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Nov 22, 2021

New device modulates visible light —without dimming it —with the smallest footprint and lowest power consumption

Posted by in categories: augmented reality, genetics, internet, quantum physics, robotics/AI, virtual reality

Over the past several decades, researchers have moved from using electric currents to manipulating light waves in the near-infrared range for telecommunications applications such as high-speed 5G networks, biosensors on a chip, and driverless cars. This research area, known as integrated photonics, is fast evolving and investigators are now exploring the shorter—visible—wavelength range to develop a broad variety of emerging applications. These include chip-scale LIDAR (light detection and ranging), AR/VR/MR (augmented/virtual/mixed reality) goggles, holographic displays, quantum information processing chips, and implantable optogenetic probes in the brain.

The one device critical to all these applications in the is an optical phase modulator, which controls the phase of a light wave, similar to how the phase of radio waves is modulated in wireless computer networks. With a phase modulator, researchers can build an on-chip that channels light into different waveguide ports. With a large network of these optical switches, researchers could create sophisticated integrated optical systems that could control light propagating on a tiny chip or light emission from the chip.

But phase modulators in the visible range are very hard to make: there are no materials that are transparent enough in the visible spectrum while also providing large tunability, either through thermo-optical or electro-optical effects. Currently, the two most suitable materials are silicon nitride and lithium niobate. While both are highly transparent in the visible range, neither one provides very much tunability. Visible-spectrum phase modulators based on these materials are thus not only large but also power-hungry: the length of individual waveguide-based modulators ranges from hundreds of microns to several mm and a single modulator consumes tens of mW for phase tuning. Researchers trying to achieve large-scale integration—embedding thousands of devices on a single microchip—have, up to now, been stymied by these bulky, energy-consuming devices.

Nov 22, 2021

Next generation of deep brain stimulation aims to tackle depression

Posted by in category: neuroscience

Case studies spotlight personalized approaches to tweaking brain circuits.

Nov 22, 2021

New gene-editing tools delete long stretches of DNA

Posted by in categories: biotech/medical, genetics, neuroscience

Two new methods make it possible to delete long sections of the genome, expanding the capabilities of the gene editor CRISPR. The techniques could lead to therapies that excise large insertions or duplications tied to autism, such as the DNA repeats that underlie fragile X syndrome.

To remove a segment of DNA, CRISPR systems typically use an enzyme called Cas9 to snip double-stranded DNA at two target sites. The cell’s own repair machinery can then join the cut ends, omitting the intervening sequence. But this process is error prone and can insert or delete unintended segments of DNA, called ‘indels,’ or rearrange large sections of the genome. Snipping double-stranded DNA can also cause cell death.

A different CRISPR-based system called ‘prime editing’ can make DNA repair more precise. In one version of the technique, a protein complex called a prime editor cuts only one strand of DNA at one of the two sites and the opposite strand at the other site. The prime editor adds a sequence to one of the cut strands to guide the repair.

Nov 22, 2021

Quantum computers to explore precision oncology

Posted by in categories: biotech/medical, chemistry, computing, information science, quantum physics

The most promising application in biomedicine is in computational chemistry, where researchers have long exploited a quantum approach. But the Fraunhofer Society hopes to spark interest among a wider community of life scientists, such as cancer researchers, whose research questions are not intrinsically quantum in nature.

“It’s uncharted territory,” says oncologist Niels Halama of the DKFZ, Germany’s national cancer center in Heidelberg. Working with a team of physicists and computer scientists, Halama is planning to develop and test algorithms that might help stratify cancer patients, and select small subgroups for specific therapies from heterogeneous data sets.

This is important for precision medicine, he says, but classic computing has insufficient power to find very small groups in the large and complex data sets that oncology, for example, generates. The time needed to complete such a task may stretch out over many weeks—too long to be of use in a clinical setting, and also too expensive. Moreover, the steady improvements in the performance of classic computers are slowing, thanks in large part to fundamental limits on chip miniaturization.

Nov 22, 2021

NVIDIA GauGAN2 AI Turns Sentences into Realistic ‘Photos’

Posted by in category: robotics/AI

NVIDIA’s GauGAN2 artificial intelligence (AI) can now use simple written phrases to generate a fitting photorealistic image. The deep-learning model is able to craft different scenes in just three or four words.

GauGAN is NVIDIA’s AI program that was used to turn simple doodles into photorealistic masterpieces in 2019, a technology that was eventually turned into the NVIDIA Canvas app earlier this year. Now NVIDIA has advanced the AI even further to where it only needs a brief description in order to generate a “photo.”

Nov 22, 2021

Elon Musk Says “At Least” Half His Tweets are Made on Toilet

Posted by in category: Elon Musk

In an extremely shocking turn of events, Tesla and SpaceX CEO Elon Musk has claimed that he posts “at least” half of his tweets from the toilet.

“At least 50% of my tweets were made on a porcelain throne,” Musk tweeted Sunday night, presumably from the toilet.

“It gives me solace,” he added.

Nov 22, 2021

Startups, NASA pursuing supersonic commercial flight

Posted by in category: space

Nearly 20 years after the Concorde made its final commercial flight, new efforts are underway to make supersonic passenger travel viable again. Bill Whitaker reports.

“60 Minutes” is the most successful television broadcast in history. Offering hard-hitting investigative reports, interviews, feature segments and profiles of people in the news, the broadcast began in 1968 and is still a hit, over 50 seasons later, regularly making Nielsen’s Top 10.

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Nov 22, 2021

How Good Was Elon Musk In School?

Posted by in categories: Elon Musk, sustainability, transportation

Buccaneering billionaire polymath Elon Musk is obviously one smart cookie. So why do his old school friends insist he wasn’t the cleverest kid in class, or that the future Tesla boss was fundamentally “unspectacular” back then?

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Nov 22, 2021

The Connection Between Tesla’s New Phone Model Pi And Neuralink

Posted by in categories: mobile phones, neuroscience, sustainability

The Connection Between Tesla’s New Phone Model Pi And Neuralink: So Elon has been one busy boy lately, from his incredible Twitter Poll the other day, to the subsequent selling of nearly 5billion in Tesla Shares. But one announcement that went under the radar updates to the rumored Tesla Pi.

So why would you want a phone from Tesla, well the same reason people have an iPhone with their iMac and their iWatch and their iTV sorry Apple TV…it’s the ecosystem, it’s the seamless transition.

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Nov 22, 2021

How AI is Changing the World | The Bible | Unveiled

Posted by in category: robotics/AI

Is the “good book” getting an upgrade? Join us… and find out more!

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