite polarization entanglement, which was multiplexed into 12 wavelength channels. Six states were then distributed between four users in a fully-connected graph using only one fibre and one polarization analysis module per user.

 

Because no adaptations of the entanglement source are required to add users, the network can readily be scaled to a large number of users without requiring trust in the provider of the source.

 

This is new. Unlike previous attempts at multi-user networks, which have been based on active optical switches and are therefore limited to some duty cycle, the Vienna team's implementation is fully passive and thus has the potential for unprecedented quantum communication speeds.

 

This quantum network architecture is secure from eavesdropping or surveillance intrusion. Any attempt at hacking would disturb the fragile quantum state of the network and thus reveal the hacker's presence to the network's users. The users could then abandon the channel and use another one. The users in Wengerowsky's network prototype had three channels each. The private lines used eliminated the need for communications to pass through trusted nodes or a central hub. And the whole network is passive optics. It can be operated through standard telecomm equipment.

 

https://www.nature.com/articles/s41586-018-0766-y