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Archive for the ‘quantum physics’ category: Page 662

Sep 23, 2018

Google, JPMorgan Chase & Co, IBM, Other Key Companies To Attend White House Quantum Computing Meeting

Posted by in categories: quantum physics, robotics/AI, transportation

Quantum computing ‘will enable us to predict and improve chemical reactions, new materials and their properties, as well as provide new understandings of spacetime and the emergence of our universe,’ the White House said.

Google, IBM, JPMorgan Chase & Co., and other key U.S. companies are set to attend a White House quantum computing meeting to be held on Monday, Reuters reports.

A groundbreaking technology still in its infancy, quantum computing could have a major impact on transportation, healthcare, communications, weather forecasting, artificial intelligence, and other areas. Quantum computing could, experts claim, revolutionize our society.

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Sep 21, 2018

What Will Quantum Computer Games Be Like?

Posted by in categories: computing, entertainment, quantum physics

You’ve just booted up a game on a state-of-the-art quantum computer. You’re running 19 superconducting quantum bits on a processor held at near absolute zero. Anticipating its sheer power, you press start and…

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Sep 21, 2018

New Microscope Shows the Quantum World in Crazy Detail

Posted by in categories: biotech/medical, quantum physics

The transmission electron microscope was designed to break records. Using its beam of electrons, scientists have glimpsed many types of viruses for the first time. They’ve used it to study parts of biological cells like ribosomes and mitochondria. You can see individual atoms with it.

But experts have recently unlocked new potential for the machine. “It’s been a very dramatic and sudden shift,” says physicist David Muller of Cornell University. “It was a little bit like everyone was flying biplanes, and all of a sudden, here’s a jetliner.”

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Sep 21, 2018

New observations to understand the phase transition in quantum chromodynamics

Posted by in categories: cosmology, particle physics, quantum physics

The building blocks of matter in our universe were formed in the first 10 microseconds of its existence, according to the currently accepted scientific picture. After the Big Bang about 13.7 billion years ago, matter consisted mainly of quarks and gluons, two types of elementary particles whose interactions are governed by quantum chromodynamics (QCD), the theory of strong interaction. In the early universe, these particles moved nearly freely in a quark-gluon plasma. Then, in a phase transition, they combined and formed hadrons, among them the building blocks of atomic nuclei, protons and neutrons.

In the current issue of Nature, an international team of scientists has presented an analysis of a series of experiments at major particle accelerators that sheds light on the nature of this transition. The scientists determined with precision the transition temperature and obtained new insights into the mechanism of cooling and freeze-out of the -gluon plasma into the current constituents of matter such as protons, neutrons and . The team of researchers consists of scientists from the GSI Helmholtzzentrum für Schwerionenforschung in Darmstadt, and from the universities of Heidelberg and Münster (Germany), and Wroclaw (Poland).

A central result: The record-breaking high-energy experiments with the ALICE detector at the Large Hadron Collider (LHC) at the research center CERN produced matter in which particles and antiparticles coexisted in equal amounts, similar to the conditions in the . The team has confirmed via analysis of the experimental data theoretical predictions that the phase transition between and hadronic matter takes place at the temperature of 156 MeV, 120,000 times higher than that in the interior of the sun.

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Sep 19, 2018

For Tiny Light Particles, ‘Before’ and ‘After’ Mean Nothing

Posted by in categories: particle physics, quantum physics

In the quantum world, the concepts of ‘before’ and ‘after’ can blend together.

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Sep 18, 2018

Modified superconductor synapse reveals exotic electron behavior

Posted by in categories: business, particle physics, quantum physics

Electrons tend to avoid one another as they go about their business carrying current. But certain devices, cooled to near zero temperature, can coax these loner particles out of their shells. In extreme cases, electrons will interact in unusual ways, causing strange quantum entities to emerge.

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Sep 18, 2018

Does IBM Have The Quantum Advantage?

Posted by in categories: computing, quantum physics

At the latest TechCrunch Disrupt conference IBM provided a visionary speech on the future of compute using quantum computing. IBM Research COO Dario Gil gave a very cogent description of quantum computing and how it will change the computing landscape in the near future.

Quantum computing is a very complex and esoteric technology to try to explain to an audience of entrepreneurs and developers looking to raise money for the next Snapchat. Interestingly enough, there was a quantum computing start up at Disrupt, Rigetti Computing, pitching a quantum computing cloud service. IBM introduced its quantum computing cloud service in May 2016.

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Sep 18, 2018

Reimagining of Schrödinger’s cat breaks quantum mechanics — and stumps physicists

Posted by in category: quantum physics

In a multi-‘cat’ experiment, the textbook interpretation of quantum theory seems to lead to contradictory pictures of reality, physicists claim.

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Sep 18, 2018

Quantum theory cannot consistently describe the use of itself

Posted by in category: quantum physics

Quantum mechanics is expected to provide a consistent description of reality, even when recursively describing systems contained in each other. Here, the authors develop a variant of Wigner’s friend Gedankenexperiment where each of the current interpretations of QM fails in giving a consistent description.

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Sep 17, 2018

Bizarre Physics Phenomenon Suggests Objects Can Be Two Temperatures at Once

Posted by in category: quantum physics

The first new uncertainty principle to be formulated in decades helps explain why a quantum object can be two temperatures at once.

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