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Physicists have demonstrated a new way to obtain the essential details that describe an isolated quantum system, such as a gas of atoms, through direct observation. The new method gives information about the likelihood of finding atoms at specific locations in the system with unprecedented spatial resolution. With this technique, scientists can obtain details on a scale of tens of nanometers—smaller than the width of a virus.

Experiments performed at the Joint Quantum Institute (JQI), a research partnership between the National Institute of Standards and Technology (NIST) and the University of Maryland, use an optical lattice—a web of laser light that suspends thousands of —to determine the probability that an atom might be at any given location. Because each individual atom in the lattice behaves like all the others, a measurement on the entire group of atoms reveals the likelihood of an individual atom to be in a particular point in space.

Published in the journal Physical Review X, the JQI technique (and a similar technique published simultaneously by a group at the University of Chicago) can yield the likelihood of the atoms’ locations at well below the wavelength of the light used to illuminate the atoms—50 times better than the limit of what optical microscopy can normally resolve.

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Computer scientists at The University of Texas at Austin have taught an artificial intelligence agent how to do something that usually only humans can do — take a few quick glimpses around and infer its whole environment, a skill necessary for the development of effective search-and-rescue robots that one day can improve the effectiveness of dangerous missions. The team, led by professor Kristen Grauman, Ph.D. candidate Santhosh Ramakrishnan and former Ph.D. candidate Dinesh Jayaraman (now at the University of California, Berkeley) published their results today in the journal Science Robotics.

Most AI agents — computer systems that could endow robots or other machines with intelligence — are trained for very specific tasks — such as to recognize an object or estimate its volume — in an environment they have experienced before, like a factory. But the agent developed by Grauman and Ramakrishnan is general purpose, gathering visual information that can then be used for a wide range of tasks.

“We want an agent that’s generally equipped to enter environments and be ready for new perception tasks as they arise,” Grauman said. “It behaves in a way that’s versatile and able to succeed at different tasks because it has learned useful patterns about the visual world.”

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This therapy can aid in several other cases, and one day it may help patients diagnosed with diabetes, Parkinson’s disease and cancer.

Kristopher Boesen’s life changed in a minute after he survived a car accident. The young man lost control over his car, and crashed it into a tree and lamp post. The terrible accident almost took his life, but Kristopher survived. Unfortunately, he was paralyzed from the neck down, and doctors were almost convinced that he will never regain the control over his body.

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In the first of a dozen launches to set up its Starlink network that could provide high-speed internet all around the world…

SpaceX is now eyeing tonight for the lift-off of a Falcon 9 rocket towing the first of 60 Starlink satellites after postponing its planned Wednesday launch due to high winds.

Launch of the mission, aimed at placing the initial stage of Musk’s space-based global internet network into low-Earth orbit, was rescheduled for 10:30 p.m. on Thursday (0230 GMT Friday) from the Cape Canaveral Air Force Station, SpaceX said.

Continue reading “SpaceX will send 60 satellites to orbit tonight in the first of a dozen launches to set up Starlink” | >

Nina Khera writes about the aging processes and why she took an interest in aging research and why she thinks young people should too.

Aging is a series of processes in which the body’s ability to perform functions gradually decreases. The Hallmarks of Aging includes such things as an increase in senescent cells and a decrease in stem cells, but decreasing NAD+ and increasing free radicals matter as well. This article will cover a few root causes of aging and their total impact on humanity.

Senescent cells

One root cause of aging is senescent cells. These are aged or damaged cells that normally would initiate the self-destruct sequence known as apoptosis to dispose of themselves, but, for some reason, they evade this process and stay alive in the body.

Continue reading “The Processes and Impact of Aging” | >

Alexey Kochetov, director of the Siberian Branch of the Russian Academy of Sciences (RAS) Institute of Cytology and Genetics in Novosibirsk, welcomed the research programme, noting that genetics in Russia has been “chronically underfinanced” for decades. Funding for science plummeted in the 1990s following the break-up of the Soviet Union, and Russia still lags behind other major powers: in 2017, it spent 1.11% of its gross domestic product on research, compared with 2.13% in China and 2.79% in the United States.

A US$1.7-billion programme aims to develop 30 gene-edited plant and animal varieties in the next decade. A US$1.7-billion programme aims to develop 30 gene-edited plant and animal varieties in the next decade.

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