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Showing posts with label quantum mechanics. Show all posts
Showing posts with label quantum mechanics. Show all posts

Saturday 27 June 2015

D-Wave promises chip that could SEARCH THE WHOLE UNIVERSE

1k-qubit chip late, still controversial


The 1,000-qubit chip promised by D-Wave last year has landed.

FOR MORE THAN two decades, one of the holy grails of physics has been to build a quantum computer that can process certain types of large-scale, very difficult problems exponentially faster than classical computers. Physicists are making progress toward this goal every day, but nearly every part of a quantum computer still needs re-engineering or redesign to make it all work. 

With companies like Google and Microsoft seriously pursuing the subject of quantum computing, progress towards creating a indisputable quantum computer is likely to speed up. I say an “indisputable” quantum computer because the Canadian company D-Wave already has a quantum computer on the market; but, scientists are torn over whether it truly operates as a quantum computer. 

The 1,000-plus-qubit device was originally planned for the end of 2014.

The doubling of qubits over its previous processor, the company says, gives it a 21000 search space – not only dwarfing the previous 2512 search space, but containing “far more possibilities than there are particles in the observable universe”.

The processors also contain 128,000 Josephson tunnel junctions, the outfit says, which it reckons are “the most complex superconductor integrated circuits ever successfully yielded”.

Just what that means out in the world of computing, we'll have to wait and see. The Register expects the new processor will result in yet more is-it-quantum academic debate in paper and counter-paper (Arxiv should be worth watching) once researchers get their hands on test systems.

At least some aspects of the new chip are familiar, such as discussions about manufacturing yield.

To get the 1,000 qubits – actually 1,152 – the company is fabricating a 2,048 qubit “fabric”.

It then has to run each device through a qualification process to see which qubits are within the performance range, since it says “magnetic offsets and manufacturing variability” disqualify some qubits.

D-Wave says the new processors will land in hardware “soon”. 

Source : The Register

Monday 30 March 2015

What Is Dark Matter? Colliding Galaxy Clusters May Help Find Answer

Dark matter is a hypothetical kind of matter that cannot be seen with telescopes but accounts for most of the matter in the universe.  Dark matter is estimated to constitute 84.5% of the total matter in the universe. It has not been detected directly, making it one of the greatest mysteries in modern astrophysics.

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Hubble Image of Galactic Collision 

A study of 72 large cluster collisions shows how dark matter in galaxy clusters behaves when they collide.

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Image Showing How two Galaxies Collides


Astronomers have used data from NASA’s Hubble Space Telescope and the Chandra X-ray Observatory to find that dark matter interacts with itself less than previously thought. In an effort to learn more about dark matter, astronomers observed how galaxy clusters collide with each other -- an event that could hold clues about the mysterious invisible matter that makes up most of the mass of the universe.

As part of a new study, published in the journal Science on Thursday, researchers used the Hubble telescope to map the distribution of stars and dark matter after a collision. They also used the Chandra observatory to detect the X-ray emission from colliding gas clouds.

“Dark matter is an enigma we have long sought to unravel,” John Grunsfeld, assistant administrator of NASA’s Science Mission Directorate in Washington, said in a statement. “With the combined capabilities of these great observatories, both in extended mission, we are ever closer to understanding this cosmic phenomenon.”

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Here are images of six different galaxy clusters taken with NASA's Hubble Space Telescope (blue) and Chandra X-ray Observatory (pink) in a study of how dark matter in clusters of galaxies behaves when the clusters collide. A total of 72 large cluster collisions were studied.  NASA and ESA

According to scientists, galaxy clusters are made of three main components -- galaxies, gas clouds and dark matter. During collisions, the gas clouds bump into each other and gradually slow down. Galaxies, on the other hand, are much less affected by this process, and because of the huge gaps between the stars within them, galaxies do not slow each other down.

“We know how gas and stars react to these cosmic crashes and where they emerge from the wreckage,” David Harvey of the École Polytechnique Fédérale de Lausanne in Switzerland, and the study’s lead author, said in the statement. “Comparing how dark matter behaves can help us to narrow down what it actually is.”

The researchers studied 72 large galaxy cluster collisions and found that, like galaxies, the dark matter continued straight through the collisions without slowing down much, meaning that dark matter do not interact with visible particles.

“There are still several viable candidates for dark matter, so the game is not over. But we are getting nearer to an answer,” Harvey said.

Source : IBT times