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Nov 13, 2020

Scientists Grew Tiny Human Brains and Hooked Them up to Robots

Posted by in categories: cyborgs, robotics/AI

Careful, you may end up with mini cyborgs!


“The closer we come to his goal, the more likely we will get a brain that is capable of sentience and of feeling pain, agony and distress,” Christof Koch, chief scientist and president of the Allen Brain Institute, told the NYT.

The human brain is so complex that scientists are still guessing at many aspects of how it works. That’s the appeal of mini-brains — they’re comparatively simple balls of neurons that simulate some characteristics of full brains but which barely scratch the surface of their capabilities. But this new study, published Thursday in the journal Cell, suggests that the mini-brains could be more complex than previously believed.

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Nov 13, 2020

Astronomers Say “Megaripples” Are Moving Across the Surface of Mars

Posted by in category: space

It seems the weather on Mars is a bit more windy than expected.


Martian winds could be strong enough after all to move giant waves of sand on the Red Planet.

Nov 13, 2020

Astrocytes Identified as Master ‘Conductors’ of the Brain

Posted by in categories: media & arts, neuroscience

Summary: Astrocytes are involved in regulating inhibitory synapses by binding to neurons through the NrCAM adhesion molecule.

Source: Duke University

In the orchestra of the brain, the firing of each neuron is controlled by two notes–excitatory and inhibitory– that come from two distinct forms of a cellular structure called synapses. Synapses are essentially the connections between neurons, transmitting information from one cell to the other. The synaptic harmonies come together to create the most exquisite music–at least most of the time.

Nov 13, 2020

Las Vegas City Planning Commission approves The Boring Company’s downtown tunnel expansion plans

Posted by in categories: Elon Musk, robotics/AI, sustainability, transportation

Elon Musk founded The Company “to solve the problem of soul-destroying traffic.” He envisions a network of tunnels where Autonomous Electric Vehicles (AEV) can transport passengers at high speeds through an underground transportation system called “Loop”. The Company’s AEVs are made up of modified Tesla Model 3 and Model X. These zero-emission vehicles will shuttle passengers through the tunnels at approximately 150-miles per hour. The first set of underground roads are under construction at Las Vegas Convention Center (LVCC). The tunneling project is almost finished. According to city officials it will be operational by January 2021. The Company plans to expand the LVCC Loop transportation system to other parts in Las Vegas. The Company submitted a proposal this year to the Las Vegas City Planning Commission to expand the tunnel to the downtown area.

On Tuesday, the Las Vegas City Planning Commission held a meeting in which the company received approval to connect the LVCC center set of tunnels to a future tunneling system that will lead downtown. The Commission gave the green light during a meeting, video below. The city council plans to review the proposal to cast a final vote in December. The downtown tunnel will begin at the LVCC, run through Las Vegas Boulevard, connect to Ogden, and lead back into Main Street. The City of Las Vegas shared via Twitter the map of where the tunnel will be built, pictured below.

Nov 13, 2020

Quantum internet: the next global network is already being laid

Posted by in categories: internet, quantum physics, supercomputing

Harun Šiljak, Trinity College Dublin

Google reported a remarkable breakthrough towards the end of 2019. The company claimed to have achieved something called quantum supremacy, using a new type of “quantum” computer to perform a benchmark test in 200 seconds. This was in stark contrast to the 10,000 years that would supposedly have been needed by a state-of-the-art conventional supercomputer to complete the same test.

Despite IBM’s claim that its supercomputer, with a little optimisation, could solve the task in a matter of days, Google’s announcement made it clear that we are entering a new era of incredible computational power.

Nov 13, 2020

Giant Arecibo SETI Telescope Could Collapse After Mysterious Damage

Posted by in category: alien life

The cause of the crashes remain unclear. The Arecibo Observatory was built in the 1960s and has been in used for decades to search for extraterrestrial civilizations. Experts are worried cables could corrode further as they age.

The radio telescope, among the world’s largest single-dish radio telescopes, is now in a sorry state — and at risk of total collapse.

“For me, it’s probably fifty-fifty,” former observatory director Michael Nolan from the University of Arizona told National Geographic. “They are doing what can be done. I’m still really worried that they can’t do enough.”

Nov 13, 2020

Graphene for quantum computing

Posted by in categories: computing, encryption, quantum physics

Quantum computing is a new paradigm in computing that utilizes the benefits of quantum mechanics to enhance the computing experience. Quantum computers will no longer rely on binary digits (0 and 1 states), that computers have relied on since the early beginnings, but will instead use quantum bits, which can be in a superposition of states. Quantum bits, or qubits, have the advantage of being in many states at once, offering parallel computing advantages. For example, they have long been regarded as far superior to classical computers for applications in data encryption.

Although the concept of quantum computers has been known for several decades, practical realizations are still lacking. The main limiting factor has been the critical influence of the environment on a qubit. Most physical systems need to be in perfectly controlled conditions in order to remain in the superposition state, whereas any interaction (mechanical, thermal, or other) with the environment perturbs this state and ruins the qubit. Such perturbation is termed “decoherence” that has plagued many potential qubit systems.

Graphene, having spurred research into numerous novel directions, is naturally also considered as a candidate material host for qubits. For example, back in 2013, a team of researchers from MIT found that graphene can be made into a topological insulator – meaning that electrons with one spin direction move around the graphene edges clockwise, whereas those that have the opposite spin move counterclockwise. They made this happen by applying two magnetic fields: one perpendicular to the graphene sheet, to make the electrons flow at sheet edges only, and another parallel to the sheet, that separates the two spin contributions. Electron spin has long been considered a candidate qubit, because it is inherently a quantum system that is in a superposition of states. In graphene, the spins move along the sheet edges robustly, without much decoherence. Furthermore, the same research showed switching the spin selection on and off, an important feature of q-bit transistors.

Nov 13, 2020

Former Amazon Engineer Creates App to Translate Cat Meows into Words Humans Understand

Posted by in category: futurism

Find out what your cat is trying to tell you with MeowTalk.

Nov 13, 2020

Airport planned for ‘Jetsons’-like flying cars

Posted by in category: transportation

The aircraft will be supplied by Lilium, a Germany-based aviation company that manufacturers the industry’s only five-passenger “electric vertical takeoff and landing” aircraft.

Nov 13, 2020

CCNY team in quantum algorithm breakthrough

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

Researchers led by City College of New York physicist Pouyan Ghaemi report the development of a quantum algorithm with the potential to study a class of many-electron quantums system using quantum computers. Their paper, entitled “Creating and Manipulating a Laughlin-Type ν=1/3 Fractional Quantum Hall State on a Quantum Computer with Linear Depth Circuits,” appears in the December issue of PRX Quantum, a journal of the American Physical Society.

“Quantum physics is the fundamental theory of nature which leads to formation of molecules and the resulting matter around us,” said Ghaemi, assistant professor in CCNY’s Division of Science. “It is already known that when we have a macroscopic number of quantum particles, such as electrons in the metal, which interact with each other, novel phenomena such as superconductivity emerge.”

However, until now, according to Ghaemi, tools to study systems with large numbers of interacting quantum particles and their novel properties have been extremely limited.