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Physics Mystery Solved: Findings Could “Revolutionize” Our Understanding of Distance
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Rather than start a new topic, I've decided to add this update about Quantum Computing in Terraformer's topic from 2012
I find it appropriate for another reason ... the work reported is taking place in *Ta Ta" ** England **.
https://www.yahoo.com/news/quantum-brea … 05702.html
BBC
Quantum breakthrough could revolutionise computingPallab Ghosh - Science correspondent
Wed, February 8, 2023 at 6:10 AM EST
Winfried Hensinger
Twenty years ago Winfried Hensinger was told by other scientists that developing a powerful quantum computer was impossible. Now he has made the system behind him that he believes will prove them wrong
Scientists have come a step closer to making multi-tasking 'quantum' computers, far more powerful than even today's most advanced supercomputers.
Quantum computers make use of the weird qualities of sub-atomic particles.
So-called quantum particles can be in two places at the same time and also strangely connected even though they are millions of miles apart.
A Sussex University team transferred quantum information between computer chips at record speeds and accuracy.
Chip
The researchers connected two chips together and sent record amounts of quantum information at unprecedented speeds and reliability
Computer scientists have been trying to make an effective quantum computer for more than 20 years. Firms such as Google, IBM and Microsoft have developed simple machines. But, according to Prof Winfried Hensinger, who led the research at Sussex University, the new development paves the way for systems that can solve complex real world problems that the best computers we have today are incapable of."Right now we have quantum computers with very simple microchips," he said. "What we have achieved here is the ability to realise extremely powerful quantum computers capable of solving some of the most important problems for industries and society."
Rolls Royce
Rolls-Royce is investing in quantum computing research to see if it can speed up the design process for their aircraft engines
Currently, computers solve problems in a simple linear way, one calculation at a time.In the quantum realm, particles can be in two places at the same time and researchers want to harness this property to develop computers that can do multiple calculations all at the same time.
Quantum particles can also be millions of miles apart and be strangely connected, mirroring each other's actions instantaneously. Again, that could also be used to develop much more powerful computers.
Cleanroom
The quantum computer chips have to be set up in a clean room an put into a vacuum container as even the slightest contamination can reduce its performance
One stumbling block has been the need to transfer quantum information between chips quickly and reliably: the information degrades, and errors are introduced.But Prof Hensinger's team has made a breakthrough, published in the journal Nature Communications, which may have overcome that obstacle.
The team developed a system able to transport information from one chip to another with a reliability of 99.999993% at record speeds. That, say the researchers, shows that in principle chips could be slotted together to make a more powerful quantum computer.
Sarha
The research team can see individual atoms floating above their chips as the test out their quantum computer
Prof Michael Cuthbert, who is the director of the newly established National Quantum Computing Centre in Didcot, Oxfordshire and is independent of the Sussex research group described the development as a "really important enabling step". But he said that more work was needed to develop practical systems."To build the type of quantum computer you need in the future, you start off by connecting chips that are the size of your thumbnail until you get something the size of a dinner plate. The Sussex group has shown you can have the stability and speed for that step.
"But then you need a mechanism to connect these dinner plates together to scale up a machine, potentially as large as a football pitch, in order to carry out realistic and useful computations, and the technology for communications for that scale is not yet available."
Entanglement
Quantum computers harness two weird properties of particles at the very small scale - they can be in two places at the same time and be strangely connected even though they are millions of miles apart.
PhD student Sahra Kulmiya, who carried out the Sussex experiment, says that the team are ready for the challenge to take the technology to the next level."It is not just solely a physics problem anymore," she told BBC News.
"It is an engineering problem, a computer science problem and also a mathematical problem.
"It is really difficult to say how close we are to the realisation of quantum computing, but I'm optimistic in how it can become relevant to us in our everyday lives."
One of the UK's leading engineering firms, Rolls Royce, is also optimistic about the technology. It is working with the Sussex researchers to develop machines that could help them design even better jet engines.
Powerful supercomputers are used to model the flow of air in simulations to test out new designs of aircraft engines.
Transforming engineering
A quantum computer could in principle track the airflow with even greater accuracy, and do so really quickly, according to Prof Leigh Lapworth, who is leading the development of quantum computing for Rolls-Royce."Quantum computers would be able to do calculations that we can't currently do and others that would take many months or years. The potential of doing those in days would just transform our design systems and lead to even better engines."
The technology could potentially also be used to design drugs more quickly by accurately simulating their chemical reactions, a calculation too difficult for current supercomputers. They could also provide even more accurate systems to forecast weather and project the impact of climate change.
Prof Hensinger said he first had the idea of developing a quantum computer more than 20 years ago.
"People rolled their eyes and said: 'it's impossible'."
"And when people tell me something can't be done, I just love to try. So I have spent the past 20 years removing the barriers one by one to a point where one can now really build a practical quantum computer."
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Here is another article about research in Quantum Physics...
https://www.msn.com/en-us/news/technolo … 420f8dd7ba
Shorter Url:
https://english.elpais.com/science-tech … us%20state
Imagine you are 40-something and want to go on a date looking like you did 20 years ago. This is impossible in the classical physical world but not in the quantum world, which refers to the subatomic particles that are the foundation for all reality. Miguel Navascués and David Trillo, Spanish researchers from the Institute of Quantum Optics and Quantum Information (IQOQI) of the Austrian Academy of Sciences (ÖAW), conducted several studies with Austrian researcher Philip Walther and the University of Vienna’s experimental physics group. The team published papers in Physical Review X, Quantum, Arxiv, Physical Review Letters and Optica on theoretical research and experiments proving it’s possible to “accelerate, decelerate and reverse the flow of time within arbitrary, even uncontrolled quantum systems.” These unique physical processes, capable of disrupting the normal course of time, are universal: they have the same effect on all particles, regardless of their nature and interaction with other systems.
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Physicists Rewrite a Quantum Rule That Clashes With Our Universe
https://www.quantamagazine.org/physicis … -20220926/
an older discussion
https://newmars.com/forums/viewtopic.php?id=6829
Quantum entaglement as propulsion - Interstellar spaceflight possible?
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An unanticipated polarisation of high-energy X-rays has been discovered by combining two instruments, one originally developed at ISAS for space science. The result will help interpret astronomical observations, and test physics theories.
https://twitter.com/ISAS_JAXA_EN/status … 3312898048
Unprecedented Breakthrough in Manipulating “Quantum Light”
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Scientists 'control' quantum light for the first time, achieving landmark
https://interestingengineering.com/scie … first-time
,
https://scitechdaily.com/unprecedented- … tum-light/
The quantum revolution: ‘Spooky action’
https://www.ft.com/content/d75df4ab-254 … 5aa4fda0db
An expanding universe is simulated in a quantum droplet
https://physicsworld.com/a/an-expanding … m-droplet/
Co-author Stefan Floerchinger asks Is the standard textbook theory complete, or are there ways to look back to the period before inflation by investigating quantum fluctuations
Last edited by Mars_B4_Moon (2023-03-22 07:46:22)
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and still no spooky wormholes
Chinese researchers say they have made a fundamental breakthrough in enabling a future quantum internet - a tandem internet to today's, that will be interlinked quantum computers.
https://phys.org/news/2023-11-quantum-s … lecom.html?
The researcher's breakthrough is in finding a way that entangled quanta of light can use today's fiber-optic cable technology to transmit at long distances. This is important because it means the future quantum internet can be built quickly and inexpensively from common mass-produced materials.
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This topic created by Terraformer seems a good place to drop off this article, which is based upon a newly published book on Quantum Physics.
https://getpocket.com/explore/item/spac … wtab-en-us
The article is lengthy. I'll attempt to highlight a key concept.... The author attempts to account for the entanglement noted by Terraformer and Mars_B4_Moon by suggesting that the entire universe is digital, and that the "laws" (such as of thermodynamics) are averages of many quantum events, leaving plenty of room for departures from the average, which quantum entanglement would be. The author also paints a picture of causality as digitized. The article includes an estimate of the number of discrete events occurring in a cubic centimeter of matter in one interval of time.
The details are unimportant, especially at this early stage. But the takeaway lesson is that the intuitive idea that objects influence each other because they are close in space is soon to become another of those easy beliefs that turn out to be wrong when we look deeper. The smoothness of space is soon to become an illusion that hides a tiny and complex world of causal interactions, which do not live in space—but which rather define and create space as they create the future from the present.
Lee Smolin is a senior, and founding, faculty member at the Perimeter Institute for Theoretical Physics in Waterloo, Ontario, and adjunct professor of physics at the University of Waterloo. In addition to his work on quantum gravity, he is interested in elementary particle physics, cosmology and the foundation of quantum theory. His latest book is Einstein's Unfinished Revolution, published by Penguin.
The views expressed are those of the author(s) and are not necessarily those of Scientific American.
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