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Mar 27, 2020

Teleportation is Here, But It’s Not What We Expected

Posted by in categories: humor, particle physics, quantum physics, space travel

In 2005, the obituary of physicist Asher Peres in the magazine Physics Today told us that when a journalist asked him if quantum teleportation could transport a person’s soul as well as their body, the scientist replied: “No, not the body, just the soul.” More than just a simple joke, Peres’ response offers a perfect explanation, encoded in a metaphor, of the reality of a process that we have seen countless times in science fiction. In fact, teleportation does exist, although in the real world it is quite different from the famous “Beam me up, Scotty!” associated with the Star Trek series.

Teleportation in real science began to take shape in 1993 thanks to a theoretical study published by Peres and five other researchers in Physical Review Letters, which laid the foundation for quantum teleportation. Apparently, it was co-author Charles Bennett’s idea to associate the proposed phenomenon with the popular idea of teleportation, but there is an essential difference between fiction and reality: in the latter it’s not matter that travels, but rather information, which transfers properties from the original matter to that of the destination matter.

Quantum teleportation is based on a hypothesis described in 1935 by physicist Albert Einstein and his colleagues Boris Podolsky and Nathan Rosen, known as the EPR paradox. As a consequence of the laws of quantum physics, it was possible to obtain two particles and separate them in space so that they would continue to share their properties, as two halves of a whole. Thus, an action on one of them (on A, or Alice, according to the nomenclature used) would instantaneously have an effect on the other (on B, or Bob). This “spooky action at a distance”, in Einstein’s words, would seem capable of violating the limit of the speed of light.

Mar 27, 2020

Black holes: The ultimate quantum computers?

Posted by in categories: computing, cosmology, quantum physics

Circa 2006


By Maggie Mckee

Nearly all of the information that falls into a black hole escapes back out, a controversial new study argues. The work suggests that black holes could one day be used as incredibly accurate quantum computers – if enormous theoretical and practical hurdles can first be overcome.

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Mar 27, 2020

Physicists to Build a Quantum Teleporter ‘Wormhole’ Modeled on Black Holes

Posted by in categories: computing, cosmology, quantum physics

Scientists are attempting to entangle black holes into a working wormhole using quantum computers.

Mar 27, 2020

The Thorium Car Runs For 100 Years With Only 8 Grams Of Fuel and Emission-Free

Posted by in categories: energy, transportation

The amazing car pictured is a theoretical concept car that would run for 100 years with only 8 grams of fuel. Such a car would be powered by thorium, one of the densest materials on our planet.

Mar 27, 2020

Blood Plasma From Survivors Will Be Given to Coronavirus Patients

Posted by in category: biotech/medical

In people who have recovered, plasma is teeming with antibodies that may fight the virus. But the treatment beginning in New York is experimental.

Mar 27, 2020

For His Next Trick, Elon Musk Will Revolutionize HVAC Systems

Posted by in categories: Elon Musk, space travel, sustainability

Because running Tesla and SpaceX and building a new Starship every 72 hours so he can colonize Mars isn’t enough, now Elon Musk would really love to build an efficient and quiet HVAC system for home use, according to Inverse. It could even piggyback the existing work Tesla has done to make heaters for its newest vehicle, the Model Y.

The first few Tesla vehicles used an electric cabin heater to replace a traditional fuel vehicle’s reliance on internal combustion engine heat. Trying to find the right kind of heater has been challenging at times for Tesla, which was faced with reinventing the wheel, so to speak. Before now, engines made the heat as a secondary effect of combustion.

Mar 27, 2020

The Prince of England, next in line to the trone has coronavirus

Posted by in categories: biotech/medical, health

#JustSaying


The Prime Minister of England has coronavirus. The Health Minister of England has coronavirus.

Mar 27, 2020

Google Scholar

Posted by in categories: biotech/medical, quantum physics

Based on a lot of study it may be possible that if naturally derived dmt having quantum entanglement properties that someday it could be used to naturally teleport people. Especially if can essentially have suppositions properties that it may in fact allow an interdimensional portal quantum mechanically speaking it also said that cannabis did not start on earth either and is an alien plant. It may that someday we could take a pill to teleport through the fabric of space time with a biochemical means but it would involve a sort higgs mode or higgs boson level quantum teleportation for that amount of energy. But it may eventually lead to real teleportation in human beings naturally someday since it already holds those properties.

Mar 27, 2020

Note on Posthuman Resilience

Posted by in category: futurism

https://paper.li/e-1437691924


This post is adapted from a paper presented at a workshop organised by the Open University’s PRiME (posthuman resilience in major emergencies) research group held in London, 18th-19th October 2016.

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Mar 27, 2020

Making sense of cells

Posted by in categories: biotech/medical, computing, food, mathematics, neuroscience

Our body’s ability to detect disease, foreign material, and the location of food sources and toxins is all determined by a cocktail of chemicals that surround our cells, as well as our cells’ ability to ‘read’ these chemicals. Cells are highly sensitive. In fact, our immune system can be triggered by the presence of just one foreign molecule or ion. Yet researchers don’t know how cells achieve this level of sensitivity.

Now, scientists at the Biological Physics Theory Unit at Okinawa Institute of Science and Technology Graduate University (OIST) and collaborators at City University of New York have created a simple model that is providing some answers. They have used this model to determine which techniques a cell might employ to increase its sensitivity in different circumstances, shedding light on how the biochemical networks in our bodies operate.

“This model takes a complex biological system and abstracts it into a simple, understandable mathematical framework,” said Dr. Vudtiwat Ngampruetikorn, former postdoctoral researcher at OIST and the first author of the research paper, which was published in Nature Communications. “We can use it to tease apart how cells might choose to spend their energy budget, depending on the world around them and other cells they might be talking to.”

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