The LIGO gravitational wave observatory in the United States is so sensitive to vibrations it can detect the tiny ripples in space-time called gravitational waves. These waves are caused by colliding black holes and other stellar cataclysms in distant galaxies, and they cause movements in the observatory much smaller than a proton. Now we have used this sensitivity to effectively chill a 10-kilogram mass down to less than one billionth of a degree above absolute zero. Temperature is a measure of how much, and how fast, the atoms and molecules that surround us (and that we are made of) are…This story continues at The Next Web
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Mirrors of the LIGO gravitational-wave detector get cool—extremely cool.
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(University of Wisconsin-Madison) Quantum computers could outperform classical computers at many tasks, but only if the errors that are an inevitable part of computational tasks are isolated rather than widespread events. Now, researchers at the University of Wisconsin-Madison have found evidence that errors are correlated across an entire superconducting quantum computing chip -- highlighting a problem that must be acknowledged and addressed in the quest for fault-tolerant quantum computers.
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(University of Kent) Research led by the University of Kent and the STFC Rutherford Appleton Laboratory has resulted in the discovery of a new rare topological superconductor, LaPt3P. This discovery may be of huge importance to the future operations of quantum computers.
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The reports of humanity’s imminent demise at the hands of sentient killer robots have been greatly exaggerated. Based on the current state of artificial intelligence – that is, it’s really good at sifting through data and it can usually tell the difference between a dog and a cat – we don’t have to worry about “conscious” AI anytime soon. I put “conscious” in quotes because, as every article you’re likely to read on the subject will point out, we don’t really understand consciousness. There’s a contingency of experts who believe consciousness manifests in specialty organisms and there’s an emergent group…This story continues at The Next Web
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Global quantum computing market is projected to register a healthy CAGR of 29.5% in the forecast period of 2020 to 2026.Quantum computing is an advanced developing computer technology which is based on the quantum mechanics and quantum theory.The quantum computer has been used for the quantum computing which follows the concepts of quantum physics.The quantum computing is different from the classical computing in terms of speed, bits and the data.A large scale quantum computing market research report is packed with key data and analysis and is the best way to get smart quickly on an industry.Primary and secondary research has been creatively combined to offer the best market report, which not only provides latest information but also helps to grow.This market report gives an all-round view of the industrial trends and complete picture of the market forces & industrial growth rates.
(Heriot-Watt University) The world is one step closer to ultimately secure conference calls, thanks to a collaboration between Quantum Communications Hub researchers and their German colleagues, enabling a quantum-secure conversation to take place between four parties simultaneously.
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(University of Groningen) Physicists in Israel have created a quantum interferometer on an atom chip. This device can be used to explore the fundamentals of quantum theory by studying the interference pattern between two beams of atoms. University of Groningen physicist, Anupam Mazumdar, describes how the device could be adapted to use mesoscopic particles instead of atoms. This modification would allow for expanded applications.
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(University of California - Santa Barbara) John Martinis is awarded the John Stewart Bell Prize for Research on Fundamental Issues in Quantum Mechanics and Their Applications.
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(Forschungszentrum Juelich) Quantum systems are considered extremely fragile. Even the smallest interactions with the environment can result in the loss of sensitive quantum effects. In the renowned journal Science, however, researchers from TU Delft, RWTH Aachen University and Forschungszentrum Jülich now present an experiment in which a quantum system consisting of two coupled atoms behaves surprisingly stable.
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We don’t know very much about our universe. We’re fairly certain it exists, but we don’t know how it got here, how long it’s been here, or how big it is. Heck, we don’t even know if our universe is unique. Ever since Albert Einstein came up with the theory of relativity and other scientists realized that classical physics and quantum mechanics don’t really line up, we’ve been trying to reconcile those worlds. Many theoretical physicists believe that bridging the gap between obvious reality (classical physics) and the wacky quantum realm could help us finally understand the true nature of…This story continues at The Next Web
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Global quantum computing market is projected to register a healthy CAGR of 29.5% in the forecast period of 2020 to 2026.Quantum computing is an advanced developing computer technology which is based on the quantum mechanics and quantum theory.The quantum computer has been used for the quantum computing which follows the concepts of quantum physics.The quantum computing is different from the classical computing in terms of speed, bits and the data.A large scale quantum computing market research report is packed with key data and analysis and is the best way to get smart quickly on an industry.Primary and secondary research has been creatively combined to offer the best market report, which not only provides latest information but also helps to grow.This market report gives an all-round view of the industrial trends and complete picture of the market forces & industrial growth rates.
Classical and Quantum computers both serve to resolve problems, however, the way they manage data to obtain answers is significantly different.Let us break down the two concepts to get a clearer understanding of what these computers are capable of.Unlike traditional computing which has standardized languages such as Python, SQL, Java, etc, this quantum computing does not possess its programming code and needs the development and implementation of highly specific algorithmsQuantum computers process data and information in a quite different way than traditional computers.The latest generation of supercomputers utilizes knowledge and principles of quantum mechanics,Quantum computers create large multidimensional spaces to express those very large problems.Classical supercomputers cannot provide this.Discover more - What is Quantum Computing and How Does It Works
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If you don’t finish reading this article it may never be written. If that’s not incentive to abandon a boring news piece, we’re not sure what is. A team of researchers from Australia recently published a new take on Wigner’s Friend that’s pretty mind-blowing. At the risk of sounding hyperbolic: this might be the most exciting quantum physics theory since Schrodinger’s Cat. Wigner’s Friend is a theory posited by Eugene Wigner in 1961. A really dumbed-down version of it goes like this: Wigner and his friend decide to do an experiment at a quantum physics laboratory. Wigner stays outside of…This story continues at The Next Web
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(University of Vienna) Quantum mechanics is famous for its indeterminism, but we can usually use probabilities to quantify our uncertainty about future observations. However, a team of researchers at the University of Vienna, the IQOQI Vienna (Austrian Academy of Sciences) and the Perimeter Institute for Theoretical physics have recently shown that in certain extreme quantum scenarios it is not possible to make such probabilistic predictions, provided that certain key assumptions of quantum mechanics hold true.
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(University of Gothenburg) Quantum mechanics can be used to create more stable and more easily produced organic solar cells. These are the findings of new research from the University of Gothenburg.
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There’s no proof you’re going to die. Don’t take that the wrong way; there’s a lot of evidence. But proof is for math, and death is only certain in retrospect. That’s why any research that pushes the boundaries of what we can observe, test, and replicate when it comes to the wacky world of quantum mechanics is exciting. Spooky action at a distance could be our ticket to immortality. An international team of researchers recently published work demonstrating quantum entanglement at an unprecedented macro-scale. Per a report from Science Alert’s David Nield: The dimensions involved are still very small from…This story continues at The Next Web
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There can be various models of this present reality, every ward on math, anyway they can't all be right. The articulation "yet the science works" implies in a real sense nothing. Since math predicts the opportunity of some kind of plan and substance, or some law, relationship or decide that the Cosmos may have, doesn't of need make it so. An ideal portrayal where the math worked anyway the Cosmos didn't come for the ride was the exceptionally delegated loading on those epicycles upon epicycles to explain the development of the planets. It finally got so awkward that the youngster was thrown out with the bathwater and another baby considered, that being that the Earth was essentially one more planet and not at the point of convergence of life, the Universe and everything. At whatever point it was guessed that the Earth bypassed the Sun, planetary development turned into all-great - mathematically into the correct spot moreover.
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Number juggling is an instrument that from the start gauge endeavors to think about the possibility of genuinely authentic reality. Further, our number juggling are coordinated to reflect our version of reality reliant upon our insights not of need what genuinely happens. The ideal model is Quantum Mechanics. For example, we may not know, even can't know even on a fundamental level, decisively where an atom is similarly as all the while where it is going with 100% precision. So we plan a kind of probability science like the Schrodinger Equation or the condition that directs the Heisenberg Uncertainty Principle. Those conditions are for our brightening yet they don't change the really certified reality sureness that the atom has genuine sorts out and is going from A to B. Probability in Quantum Mechanics, and the mathematical conditions related with it, are just reflections on the limitations of the human observer and human instrumentation, not a reflection on Mother Nature's really certified reality.
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There's little uncertainty that arithmetic standards the truth perch with regards to the laws, standards and connections inside the sciences by and large and the actual sciences specifically. Further, math assumes a predominant part with regards to the absolutely monetary parts of our lives and where might sports be without insights? Be that as it may, when it comes down to main issue at hand, what amount of truly genuine the truth is really reflected in our math? Science is only a shorthand mental idea that reproduces reality, or approximates reality or a potential reality or even a fanciful/unimaginable 'reality'. You can numerically control the supposed additional measurements in String Theory yet that doesn't mean of need that these additional measurements really exist. For instance, we may not know, even can't know even on a basic level, precisely where a molecule is just as simultaneously where it is going with 100% exactness.
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