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Mar 2, 2020

Realization of efficient quantum gates with a superconducting qubit-qutrit circuit

Posted by in categories: computing, quantum physics

Circa 2019 the quantum computer could control time.


Scientific Reports volume 9, Article number: 13389 ( 2019 ) Cite this article.

Mar 2, 2020

Trillions of Earths, 300 Sextillion Stars Say Scientists

Posted by in category: space

The universe just got a lot more crowded. According to a new study, there may be three times as many stars in the universe as previously thought. How many? Three-hundred sextillion. How many is 300 sextillion? Behold:

300,000,000,000,000,000,000,000

That is, as the Associated Press points out, three trillion times 100 billion.

Mar 2, 2020

Scientists Claim to Have Found The First Known Extraterrestrial Protein in a Meteorite

Posted by in category: space

A new discovery could be a clue for us to see if life could emerge elsewhere in the Solar System. Using a new analysis technique, scientists think they have found an extraterrestrial protein, tucked inside a meteorite that fell to Earth 30 years ago.

If their results can be replicated, it will be the first protein ever identified that didn’t originate here on Earth.

“This paper characterises the first protein to be discovered in a meteorite,” the researchers wrote in a paper uploaded to preprint server arXiv. Their work is yet to be peer reviewed, but the implications of this finding are noteworthy.

Mar 2, 2020

Artificial and Biological Neurons Just Communicated Online

Posted by in category: biological

Rat neurons and artificial neurons just talked to each online. That might sound crazy, but it could one day help to change lives. Here’s what you need to know.

Mar 2, 2020

The idea of creating a new universe in the lab is no joke

Posted by in category: cosmology

Physicists aren’t often reprimanded for using risqué humour in their academic writings, but in 1991 that is exactly what happened to the cosmologist Andrei Linde at Stanford University. He had submitted a draft article entitled ‘Hard Art of the Universe Creation’ to the journal Nuclear Physics B. In it, he outlined the possibility of creating a universe in a laboratory: a whole new cosmos that might one day evolve its own stars, planets and intelligent life. Near the end, Linde made a seemingly flippant suggestion that our Universe itself might have been knocked together by an alien ‘physicist hacker’. The paper’s referees objected to this ‘dirty joke’; religious people might be offended that scientists were aiming to steal the feat of universe-making out of the hands of God, they worried. Linde changed the paper’s title and abstract but held firm over the line that our Universe could have been made by an alien scientist. ‘I am not so sure that this is just a joke,’ he told me.

Fast-forward a quarter of a century, and the notion of universe-making – or ‘cosmogenesis’ as I dub it – seems less comical than ever. I’ve travelled the world talking to physicists who take the concept seriously, and who have even sketched out rough blueprints for how humanity might one day achieve it. Linde’s referees might have been right to be concerned, but they were asking the wrong questions. The issue is not who might be offended by cosmogenesis, but what would happen if it were truly possible. How would we handle the theological implications? What moral responsibilities would come with fallible humans taking on the role of cosmic creators?

Theoretical physicists have grappled for years with related questions as part of their considerations of how our own Universe began. In the 1980s, the cosmologist Alex Vilenkin at Tufts University in Massachusetts came up with a mechanism through which the laws of quantum mechanics could have generated an inflating universe from a state in which there was no time, no space and no matter. There’s an established principle in quantum theory that pairs of particles can spontaneously, momentarily pop out of empty space. Vilenkin took this notion a step further, arguing that quantum rules could also enable a minuscule bubble of space itself to burst into being from nothing, with the impetus to then inflate to astronomical scales. Our cosmos could thus have been burped into being by the laws of physics alone. To Vilenkin, this result put an end to the question of what came before the Big Bang: nothing.

Mar 2, 2020

Researchers say coronavirus likely spread silently in Washington for weeks

Posted by in category: biotech/medical

Wuhan coronavirus pandemic — washington state.

Scientists suggest it has spread in King County for 6 weeks already.

“That being so, Bedford and other researchers believe the virus has likely been spreading through the community undetected for close to six weeks. Researchers estimate that could mean anywhere from 150 to 1,500 people have been infected here, with the most likely number being between 300 and 500.”

Continue reading “Researchers say coronavirus likely spread silently in Washington for weeks” »

Mar 2, 2020

Meet LUVOIR, which might become one of NASA’s next big space telescopes

Posted by in category: space

A flagship mission concept called LUVOIR could determine which ‘Earth-like’ planets are really like Earth, if NASA decides to build it.

Mar 2, 2020

Scientists measure electron spin qubit without demolishing it

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

A group of scientists from the RIKEN Center for Emergent Matter Science in Japan has succeeded in taking repeated measurements of the spin of an electron in a silicon quantum dot (QD) without changing its spin in the process. This type of “non-demolition” measurement is important for creating quantum computers that are fault-tolerant. Quantum computers would make it easier to perform certain classes of calculations such as many-body problems, which are extremely difficult and time-consuming for conventional computers. Essentially, the involve measuring a quantum value that is never in a single state like a conventional transistor, but instead exists as a “superimposed state”—in the same way that Schrodinger’s famous cat cannot be said to be alive or dead until it is observed. Using such systems, it is possible to conduct calculations with a qubit that is a superimposition of two values, and then determine statistically what the correct result is. Quantum computers that use single electron spins in silicon QDs are seen as attractive due to their potential scalability and because silicon is already widely used in electronics technology.

The key difficulty with developing quantum computers, however, is that they are very sensitive to external noise, making error correction critical. So far, researchers have succeeded in developing single electron spins in silicon QDs with a long information retention time and high-precision quantum operation, but quantum non-demolition measurement—a key to effective error correction—has proven elusive. The conventional method for reading out single electron spins in silicon is to convert the spins into charges that can be rapidly detected, but unfortunately, the electron spin is affected by the detection process.

Now, in research published in Nature Communications, the RIKEN team has achieved such non-demolition measurement. The key insight that allowed the group to make the advance was to use the Ising type interaction model—a model of ferromagnetism that looks at how the electron spins of neighboring atoms become aligned, leading to the formation of ferromagnetism in the entire lattice. Essentially, they were able to transfer the spin information—up or down—of an electron in a QD to another electron in the neighboring QD using the Ising type interaction in a magnetic field, and then could measure the spin of the neighbor using the conventional method, so that they could leave the original spin unaffected, and could carry out repeated and rapid measurements of the neighbor.

Mar 2, 2020

Graphene typically costs $200,000 per ton. Now, scientists can make it from trash

Posted by in category: materials

Graphene is insanely useful, but very difficult to produce — until now.

Mar 2, 2020

Google says its new chatbot Meena is the best in the world

Posted by in categories: entertainment, robotics/AI

Google has released a neural-network-powered chatbot called Meena that it claims is better than any other chatbot out there.

Data slurp: Meena was trained on a whopping 341 gigabytes of public social-media chatter—8.5 times as much data as OpenAI’s GPT-2. Google says Meena can talk about pretty much anything, and can even make up (bad) jokes.

Why it matters: Open-ended conversation that covers a wide range of topics is hard, and most chatbots can’t keep up. At some point most say things that make no sense or reveal a lack of basic knowledge about the world. A chatbot that avoids such mistakes will go a long way toward making AIs feel more human, and make characters in video games more lifelike.