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Aug 17, 2020

Black dwarf supernovae might be the last event in the universe

Posted by in categories: cosmology, particle physics

The universe may have started with a Big Bang, but it will most likely end in an utterly anticlimactic way, slowly fading to black over trillions and trillions of years. Now, a theoretical physicist at Illinois State University has calculated what might just be the last interesting event that will ever happen – the explosions of stars called black dwarfs, which don’t even exist yet.

The ultimate fate of the universe is still up for debate, but one of the leading hypotheses is that it will undergo a “heat death.” Basically, all the stars will cool down and fizzle out, black holes will evaporate, and the never-ending expansion of the universe will stretch the fabric of reality so far that the remaining subatomic particles will rarely have the chance to whiz within a parsec of each other.

And now, thanks to theoretical physicist Matt Caplan, we have an idea of what might be one of the last things that will ever happen – black dwarf supernovae.

Aug 17, 2020

Neutron Star Extreme Matter Observatory (NEMO) – Building a $100M Black Hole Detector

Posted by in categories: cosmology, physics

A new study makes a compelling case for the development of “NEMO”—a new observatory in Australia that could deliver on some of the most exciting gravitational-wave science next-generation detectors have to offer, but at a fraction of the cost.

The study, co-authored by the ARC Center of Excellence for Gravitational Wave Discovery (OzGrav), coincides with an Astronomy Decadal Plan mid-term review by Australian Academy of Sciences where “NEMO” is identified as a priority goal.

“Gravitational-wave astronomy is reshaping our understanding of the Universe,” said one of the study’s lead authors OzGrav Chief Investigator Paul Lasky, from Monash University.

Aug 17, 2020

First ever observation of ‘time crystals’ interacting

Posted by in categories: computing, quantum physics

For the first time ever, scientists have witnessed the interaction of a new phase of matter known as “time crystals”.

The discovery, published in Nature Materials, may lead to applications in quantum information processing because time crystals automatically remain intact—coherent—in varying conditions. Protecting coherence is the main difficulty hindering the development of powerful quantum computers.

Dr. Samuli Autti, lead author from Lancaster University, said: “Controlling the interaction of two time crystals is a major achievement. Before this, nobody had observed two time crystals in the same system, let alone seen them interact.

Aug 17, 2020

One step closer to implanting electronics in the body

Posted by in categories: chemistry, computing, neuroscience

Dopamine, dopamine, wherefore art thou my dopamine?

Oh wait, I just need to press a button on my computer for that!


The American Chemical Society (ACS) are closer to using electronics in the body, to diagnose tumours and track illnesses: Read about it on OAG.

Aug 17, 2020

The quantum state of play — cloud-based QCaaS and Covid-19

Posted by in categories: biotech/medical, business, quantum physics, supercomputing

Quantum computing requires meticulously prepared hardware and big budgets, but cloud-based solutions could make the technology available to broader business audiences Several tech giants are racing to achieve “quantum supremacy”, but reliability and consistency in quantum output is no simple trick Covid-19 has prompted some researchers to look at how quantum computing could mitigate future pandemics with scientific precision and speed Quantum computing (QC) has been theorized for decades and has evolved rapidly over the last few years. An escalation in spend and development has seen powerhouses IBM, Microsoft, and Google race for ‘quantum supremacy’ — whereby quantum reliably and consistently outperforms existing computers. But do quantum computers remain a sort of elitist vision of the future or are we on course for more financially and infrastructurally viable applications across industries?

Getting to grips with qubits How much do you know? Ordinary computers (even supercomputers) deploy bits, and these bits comprise of traditional binary code. Computer processes – like code – are made up of countless combinations of 0’s and 1’s. Quantum computers, however, are broken down into qubits. Qubits are capable of ‘superpositions’: effectively adopting both 1 and 0 simultaneously, or any space on the spectrum between these two formerly binary points. The key to a powerful, robust, and reliable quantum computer is more qubits. Every qubit added exponentially increases the processing capacity of the machine.

Qubits and the impact of the superposition give quantum computers the ability to process large datasets within seconds, doing what it would take humans decades to do. They can decode and deconstruct, hypothesize and validate, tackling problems of absurd complexity and dizzying magnitude — and can do so across many different industries.

Continue reading “The quantum state of play — cloud-based QCaaS and Covid-19” »

Aug 17, 2020

World’s First Air-Powered Car: Zero Emissions

Posted by in category: transportation

Circa 2007


The first air-powered cars could hit showrooms as early as August of 2008.

Aug 17, 2020

Scientists Open New Window Into the AI world

Posted by in category: robotics/AI

Register at the webinar on AI & Robotics 2020 on August 23, 2020.

Hurry up. Limited Slots are Available to meet our experts & register here: https://meetingsint.com/webinars/ai_robotics/registration

E: [email protected]

Aug 17, 2020

Material found by scientists ‘could merge AI with human brain’

Posted by in categories: Elon Musk, health, robotics/AI

Technology could enable new health diagnostics and achieve Elon Musk’s goal of integrating with artificial intelligence.

Aug 17, 2020

Isolation and Characterization of vB_PagP-SK1, a T7-Like Phage Infecting Pantoea agglomerans

Posted by in categories: biotech/medical, genetics

Background:Pantoea is a genus within the Enterobacterales whose members encompass free-living and host-associated lifestyles. Despite our growing understanding of the role of mobile genetic elements in the biology, ecology, and evolution of this bacterial group, few Pantoea bacteriophages have been identified and characterized.

https://www.liebertpub.com/doi/10.1089/phage.2019.


Background: Pantoea is a genus within the Enterobacterales whose members encompass free-living and host-associated lifestyles. Despite our growing understanding of the role of mobile genetic elements in the biology, ecology, and evolution of this bacterial group, few Pantoea bacteriophages have been identified and characterized.

Continue reading “Isolation and Characterization of vB_PagP-SK1, a T7-Like Phage Infecting Pantoea agglomerans” »

Aug 17, 2020

Nearing the Cybernetic Singularity: What is the Syntellect Emergence?

Posted by in categories: cosmology, neuroscience, singularity

#CyberneticSingularity


About 542 million years ago, something weird and profoundly remarkable happened on Earth. Quite suddenly, life went insanely inventive, proliferating from simple, rudimentary single-celled organisms into myriad multi-cellular forms. Evolution discovered the idea of more sophisticated and specialized cells, and most of the basic body plans we know today. Biologists call it the Cambrian explosion.

Continue reading “Nearing the Cybernetic Singularity: What is the Syntellect Emergence?” »