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Quantum computers of the future hold promise in solving all sorts of problems. For example, they could lead to more sustainable materials and new medicines, and even crack the hardest problems in fundamental physics. But compared to the classical computers in use today, rudimentary quantum computers are more prone to errors. Wouldn’t it be nice if researchers could just take out a special quantum eraser and get rid of the mistakes?

Reporting in the journal Nature, a group of researchers led by Caltech is among the first to demonstrate a type of quantum eraser. The physicists show that they can pinpoint and correct for mistakes in quantum computing systems known as “erasure” errors.

“It’s normally very hard to detect errors in quantum computers, because just the act of looking for errors causes more to occur,” says Adam Shaw, co-lead author of the new study and a graduate student in the laboratory of Manuel Endres, a professor of physics at Caltech. “But we show that with some careful control, we can precisely locate and erase certain errors without consequence, which is where the name erasure comes from.”

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Drug-maker AstraZeneca announced this week that the FDA is currently considering approving the needle-free option for home use. Called FluMist, the vaccine must be refrigerated and would be shipped in insulated packaging to people’s homes.

FluMist has been around for more than two decades and is approved for people ages 2 to 49 years old. It’s fallen in and out of favor over the years, including one period where a CDC advisory panel highlighted FluMist as the preferred flu vaccine for children. Later, its effectiveness was questioned, leading to a reformulation effort, STAT News reported.

AstraZeneca expects the FDA to make a decision on whether to allow home use of FluMist by Spring 2024. The convenience of home administration could increase the number of people who get a flu vaccine, said Ravi Jhaveri, MD, Chief of Infectious Diseases in the Department of Pediatrics at Northwestern University’s Feinberg School of Medicine.

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Link :- https://eng.unimelb.edu.au/ingenium/wearable-device-makes-me…f-a-finger

Researchers from the University of Melbourne and RMIT University have invented an experimental wearable device that generates power from a user’s bending finger and can create and store memories, in a promising step towards health monitoring and other technologies.

Multifunctional devices normally require several materials in layers, which involves the time-consuming challenge of stacking nanomaterials with high precision. This innovation features a single nanomaterial incorporated into a stretchable casing fitted to a person’s finger. The nanomaterial enables the device to produce power simply through the user bending their finger. The super-thin material also allows the device to perform memory tasks.

The team, led by RMIT University and the University of Melbourne, in collaboration with other Australian and international institutions, made the proof-of-concept device with the rust of a low-temperature liquid metal called bismuth, which is safe and well suited for wearable applications.

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What id really like to see is put the super realistic robot head on Atlas, and equip w/ a super advanced talking LLM, but maybe people arent ready for it yet. Definitely technically possible.

Robotics company Boston Dynamics has integrated OpenAI’s GPT-4 into its Spot robot dog, showcasing its emerging capabilities.

To build the talking and interactive robot dog, Boston Dynamics added a Bluetooth speaker and microphone to Spot’s body, in addition to a camera-equipped arm that serves as its neck and head. Spot’s grasping hand mimics a talking mouth by opening and closing. This gives the robot a form of body language.

For language and image processing, the upgraded Spot uses OpenAI’s latest GPT-4 model, as well as Visual Question Answering (VQA) datasets and OpenAI’s Whisper speech recognition software to enable realistic conversations with humans.

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The only cure for painful sickle cell disease today is a bone marrow transplant. But soon there may be a new cure that attacks the disorder at its genetic source.

On Tuesday, advisers to the Food and Drug Administration will review a gene therapy for the inherited blood disorder, which in the U.S. mostly affects Black people. Issues they will consider include whether more research is needed into possible unintended consequences of the treatment.

If approved by the FDA, it would be the first gene therapy on the U.S. market based on CRISPR, the gene editing tool that won its inventors the Nobel Prize in 2020.

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