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Archive for the ‘quantum physics’ category: Page 364

Aug 10, 2022

Quantum teleportation demo sets new accuracy record

Posted by in categories: climatology, quantum physics

An internet powered by the weird physics of the quantum world would be virtually unhackable and literally faster than lightning.

Now, we’re one step closer to making that next-level communications network a reality, thanks to a quantum teleportation breakthrough out of the Fermi National Accelerator Laboratory.

So, what the heck is quantum teleportation?

Aug 9, 2022

What Happens When Black Holes Die?

Posted by in categories: cosmology, quantum physics

Stephen Hawking’s suggestion that black holes “leak” radiation left physicists with a problem they have been attempting to solve for 51 years.


In what is arguably his most significant contribution to science, Stephen Hawking suggested that black holes can leak a form of radiation that causes them to gradually ebb away, and eventually end their lives in a massive explosive event.

This radiation 0, later called “Hawking radiation,” inadvertently causes a problem at the intersection of general relativity and quantum physics — the former being the best description we have of gravity and the universe on cosmically massive scales, while the latter is the most robust model of the physics that governs the very small.

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Aug 9, 2022

Quantum in 2027: Take a quantum leap into the future of IT

Posted by in categories: computing, mathematics, quantum physics

Quantum computing will change everything.

“I think I can safely say that nobody really understands quantum mechanics,” renowned physicist Richard Feynman stated once. That shouldn’t come as a big surprise as quantum physics has a reputation for being exceptionally enigmatic. This was the selling point for the quantum physicist Dr. Shohini Ghose from Wilfrid Laurier University.

Having always excelled at mathematics and physics, Ghose was always interested in mysteries, detective stories, and mathematics. This led her to an intense fascination with physics, as she quickly discovered that she could use mathematics to help solve the mysteries of the universe.

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Aug 7, 2022

Researcher is studying materials whose traits resemble those of the human brain

Posted by in categories: neuroscience, quantum physics, supercomputing

In its heyday, UIUC’s Blue Waters was one of the world’s top supercomputers. Anyone who was curious could drop by its 30,000-square-foot machine room for a tour, and spend half an hour strolling among the 288 huge black cabinets, supported by a 24-megawatt power supply, that housed its hundreds of thousands of computational cores.

Blue Waters is gone, but today UIUC is home to not just one, but tens of thousands of vastly superior computers. Although these wondrous machines put Blue Waters to shame, each one weighs just three pounds, can be fueled by coffee and sandwiches, and is only the size of its owner’s two hands curled together. We all carry them between our ears.

The fact is that humanity is far from having artificial computers that can match the capabilities of the human , outside a narrow range of well-defined tasks. Will we ever capture the brain’s magic? To help answer that question, MRL’s Axel Hoffmann recently led the writing of an APL Materials “Perspectives” article that summarizes and reflects on efforts to find so-called “quantum materials” that can mimic .

Aug 7, 2022

The CIA Proves Manifestation Is REAL

Posted by in categories: law, neuroscience, quantum physics

✅ AUDIO PROGRAMS — https://bit.ly/3w7mRjt.
This is one of the most interesting reads I’ve come across. It’s rather complex and takes a while to digest but it’s 100% worth it.
It’s an official declassified CIA document and a terrific analysis of consciousness and beyond – known as the Gateway Process.
While it’s an older document and declassified for a while now, the fact that modern developments in science, quantum physics, psychedelics, and neurobiology confirm what’s written within those pages is nothing short of outstanding.
It explains consciousness in a profound and analytical way and merges knowledge from mystics from Hindu, Buddhist, and Tibetan cultures to contemporary scientific knowledge of Planck distance, Einstein’s theory of relativity, and the works of Nils Bohr.
The cosmic spiral & torus is everything, and everything is one. It seems as though individual consciousness is pulled from the collective consciousness using the frequency/vibrations of the being. This applies to humans, whales, fungus, and amoeba.
Mystics of past and present including all ancient religions understood these concepts thousands of years ago. Still, it takes much to open the minds of the most pragmatic, self-conscious, and uptight people.

👉🏼 For more information on this topic, visit The Monroe Institute website: https://www.monroeinstitute.org/
👉🏼 Link to the document: https://www.cia.gov/readingroom/docs/CIA-RDP96-00788R001700210016-5.pdf.

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Aug 5, 2022

Computer Science Proof Unveils Unexpected Form of Entanglement

Posted by in categories: computing, quantum physics, science

Another version of the PCP theorem, not yet proved, specifically deals with the quantum case. Computer scientists suspect that the quantum PCP conjecture is true, and proving it would change our understanding of the complexity of quantum problems. It’s considered arguably the most important open problem in quantum computational complexity theory. But so far, it’s remained unreachable.

Nine years ago, two researchers identified an intermediate goal to help us get there. They came up with a simpler hypothesis, known as the “no low-energy trivial state” (NLTS) conjecture, which would have to be true if the quantum PCP conjecture is true. Proving it wouldn’t necessarily make it any easier to prove the quantum PCP conjecture, but it would resolve some of its most intriguing questions.

Then in June of 2022, in a paper posted to the scientific preprint site arxiv.org, three computer scientists proved the NLTS conjecture. The result has striking implications for computer science and quantum physics.

Aug 5, 2022

Quantum control for advanced technology: Past and present

Posted by in categories: engineering, mathematics, quantum physics

One of the cornerstones of the implementation of quantum technology is the creation and manipulation of the shape of external fields that can optimize the performance of quantum devices. Known as quantum optimal control, this set of methods comprises a field that has rapidly evolved and expanded over recent years.

A new review paper published in EPJ Quantum Technology and authored by Christiane P. Koch, Dahlem Center for Complex Quantum Systems and Fachbereich Physik, Freie Universität Berlin along with colleagues from across Europe assesses recent progress in the understanding of the controllability of quantum systems as well as the application of quantum control to quantum technologies. As such, it lays out a potential roadmap for future .

While quantum optimal control builds on conventional control theory encompassing the interface of applied mathematics, engineering, and physics, it must also factor in the quirks and counter-intuitive nature of quantum physics.

Aug 5, 2022

Futureseek Daily Link Review; 05 August 2022

Posted by in categories: cosmology, cybercrime/malcode, economics, mathematics, particle physics, quantum physics, robotics/AI, space travel, surveillance

* At Long Last, Mathematical Proof That Black Holes Are Stable * Who Gets to Work in the Digital Economy? * Mice produce rat sperm with technique that could help conservation.

* Quantum computer can simulate infinitely many chaotic particles * Radar / AI & ML: Scaling False Peaks * Cyber security for the human world | George Loukas | TEDx.

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Aug 4, 2022

Quantum computer can simulate infinitely many chaotic particles

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

Using just a handful of quantum bits, researchers have used a quantum computer to simulate an infinite line of electron-like particles. The technique could be used to better understand the behaviour of molecules in materials.

Aug 4, 2022

A highly efficient colloidal quantum dot imager that operates at near-infrared wavelengths

Posted by in categories: quantum physics, robotics/AI

Advances in the fields of robotics, autonomous driving and computer vision have increased the need for highly performing sensors that can reliably collect data in different environmental conditions. This includes imagers that can operate at near-infrared wavelengths (i.e., 0.7–1.4 µm), thus potentially collecting high resolution images in complex or unfavorable atmospheric conditions, such as in the presence of rain, fog and smoke.

Researchers at Huazhong University of Science and Technology (HUST), HiSilicon Optoelectronics Co. Limited, and Optical Valley Laboratory have recently developed a near-infrared colloidal quantum dot (CQD) imager. This highly efficient imager was presented in a paper published in Nature Electronics.

“Our group was founded at Wuhan National Laboratory for Optoelectronics, HUST in 2012 and continuously conducts research on CQD materials and devices with Associate Prof. Jianbing Zhang,” Liang Gao, one of the researchers involved in the study, told TechXplore.