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Nuclear fusion holds huge promise as a source of clean, abundant energy that could power the world. Now, fusion researchers at a national laboratory in the US have achieved something physicists have been working towards for decades, a process known as “ignition”.

This step involves getting more energy out from fusion reactions than is put in by a laser.

But just how close are we to producing energy from fusion that can power people’s homes? While the ignition is only a proof of principle and the first step in a very long process, other developments are also in the works and together they could spark renewed enthusiasm for making fusion a practical reality.

First, it’s important to recognise that the latest result is indeed a real milestone.

The researchers at the National Ignition Facility (NIF) in California fired the world’s biggest laser at a capsule filled with hydrogen fuel, causing it to implode and starting fusion reactions that mimic what happens in the Sun.

The fusion energy released by the implosion was more than that put in by the laser, a massive achievement given that, just a few years ago, the NIF laser could only get out about a thousandth of the energy it put in.

However, around 10,000 times more energy had to be put into the laser than it produced in light energy.

It can only be run once a day. And every target is so exquisitely designed that each one costs thousands of dollars.

To produce a reactor for a working power station, you would need a laser that produced light energy at much greater efficiency (a few tens of percent) and shot targets successfully at ten times per second, with each target costing a few pence or so.

In addition, each laser shot would need to produce many times – perhaps 100 times – more energy out than was put in.

Very little research has actually been done on fusion “reactors”, where neutrons from the reactions would help drive a steam turbine to produce electricity. But there are other reasons for hope.

Firstly, while NIF has taken more than a decade to achieve ignition, during the same period, scientists have independently developed new lasers.

These use electronic devices called diodes to transfer energy to the laser and are very, very efficient, converting a good fraction of the electricity from the grid into laser light.

Prototype versions of such lasers have been proven to work at the rates of 10 times per second, which would be required for them to be useful in fusion.

These lasers are not yet of the size needed for fusion, but the technology is proven, and the UK leads in this type of research.

Also, the approach to fusion used by the scientists at NIF has some well-known, inherent inefficiencies, and there are several other ideas that could be much more effective.

Nobody is absolutely certain that these other ideas would work, as they have their own unique problems, and have never been tried at scale.

To do so would require hundreds of millions of dollars of investment for each of them with no guarantee of success (otherwise it would not be research).

However, there is now a wind of change blowing: the private sector.

Various funds with a very long-term outlook have started to invest in new start-up firms that are touting fusion as a commercially viable source of energy.

Given that it was private industry that has revolutionised the electric car market (and the rocket industry), maybe that sector could also give fusion the “kick” it requires.

Private firms can work a lot faster than governments, and pivot quickly to adopt new ideas when required.

Estimates of the total private funding in the sector now stand in excess of $2 billion (roughly Rs. 16,500 crore), peanuts compared with the $2 trillion (roughly Rs. 165 lakh crore) in revenue produced by the oil and gas industry each year.

There is still a lot of room in the marketplace for the high-risk, high-pay-off players.

The latest results show that the basic science works: the laws of physics do not prevent us from achieving the goal of unlimited clean energy from fusion.

The problems are technical and economic. While fusion may be too far off to solve matters on the timescale of a decade or two, the latest advance will at least bolster enthusiasm about solving one of humanity’s grand challenges.


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Neuralink Device Helps Monkey See Something That’s Not There

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Neuralink Device Helps Monkey See Something That’s Not There

Elon Musk’s Neuralink Corp. used a brain implant to enable a monkey to see something that wasn’t physically there, according to an engineer, as it moves toward its goal of helping blind people see.

The device, called Blindsight, stimulated areas of a monkey’s brain associated with vision, Neuralink engineer Joseph O’Doherty said Friday at a conference. At least two-thirds of the time, the monkey moved its eyes toward something researchers were trying to trick the brain into visualizing.

The results were the first Neuralink has publicized about tests of Blindsight, a brain chip that mimics the function of an eye. This is a closely watched frontier for brain device development, a scientific field that’s testing the boundaries of how technology can be used to potentially treat intractable conditions.

As with all animal studies, it’s an open question how the results would apply to humans. The device isn’t approved for human use in the US.

The short-term goal of Blindsight is to help people see, and the long-term goal is to facilitate superhuman vision — like in infrared — Musk has said. The company has been testing Blindsight in monkeys for the past few years and is hoping to test it in a human this year, the billionaire said in March.

On the sidelines of the conference, O’Doherty declined to comment further about Neuralink’s work.

Neuralink is also implanting devices in people who are paralyzed that allow them to communicate directly with computers, one of several companies in the growing technological field.

Five people have received Neuralink implants so far, Musk has said. Three were implanted in 2024 and two in 2025, according to O’Doherty’s presentation at the Neural Interfaces conference. In some cases, patients are using their Neuralink device for about 60 hours a week.

In the future, brain devices using similar technology could allow paralyzed people to move or walk, Musk has said. O’Doherty co-authored a poster with academic researchers, which was presented at the conference, describing an experiment that used the Neuralink implant to stimulate the spinal cord of a monkey, causing its muscles to move. Other researchers have been working on spinal cord stimulation to restore muscle movement for several years.

Musk’s medical aspirations are a stepping stone toward the goal of increasing the speed of human communication for everyone, allowing people to “mitigate the risk of digital super-intelligence,” Musk said in 2024. He’s also building artificial intelligence through his company xAI Corp.

Eventually, the company wants the Blindsight system to include a pair of glasses to help make the chip work, O’Doherty said in his talk.

Testing in monkeys has advantages. The visual cortex in a monkey is closer to the surface of the brain than in a human, making it easier to access, O’Doherty said in the presentation. Neuralink could use its surgical robot to insert its implant into the deeper regions in a person’s brain, he added.

© 2025 Bloomberg L.P.

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SpaceX Launches 26 New Starlink Satellites, Expands Global Internet Network

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SpaceX Launches 26 New Starlink Satellites, Expands Global Internet Network

SpaceX just aced another launch of its Starlink internet satellites. On Thursday night (June 12), the company launched 26 new Starlink spacecraft to join its ever-growing internet megaconstellation in orbit. Flying from Launch Complex 4 East (SLC-4E) at California’s Vandenberg Space Force Base, the launch occurred at 9:54 p.m. EDT (6:54 p.m. PDT or 0154 GMT) on June 13. The satellites are planned to be deployed into orbit from the second stage about one hour and one minute after liftoff. This accomplishment brings to more than 7,600 the number of active satellites for SpaceX’s Starlink.

As per SpaceX’s official update for its 15-6 mission, the rocket’s first-stage booster, known as B1081, flew for the 15th time after 14 prior flights. It successfully touched down on the droneship Of Course I Still Love You in the Pacific Ocean, off the coast of southern California, yet again. The company’s current record for reflight of Falcon 9 boosters is 28 flights, proving itself at the same time to be the best at orbital launch efficiency.

Thursday’s mission marks the 72nd Falcon 9 launch, with 53 of those dedicated to the Starlink network. The system aims to provide high-speed internet access around the world, and an increasing number of satellites provide direct-to-cell services for texting and a limited data connection on certain kinds of smartphones and through certain carriers.

Elon Musk’s SpaceX continues to add satellites to the Starlink constellation to increase redundancy and coverage, particularly in remote areas. The current constellation has wide coverage of the Earth, allowing small satellite dishes and mobile phones to connect to the internet in real time in dozens of countries.

SpaceX is simultaneously expanding the reach of Starlink and laying the groundwork for next-generation applications like in-flight connectivity and emergency response communications. With more than 7,600 satellites now orbiting Earth and as many as dozens of additional launches on the docket, Starlink is rapidly redefining how global internet coverage can work in the modern era.

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Aurora Alert! Northern Lights May Be Visible as Far South as New York on June 14

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Aurora Alert! Northern Lights May Be Visible as Far South as New York on June 14

A rare display in the night sky could be visible to skywatchers in the U.S., as the National Oceanic and Atmospheric Administration (NOAA) has issued a geomagnetic storm watch for the night of June 14. The moderate G2-level event, fuelled by disturbances in solar wind, might produce auroras visible as far south as New York and Idaho, providing a spectacular light show far beyond the usual polar zones. While it’s welcome news for aurora enthusiasts, experts caution that extended daylight hours due to the approaching summer solstice could limit ideal viewing windows.

Coronal Hole Sparks Geomagnetic Storm; Auroras May Glow as Far South as New York June 14

As per the statement from NOAA’s Space Weather Prediction Centre (SWPC), this increase in geomagnetic activity is associated to a greater degree with a co-rotating interaction region (CIR), a turbulent region where high-speed streams of solar wind collide with slower-moving wind. While these CIRs may not be as dramatic as CMEs, they can still lead to shock waves that rattle the Earth’s magnetic field. The latest CIR was formed around a large coronal hole – a particularly dark region in the Sun’s outermost atmosphere – that is currently facing Earth and spewing high-speed solar wind directly into space.

Coronal holes are allowed to expand and develop into space weather due to reduced density and lower temperature solar wind pressing outward. Forecasts suggest a Kp index of 5.67 on 14 June, so there is another chance for auroras at lower latitudes.

To catch the northern lights, search for dark, clear skies in the hours before dawn, and check in with NOAA’s 3-day space weather forecast, as well as real-time resources like the “My Aurora Forecast & Alerts” app.

The aurora is weather and atmospheric conditions permitting, and should be visible for those based outside of the Arctic Circle viewing it during an approaching storm.

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