Physicists Just Achieved The First-Ever Quantum Teleportation Between Computer Chips

[ps3linux]

While trying to create a new thread on the topic I found out there have been others posted as follows:

https://defence.pk/pdf/threads/phys...eleportation-between-light-and-matter.335204/

https://defence.pk/pdf/threads/quantum-teleportation-on-a-chip.368466/

https://defence.pk/pdf/threads/firs...aves-way-for-next-generation-internet.632851/

Seems the latest and one earlier thread is based upon research in Bristol so it means there is serious research going on, on the topic there and with this new article appearing in the Nature Physics they are making progress. This time through entangled particles. Good to hear.

Physicists Just Achieved The First-Ever Quantum Teleportation Between Computer Chips

DAVID NIELD
31 DEC 2019
As 2019 winds to a close, the journey towards fully realised quantum computing continues: physicists have been able to demonstrate quantum teleportation between two computer chips for the first time.

Put simply, this breakthrough means that information was passed between the chips not by physical electronic connections, but through quantum entanglement – by linking two particles across a gap using the principles of quantum physics.

We don't yet understand everything about quantum entanglement (it's the same phenomenon Albert Einstein famously called "spooky action"), but being able to use it to send information between computer chips is significant, even if so far we're confined to a tightly controlled lab environment.

"We were able to demonstrate a high-quality entanglement link across two chips in the lab, where photons on either chip share a single quantum state," explains quantum physicist Dan Llewellyn from the University of Bristol in the UK.

"Each chip was then fully programmed to perform a range of demonstrations which utilise the entanglement."

Hypothetically, quantum entanglement can work over any distance. Two particles get inextricably linked together, which means looking at one tells us something about the other, wherever it is (in this case, on a separate computer chip).

To achieve their result, the team generated pairs of entangled photons, encoding quantum information in a way that ensured low levels of interference and high levels of accuracy. Up to four qubits – the quantum equivalent of classical computing bits – were linked together.

"The flagship demonstration was a two-chip teleportation experiment, whereby the individual quantum state of a particle is transmitted across the two chips after a quantum measurement is performed," says Llewellyn.

"This measurement utilises the strange behaviour of quantum physics, which simultaneously collapses the entanglement link and transfers the particle state to another particle already on the receiver chip."

The researchers were then able to run experiments in which the fidelity reached 91 percent – as in, almost all the information was accurately transmitted and logged.

Scientists are learning more and more about how quantum entanglement works, but for now it's very hard to control. It's not something you can install inside a laptop: you need a lot of bulky, expensive scientific equipment to get it working.

But the hope is that advances in the lab, such as this one, might one day lead to advances in computing that everyone can take advantage of – super-powerful processing power and a next-level internet with built-in hacking protections.

The low data loss and high stability of the teleportation, as well as the high level of control that the scientists were able to get over their experiments, are all promising signs in terms of follow-up research.

It's also a useful study for efforts to get quantum physics working with the silicon chip (Si-chip) tech used in today's computers, and the complementary metal-oxide-semiconductor (CMOS) techniques used to make those chips.

"In the future, a single Si-chip integration of quantum photonic devices and classical electronic controls will open the door for fully chip-based CMOS-compatible quantum communication and information processing networks," says quantum physicist Jianwei Wang, from Peking University in China.

The research has been published in Nature Physics.


@jamahir , @Hamartia Antidote , @RealNapster , @fitpOsitive

 

[Armchair]

I also achieved this in my home lab today. I teleported a file from my hard drive to the USB and took it with me. Magic.

 

[ps3linux]

About Teleportation, I am as illiterate as 1 year old. So can't contribute much on that topic.
About Quantum computing. While doing my masters thesis, I was searching for some techniques to do string searching. There I came across Quantum computing techniques.
Actually the issue is, Quantum computing is an enabler technology, where parallel data processing is required. For example Genome decoding or a data base search(DNA search). But when it comes to serial data processing, Quantum doesn't offer much better(though very small, and that too due to size of processing elements).
We can safely say that some segment of processing technology market will be replaced by Quantum or Hybrid Chip, but not all of it. Data processing devices paradigm will become even more complex. If it was in my hands, I would have started a two year post-bachelors diploma, that will purely emphasis on programmable devices and programming techniques(Pure practical, that's it!!)

More on theory later, however unlike fiction quantum teleportation is instant (not FTL) communication between two point (identically Paired) entangled particles.

Now data is transmitted in classical computer from one point to another through tracks (routes) in the form of electrons and one of the important limiting factor is heat dissipation. Imagine travelling from your house to your office without the need of roads, right now only data can be transmitted through this way the longest has been about 1400km. How the data is transmitted from one point to another is the most interesting part, fiction says through fifth dimension, science says spooky behavior of quantum entangled particles.

 

[Yaseen1]

u.s already has such technology but they unveil it when they get much better technology than that so world remains behind them due to such gap

 

[jamahir]

@ps3linux, one of the links in the OP had this :

and a quantum internet could ultimately protect the worlds information from malicious attacks.

From my minimal understanding of Quantum Computing, Quantum data can be decrypted by another Quantum computer and the decryption will be known to the transmitter and receiver. But Quantum computing cannot prevent the decryption.

Am I correct ??

But when it comes to serial data processing, Quantum doesn't offer much better(though very small, and that too due to size of processing elements).

Can you please give examples for serial data processing ??

Also, will Quantum Computing be useful in embedded / realtime / machine control fields ??

 

[ps3linux]

@ps3linux, one of the links in the OP had this :

From my minimal understanding of Quantum Computing, Quantum data can be decrypted by another Quantum computer and the decryption will be known to the transmitter and receiver. But Quantum computing cannot prevent the decryption.

Am I correct ??
?

There are two different techs we are talking about quantum communication and communication between two quantum entangled particles, decryption of prior is possible by other particles, but for the later the communication cannot be decrypted, once the data leaves the particle sending it instantly reappears at the receptor (Other particle), no interception is possible, the communication is at almost the speed of light. This new research by team at bristol is about the later communication.

To be honest, Quantum is mare the surface, for Teleportation, Scientists must dig deep into sub Quarks levels. I mean, even teleportation, its all dis-assembly and then re-assembly of living matter. Apart from mare geometry and symmetry of an object, to teleport a living object, science must also have a deep grasp on life and death its self, as after re-assembly, science must also return the life to the object(or during the process of re-assembly). An spin-off of this technology will be what we call a Dajjali power, in which he will make dead people alive again.
But as I said before, I am illiterate on this topic. And Allah knows better.

[/user]

Right now we are talking about teleportation of data only, in qubits this is science; science fiction is altogether a different story the challenges are infinitesimal, disassembly of matter, convert into data, transmit that data, reassemble the data in the same manner. Current human tech has not been able to fully decode human genome the basic building block of human being, and we are talking about a whole human being I cannot even fathom the amount of data, I have no idea how many quadrillion exabytes.

 

[fitpOsitive]

There are two different techs we are talking about quantum communication and communication between two quantum entangled particles, decryption of prior is possible by other particles, but for the later the communication cannot be decrypted, once the data leaves the sending it instantly reappears at the receptor, no interception is possible, the communication is at the speed of light. This new research by team at bristol is about the later communication.




Right now we are talking about teleportation of data only, in qubits this is science; science fiction is altogether a different story the challenges are infinitesimal, disassembly of matter, convert into data, transmit that data, reassemble the data in the same manner. Current human tech has not been able to fully decode human genome the basic building block of human being, and we are talking about a whole human being I cannot even fathom the amount of data, I have no idea how many quadrillion exabytes.

Can you share the link of this data teleportation thing?

 

[ps3linux]

Can you share the link of this data teleportation thing?

Bhai the thread is about breakthrough in quantum teleportation between, two quantum entangled particles stuffed in two different microchips.

If you want theory or fiction I can post both links.

 

[xyx007]

@ps3linux, one of the links in the OP had this :

From my minimal understanding of Quantum Computing, Quantum data can be decrypted by another Quantum computer and the decryption will be known to the transmitter and receiver. But Quantum computing cannot prevent the decryption.

Am I correct ??



Can you please give examples for serial data processing ??

Also, will Quantum Computing be useful in embedded / realtime / machine control fields ??

quantum factoring is much harder in practice than might otherwise be expected. The reason is that noise becomes a significant problem for large quantum computers. And the best way currently to tackle noise is to use error-correcting codes that require significant extra qubits themselves.Taking this into account dramatically increases the resources required to factor 2048-bit numbers.Modular exponentiation, this process is the most computationally expensive operation in Shor’s algorithm. But Gidney and Ekerå have found various ways to optimize it, significantly reducing the resources needed to run the algorithm.Quantum Computer still isn't faster than old regular computer because the code required is very different than what’s used by traditional computers. Quantum computers need specialized quantum algorithms to operate—and not many exist today, it whole new Computer Science field. but for you another few hours to become superpawa in computers field in 2020....
https://economictimes.indiatimes.co...erpower-by-2012-kalam/articleshow/3005067.cms
http://www.channel4.com/news/articl...winter+survey+superpower+by+2020/3503537.html

 

[ps3linux]

A great share by @Hamartia Antidote posting the link here as well:

https://www.microsoft.com/en-us/quantum/development-kit

 

[jamahir]

but for you another few hours to become superpawa in computers field in 2020....

Well, thanks.

 

[TNT]

While trying to create a new thread on the topic I found out there have been others posted as follows:

https://defence.pk/pdf/threads/phys...eleportation-between-light-and-matter.335204/

https://defence.pk/pdf/threads/quantum-teleportation-on-a-chip.368466/

https://defence.pk/pdf/threads/firs...aves-way-for-next-generation-internet.632851/

Seems the latest and one earlier thread is based upon research in Bristol so it means there is serious research going on, on the topic there and with this new article appearing in the Nature Physics they are making progress. This time through entangled particles. Good to hear.

Physicists Just Achieved The First-Ever Quantum Teleportation Between Computer Chips

DAVID NIELD
31 DEC 2019
As 2019 winds to a close, the journey towards fully realised quantum computing continues: physicists have been able to demonstrate quantum teleportation between two computer chips for the first time.

Put simply, this breakthrough means that information was passed between the chips not by physical electronic connections, but through quantum entanglement – by linking two particles across a gap using the principles of quantum physics.

We don't yet understand everything about quantum entanglement (it's the same phenomenon Albert Einstein famously called "spooky action"), but being able to use it to send information between computer chips is significant, even if so far we're confined to a tightly controlled lab environment.

"We were able to demonstrate a high-quality entanglement link across two chips in the lab, where photons on either chip share a single quantum state," explains quantum physicist Dan Llewellyn from the University of Bristol in the UK.

"Each chip was then fully programmed to perform a range of demonstrations which utilise the entanglement."

Hypothetically, quantum entanglement can work over any distance. Two particles get inextricably linked together, which means looking at one tells us something about the other, wherever it is (in this case, on a separate computer chip).

To achieve their result, the team generated pairs of entangled photons, encoding quantum information in a way that ensured low levels of interference and high levels of accuracy. Up to four qubits – the quantum equivalent of classical computing bits – were linked together.

"The flagship demonstration was a two-chip teleportation experiment, whereby the individual quantum state of a particle is transmitted across the two chips after a quantum measurement is performed," says Llewellyn.

"This measurement utilises the strange behaviour of quantum physics, which simultaneously collapses the entanglement link and transfers the particle state to another particle already on the receiver chip."

The researchers were then able to run experiments in which the fidelity reached 91 percent – as in, almost all the information was accurately transmitted and logged.

Scientists are learning more and more about how quantum entanglement works, but for now it's very hard to control. It's not something you can install inside a laptop: you need a lot of bulky, expensive scientific equipment to get it working.

But the hope is that advances in the lab, such as this one, might one day lead to advances in computing that everyone can take advantage of – super-powerful processing power and a next-level internet with built-in hacking protections.

The low data loss and high stability of the teleportation, as well as the high level of control that the scientists were able to get over their experiments, are all promising signs in terms of follow-up research.

It's also a useful study for efforts to get quantum physics working with the silicon chip (Si-chip) tech used in today's computers, and the complementary metal-oxide-semiconductor (CMOS) techniques used to make those chips.

"In the future, a single Si-chip integration of quantum photonic devices and classical electronic controls will open the door for fully chip-based CMOS-compatible quantum communication and information processing networks," says quantum physicist Jianwei Wang, from Peking University in China.

The research has been published in Nature Physics.


@jamahir , @Hamartia Antidote , @RealNapster , @fitpOsitive

There is also alot of research (mostly theoretical) going on about how the information is passed instantly with zero delay. I am also involved with one such group but facing difficulties. Our main concept revolves around understanding entanglement. If particles are entangled through many dimensions, spatially separating them in our 4 dimensional world doesnt necessarily separate them in other dimensions and hence it acts as if there is zero separation. This also means there must be then energy leakages from one dimension to the other, n thus searching for such leakages can give us proof. Its all theory and the mathematics is actually not adding up and frankly we r not able to express it mathematically.