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Week 11 [09.01-15.01] Quantum Entanglement - the future of communication?


Have you ever thought about faster-than-light communication? Can you imagine a mechanism that would allow you to instantaneously exchange the information over arbitrarily large distances?
Well, this is exactly what many people were thinking about when the scientists revealed the theory behind quantum entanglement. Before you get too excited, be aware that physicists had already agreed that the quantum entanglement does not contradict Albert Einstein’s theory of relativity and yes, it basically means that the faster-than-light (FTL) communication is not possible. However, the entanglement phenomenon is still having a great potential to be a technological breakthrough in telecommunication. Why? We will get to that soon, but first let's try to explain to ourselves what the quantum entanglement really is.
 
The theory says that each fundamental particle has a property called “spin”. This property can be measured once we choose the direction in which to measure it. Such measurement can only have one of the two outcomes, either “up” or “down”.
Now imagine you have a pair of entangled particles. Assuming you are a very generous person, you will give one particle to Alice and the other one to Bob. In order to show Alice and Bob how special their new entangled particles are you will ask them to measure a spin of the particle. This is where the magic happens. Let’s say that the outcome of the Bob’s measurement was “up”. At this point, Bob already knows that the outcome of the same measurement of the Alice particle must be “down”. This correlation is what Einstein referred to as “spooky action at a distance”. It really is spooky, because experiments proved that it works and yet scientists have no idea how. This is all great, but how Alice knows what the spin of her particle is? She could also do a series of measurements, but neither Bob nor Alice would see the correlation unless they tell each other the outcomes of their measurements and compare. They can only do that by means of some known communication which by definition is no faster than light. The key thing to remember is that we are not transmitting any information during the process of measurement. The state of the other particle is the information that we deduce from the outcome of our measurement and we get that information at the moment we obtain the results which are random.
If you need to get your head around the quantum entanglement a bit more, I recommend you watch the video below.



We now have the idea what the quantum entanglement is all about and why it does not allow for FTL communication. It does, however, allow for a hack-proof communication, which, if successful, could be the next big thing in IT.

Quantum cryptography is a science which focuses on exploiting quantum mechanical properties that can be used to encode information. The best known example of quantum cryptography is quantum key distribution (QKD) and the first protocol was invented in 1984 by Charles H. Bennett and Gilles Brassard (since the name BB84).
As with all scientific discoveries, we had to wait for a couple of years, but thanks to the technological advances QKD systems are now becoming a reality.
 
On August 16, 2016, China successfully launched the world’s first quantum satellite. This satellite, officially known as QUESS and nicknamed Micius, will be responsible for transmitting uncrackable keys from space to the ground. The idea is that the satellite will orbit the Earth once every 90 minutes at an altitude of 500 km and it will beam entangled photons to two ground stations, approximately 1,200 km apart. People at two ground stations can then use the obtained set of entangled photons to generate an encryption key by teleporting quantum information between the entangled particles. The laws of quantum mechanics ensure that any attempt by a third party to intercept or measure the message can be immediately detected by the other two parties. This means that a given key can be easily classified as compromised and rejected before the actual encrypted communication begins.
 

“If QUESS is successful, China hopes to erect an Asian-European quantum key distribution network by 2020, and a global quantum communications network in 2030.” (https://www.rt.com/news/356086-china-quantum-communications-satellite/).

The quantum space race has only just begun. One thing scientists know for sure is that the world of quantum mechanics is still waiting to be explored.

Did you know about quantum entanglement?
Do you believe that it can truly revolutionize telecommunication?
Do you know any other promising implications of quantum entanglement?

For those of you who want to learn more about different experiments concerning quantum communication I recommend you watch this talk https://www.youtube.com/watch?v=PDGqJyKgHJI by Anton Zeilinger (one of the pioneers of quantum mechanics).

Sources:
http://www.forbes.com/sites/chadorzel/2016/05/04/the-real-reasons-quantum-entanglement-doesnt-allow-faster-than-light-communication/2/#1b615b476d3f
https://en.wikipedia.org/wiki/Quantum_key_distribution
http://www.space.com/33760-china-launches-quantum-communications-satellite.html
https://www.rt.com/news/356086-china-quantum-communications-satellite/
http://www.popsci.com/chinas-quantum-satellite-could-change-cryptography-forever http://qz.com/760804/chinas-new-quantum-satellite-will-try-to-teleport-data-outside-the-bounds-of-space-and-time-and-create-an-unbreakable-code/


Comments

Piotr Basiński said…
Did you know about quantum entanglement?
I knew nothing about quantum entanglement. It was not until I learned by reading this article.

Do you believe that it can truly revolutionize telecommunication?
I'm not convinced. Nowadays, you can always discover something new, so that the technology can already be as good than what is described in this article.
Do you know any other promising implications of quantum entanglement?
I do not know other promising of quantum entanglement
Unknown said…
Ofcourse I knew about quantum entanglement. Quantum physics is one of my favourite topics. To me it's like magic that is real, actually confirmed in laboratories. Many people consider it some science fiction stuff.

It will have huge implications on our technology, general understading of universe and even philosophy. Some scientists theoretize that our brains could be working the way they are due to quantum entanglement. That opens possibility of identifing human soul-like entity without violating logic or physics.

I've actually written an article about 'delayed choice double slit experiment' which shows that quantum-entanglement can transfer quantum pseudo-data not only in space but backwards in time as well. I also have written a short story lousy based on quantum phenomena. Both article and story are linked below (unfortunatly in polish ;P).

https://drive.google.com/file/d/0B8hZMGjJvqffelZEamZYVm5fS0k/view?usp=sharing

https://drive.google.com/open?id=0B8hZMGjJvqffWTZjOTlfenhfakE
What do you mean by "you can always discover something new, so that the technology can already be as good than what is described in this article"? Do you know any other discovery/phenomena that could revolutionize telecommunication in the next 10 years? Please share with us.
Yeah, quantum entanglement is a magic and it will be interesting to see if someone will actually manage to explain this magic. Thanks for sharing your article and story, looks like a great read for the evening!
Ihor Ahnianikov said…
Wow, that's a really interesting topic. I've heard about this phenomena, but on the Wikipedia level. It's pretty obvious that it can revolutionize practically everything related to communication, immediate transfer of information sounds like something magical.
Unknown said…
It doesn’t convey anything a regular signal couldn’t, it just conveys a normal message faster than a light beam could travel between the particles – if it worked. Since its impossible for this to work, and there’s nothing hypothetically difficult about setting up the “sending” station (in fact, any time we do an experiment with entangled particles and observe one’s properties, we are doing something equivalent to my ‘sending’ station), that must mean the configuration of the “receiving” station is a physical impossibility. Which was my point. It is impossible to set up a system such that you notice (without triggering) when an entangled, indeterminate state particle becomes determinate due to some physical process not having to do with your observational equipment. Because if that were possible, you could use it for FTL information exchange. Again, not trying to fix which quantum state you get, but by controlling and manipulating the delta t between triggering events.
Bare in mind that there is no data transfer between the entangled particles (at least none that we could actually observe/detect) and it is stated in the article. Nevertheless, the quantum entanglement has many other applications related to communication; quantum cryptography being one of them.
Not exactly. There is no data transfer between entangled particles and therefore FTL communication is not possible. It does, however, allow for quantum key distribution and the QUESS program is here to test this phenomena. You can find out more about it here https://directory.eoportal.org/web/eoportal/satellite-missions/content/-/article/que-1. I also recommend you to watch this (https://www.youtube.com/watch?v=CC_XES4xQD4) video to better understand the phenomenon of quantum entanglement.
Unknown said…
I have both read and heard of this topic before, but also on the introductory level. I agree with the common opinion it may change and improve the communication speed and methods significantly and radically. It could probably introduce all sorts of new and innovative ways of signal, data or information transferring in relation to communication spread. Thank you for the links, I surely think it is easier to actually hear about it when it is being explained than just read about it.
Unknown said…
This comment has been removed by the author.
Bartosz Łyżwa said…
I haven't heard about this technology before. It's very interesting and if it's true it could revolutionize communication. I hope that QUESS will pass test successfully.
Let's keep our fingers crossed :)
Adam Nowak said…
Quantum mechanics is so counterintuitive that i always wonder how it is possible. I really beleive that sometime someone will come with different and better interpretation of those quantum effects. Quantum entanglement have an application in quantum computing as far as i know, but i haven't read a lot about it.

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