Technologies
Major Energy Breakthrough: Milestone Achieved in US Fusion Experiment
For the first time, the National Ignition Facility officially achieved ignition in a fusion reactor.
It was touted as a «major scientific breakthrough» and, it seems, the rumors were true: On Tuesday, scientists at Lawrence Livermore National Laboratory announced that they have, for the first time, achieved net energy gain in a controlled fusion experiment.
«We have taken the first tentative steps toward a clean energy source that could revolutionize the world,» Jill Hruby, administrator of the National Nuclear Security Administration, said in a press conference Tuesday.
The triumph comes courtesy of the National Ignition Facility at LLNL in San Francisco. This facility has long tried to master nuclear fusion — a process that powers the sun and other stars — in an effort to harness the massive amounts of energy released during the reaction because, as Hruby points out, all that energy is «clean» energy.
Despite decades of effort, however, there had been a major kink in these fusion experiments: the amount of energy used to achieve fusion has far outweighed the energy coming out. As part of the NIF mission, scientists had long hoped to achieve «ignition,» where the energy output is «greater than or equal to laser drive energy.»
Some experts have remained skeptical that such a feat was even possible with fusion reactors currently in operation. But slowly, NIF pushed forward. In August last year, LLNL revealed it had come close to this threshold by generating around 1.3 megajoules (a measure of energy) against a laser drive using 1.9 megajoules.
But on Dec. 5, LLNL’s scientists say, they managed to cross the threshold.
They achieved ignition.
All in all, this achievement is cause for celebration. It’s the culmination of decades of scientific research and incremental progress. It’s a critical, albeit small, step forward, to demonstrate that this type of reactor can, in fact, generate energy.
«Reaching ignition in a controlled fusion experiment is an achievement that has come after more than 60 years of global research, development, engineering and experimentation,» Hruby said.
«It’s a scientific milestone,» Arati Prabhakar, policy director for the White House Office of Science and Technology, said during the conference, «but it’s also an engineering marvel.»
Still, a fully operational platform, connected to the grid and used to power homes and businesses, likely remains a few decades away.
«This is one igniting capsule at one time,» Kim Budil, director of LLNL, said. «To realize commercial fusion energy you have to do many things. You have to be able to produce many, many fusion ignition events per minute, and you have to have a robust system of drivers to enable that.»
So how did we get here? And what does the future hold for fusion energy?
Simulating stars
The underlying physics of nuclear fusion has been well understood for almost a century.
Fusion is a reaction between the nuclei of atoms that occurs under extreme conditions, like those present in stars. The sun, for instance, is about 75% hydrogen and, because of the all-encompassing heat and pressure at its core, these hydrogen atoms are squeezed together, fusing to form helium atoms.
If atoms had feelings, it would be easy to say they don’t particularly like being squished together. It takes a lot of energy to do so. Stars are fusion powerhouses; their gravity creates the perfect conditions for a self-sustaining fusion reaction and they keep burning until all their fuel — those atoms — are used up.
This idea forms the basis of fusion reactors.
Building a unit that can artificially re-create the conditions within the sun would allow for an extremely green source of energy. Fusion doesn’t directly produce greenhouse gases, like carbon dioxide and methane, which contribute to global warming.
And critically, a fusion reactor also doesn’t have the downsides of nuclear fission, the splitting of atoms used in nuclear bombs and reactors today.
In other words, a fusion power plant wouldn’t produce the radioactive waste associated with nuclear fission.
The big fusion experiment
The NIF, which takes up the space of around three football fields at LLNL, is the most powerful «inertial confinement fusion» experiment in the world.
In the center of the chamber lies a target: a «hohlraum,» or cylinder-shaped device that houses a tiny capsule. The capsule, about as big as a peppercorn, is filled with isotopes of hydrogen, deuterium and tritium, or D-T fuel, for short. The NIF focuses all 192 lasers at the target, creating extreme heat that produces plasma and kicks off an implosion. As a result, the D-T fuel is subject to extreme temperatures and pressures, fusing the hydrogen isotopes into helium — and a consequence of the reaction is a ton of extra energy and the release of neutrons.
You can think of this experiment as briefly simulating the conditions of a star.
The complicated part, though, is that the reaction also requires a ton of energy to start. Powering the entire laser system used by the NIF requires more than 400 megajoules — but only a small percentage actually hits the hohlraum with each firing of the beams. Previously, the NIF had been able to pretty consistently hit the target with around 2 megajoules from its lasers.
But on Dec. 5, during one run, something changed.
«Last week, for the first time, they designed this experiment so that the fusion fuel stayed hot enough, dense enough and round enough for long enough that it ignited,» Marv Adams, deputy administrator at the NNSA, said during the conference. «And it produced more energy than the lasers had deposited.»
More specifically, scientists at NIF kickstarted a fusion reaction using about 2 megajoules of energy to power the lasers and were able to get about 3 megajoules out. Based on the definition of ignition used by NIF, the benchmark has been passed during this one short pulse.
You might also see that energy gain in a fusion reaction is denoted by a variable, Q.
Like ignition, the Q value can refer to different things for different experiments. But here, it’s referring to the energy input from the lasers versus the energy output from the capsule. If Q = 1, scientists say they have achieved «breakeven,» where energy in equals energy out.
The Q value for this run, for context, was around 1.5.
In the grand scheme of things, the energy created with this Q value is only about enough to boil water in a kettle.
«The calculation of energy gain only considers the energy that hit the target, and not the [very large] energy consumption that goes into supporting the infrastructure,» said Patrick Burr, a nuclear engineer at the University of New South Wales.
The NIF is not the only facility chasing fusion — and inertial confinement is not the only way to kickstart the process. «The more common approach is magnetically confined fusion,» said Richard Garrett, senior advisor on strategic projects at the Australian Nuclear Science and Technology Organization. These reactors use magnetic fields to control the fusion reaction in a gas, typically in a giant, hollow donut reactor known as a tokamak.
Those devices have a much lower density than NIF’s pellets, so temperatures need to be increased to well over 100 million degrees. Garrett said he does not expect the NIF result to accelerate tokamak fusion programs because, fundamentally, the two processes work quite differently.
However, significant progress is also being made with magnetically confined fusion. For instance, the ITER experiment, under construction in France, uses a tokamak and is expected to begin testing in the next decade. It has lofty goals, aiming to achieve a Q greater than 10 and to develop commercial fusion by 2050.
The future of fusion
The experiment at NIF might be transformative for research, but it won’t immediately translate to a fusion energy revolution. This isn’t a power-generating experiment. It’s a proof of concept.
This is a point worth paying attention to today, especially as fusion has often been touted as a way to combat the climate crisis and reduce reliance on fossil fuels or as a salve for the world’s energy problems. Construction and utilization of fusion energy to power homes and businesses is still a ways off — decades, conservatively — and inherently reliant on technological improvements and investment in alternative energy sources.
Generating around 2.5 megajoules of energy when the total input from the laser system is well above 400 megajoules is, of course, not efficient. And in the case of the NIF experiment, it was one short pulse.
Looking further ahead, constant, reliable, long pulses will be required if this is to become sustainable enough to power kettles, homes or entire cities.
«It’s unlikely that fusion power … will save us from climate change,» said Ken Baldwin, a physicist at the Australian National University. If we are to prevent the largest increases in global average temperature, fusion power is likely going to be a little too late.
Other investment is going to come from private companies, which are seeking to operate tokamak fusion reactors in the next few years. For instance, Tokamak Energy in the UK is building a spherical tokamak reactor and seeks to hit breakeven by the middle of this decade.
Then there’s Commonwealth Fusion Systems, spun out of MIT, which is hoping to generate around 400 megawatts of power, enough for tens of thousands of homes, by the 2030s. Modern nuclear power plants can produce almost three times as much.
And as CNET editor Stephen Shankland noted in a recent piece, fusion reactors will also need to compete against solar and wind power — so even with today’s revelatory findings, fusion energy remains entrenched in the experimental phase of its existence.
But we can now cast one eye toward the future.
It may not prevent the worst of climate change but, harnessed to its full potential, it could produce a near-limitless supply of energy for generations to come. It’s one thing to think about the future of energy on Earth and how it will be utilized, but our eyes may fall on horizons even further out — deep space travel could utilize fusion reactors that blast us well beyond the reaches of our sun’s gravity, the very thing that helped teach us about fusion reactions, and into interstellar space.
Perhaps then, we’d remember Dec. 5, 2022, as the first tiny step toward places we dared once only dream about.
Correction, 8:44 a.m. PT: This article initially misstated the amount of energy in the fusion reaction. NIF powered the lasers with about 2 megajoules and produced 3 megajoules as a result.
Technologies
iOS 17 Cheat Sheet: Your Questions on the iPhone Update Answered
Here’s what you need to know about new features and upcoming updates for your iPhone.
Apple’s iOS 17 was released in September, shortly after the company held its Wonderlust event, where the tech giant announced the new iPhone 15 lineup, the Apple Watch Series 9 and the Apple Watch Ultra 2. We put together this cheat sheet to help you learn about and use the new features in iOS 17. It’ll also help you keep track of the subsequent iOS 17 updates.
iOS 17 updates
- iOS 17.4.1 Fixes These Issues on Your iPhone
- iOS 17.4 Brings These New Features to Your iPhone
- Why You Should Download iOS 17.4 Right Now
- iOS 17.3.1 Fixes This Issue on Your iPhone
- iOS 17.3: All the New Features on Your iPhone
- Why You Should Download iOS 17.3 Right Now
- iOS 17.2.1: What You Should Know About the iPhone Update
- iOS 17.2 Brings These New Features to Your iPhone
- What iOS 17.1.2 Fixes on Your iPhone
- iOS 17.1.1 Patches These iPhone Issues
- What New Features iOS 17.1 Brings to Your iPhone
- What to Know About iOS 17.0.1
- Apple Made an iPhone 15 Mistake, but iOS 17.0.2 Is Here to Fix It
- iOS 17.0.3 Fixes This iPhone 15 Pro Problem
Using iOS 17
- Three iPhone Settings to Change After Downloading iOS 17
- iOS 17’s Best New Features
- The iOS 17 Features We’re Excited About
- iOS 17 Is Filled With Delightful Features, Intuitive Improvements and More
- 17 Hidden iOS 17 Features You Shouldn’t Miss
- iOS 17 Upgrades Your iPhone’s Keyboard
- You Can Tag Your Pets In Your ‘People’ Album With iOS 17
- How to Create Live Stickers in iOS 17
- How to Set Up Contact Posters in iOS 17
- How to Automatically Delete Two-Factor Verification Codes in iOS 17
- What to Know About iOS 17’s Unreleased Journal App
- How Good Are Offline Maps in iOS 17?
- How to Use iOS 17’s Live Voicemail Feature
- You Can Change Your Private Browsing Browser in iOS 17
- Hidden iOS 17 Feature Makes It Easier to Send Photos and Videos
- You Can Clone Your Voice with iOS 17. Here’s How
- Are Audio Message Transcripts in iOS 17 Any Good?
- Sharing AirTags in iOS 17 is Easy. Here’s How
- How to Create Camera Shortcuts in iOS 17
- What You Need to Know About the Improved Autocorrect in iOS 17
- Use This Hidden iOS 17 Feature to Reduce Eye Strain
- How to Enable Sensitive Content Warnings on Your iPhone
- Let Your Loved Ones Know You’re Safe With This iOS 17 Feature
- Simplify Your Grocery List With iOS 17
- How to Turn Off FaceTime Reactions in iOS 17
- What Is iOS 17’s Journal App and How Does It Work?
- You Can Use Albums for Photo Shuffle on Your Lock Screen
- Play Daily Crosswords in Apple News With iOS 17
- How to Turn Off the Most Annoying iOS 17 Features
- iOS 17.2 Brings Better Wireless Charging to These iPhones
- How to Turn Inline Predictive Text Off With iOS 17.2
- How to Enable Contact Key Verification With iOS 17.2
- Don’t Like Your iPhone’s Default Alert Tone? Here’s How to Change It
- The Latest Security Features in iOS 17.3
- How to Secure Your Data With Stolen Device Protection
- Apple Music’s Collaborative Playlists Are Here. This Is How You Use Them
- People in the EU Can Download Other App Stores Soon
- All the New Emoji Your iPhone Just Got
- How to Give Your iPhone’s Stolen Device Protection a Boost
- What to Know About Podcast Transcripts on Your iPhone
- How to Enable Siri to Read Texts in Multiple Languages
- Where to Find your Apple Cash Virtual Card Numbers
Getting started with iOS 17
- iOS 17 Review: StandBy Mode Changed My Relationship With My iPhone
- Whether or Not Your iPhone Supports iOS 17
- Do This Before Downloading iOS 17
- How to Download iOS 17 to Your iPhone
Make sure to check back periodically for more iOS 17 tips and how to use new features as Apple releases more updates.
Technologies
Get Ready for a Striking Aurora That Could Also Disrupt Radio Communications
Don’t expect the storm to cause a lingering problem, though.
A geomagnetic storm is threatening radio communications Monday night, but that doesn’t mean you should be concerned. In fact, it may be an opportunity to see a colorful aurora in the night sky.
The National Oceanic and Atmospheric Administration has issued a geomagnetic storm watch after witnessing a coronal mass ejection from the sun on Saturday. The watch, which was issued over the weekend and will expire after Monday, said the onset of the storm passing over Earth on Sunday night represented a «moderate» threat to communications. As the storm continues to pass through, it could deliver a «strong» threat on Monday night that could cause radio communications to be temporarily disrupted during the worst of it.
Even so, NOAA said, «the general public should not be concerned.»
A coronal mass ejection occurs when magnetic field and plasma mass are violently expelled from the sun’s corona, or the outermost portion of the sun’s atmosphere. In the vast majority of cases, the ejection occurs with no real threat to Earth. However, in the event the ejection happens in the planet’s direction, a geomagnetic storm occurs, and the Earth’s magnetic field is temporarily affected.
In most cases, geomagnetic storms cause little to no disruption on Earth, with radio communications and satellites affected most often. In extreme cases, a geomagnetic storm can cause significant and potentially life-threatening power outages — a prospect that, luckily, the planet hasn’t faced.
Switching poles
Every 11 years, the sun’s magnetic poles switch, with the north pole and south pole swapping positions. During those cycles, the sun’s activity ramps up as it gets closer to pole-switching time. The height of its activity is called solar maximum, and scientists believe we either may be entering the solar maximum or may be already in it.
During periods of heightened solar activity, sunspots increase on the sun and there’s an increase in coronal mass ejections, among other phenomena. According to NOAA, solar maximum could extend into October of this year before the sun’s activity calms and it works towards its less-active phase, solar minimum.
Even when geomagnetic storms hit Earth and disrupt communications, the effects are usually short-lived. Those most affected, including power grid operators and pilots and air traffic controllers communicating over long distances, have fail-safe technologies and backup communications to ensure operational continuity.
But geomagnetic storms aren’t only about radios. In most cases, they also present unique opportunities to see auroras in the night sky. When the storms hit, the plasma they carry creates a jaw-dropping aurora, illuminating the night sky with brilliant colors. Those auroras can be especially pronounced during the most intense phases of the storm, making for nice stargazing.
If you’re interested in seeing the aurora, you’ll need to be ready. The NOAA said the «brunt of the storm has passed» and even if it lingers into Tuesday, there won’t be much to see after Monday night.
Technologies
Last Total Solar Eclipse for 20 Years Is Coming: How to See and Photograph It
It’s your last chance until 2044.
Get your eclipse glasses ready, Skygazers: the Great American Eclipse is on its way. On April 8, there’ll be a total eclipse over North America, the last one until 2044.
A total solar eclipse happens when the moon passes between the Earth and the sun, blocking the sun and turning an otherwise sunny day to darkness for a short period of time. Depending on the angle at which you’re viewing the eclipse, you may see the sun completely shrouded by the moon (called totality) or some variation of it. The more off-angle you are and the further you are from the path of the eclipse, the less likely you’ll be to see the totality.
The 2024 total solar eclipse will happen on Monday, April 8. The Great American Eclipse will reach the Mexican Pacific coast at 11:07 a.m. PT (2:07 p.m. ET), and then traverse the US in a northeasterly direction from Texas to Maine, and on into easternmost Canada. If you want a good look at it, but don’t live in the path of totality, you shouldn’t wait much longer to book accommodation and travel to a spot on the path.
Or how about booking a seat in the sky? Delta Airlines made headlines for offering a flight that allows you to see the entire path of totality. Its first eclipse flight, from Austin, Texas, to Detroit sold out quickly. But as of Monday, Delta has added a second flight from Dallas to Detroit, which also covers the path of totality. The airline also has five flights that will offer prime eclipse viewing.
Not everyone can get on one of those elusive eclipse-viewing flights. Here’s a look at other options to nab a chance to see this rare sight and what to know about it.
Total solar eclipse path
The eclipse will cross over the Pacific coast of Mexico and head northeast over mainland Mexico. The eclipse will then make its way over San Antonio at approximately 2:30 p.m. ET on April 8 and move through Texas, over the southeastern part of Oklahoma and northern Arkansas by 2:50 p.m. ET.
By 3 p.m. ET, the eclipse will be over southern Illinois, and just 5 minutes later, will be traveling over Indianapolis. Folks in northwestern Ohio will be treated to the eclipse by 3:15 p.m. ET, and it will then travel over Lake Erie and Buffalo, New York, by 3:20 p.m. ET. Over the next 10 minutes, the eclipse will be seen over northern New York state, then over Vermont. By 3:35 p.m. ET, the eclipse will work its way into Canada and off the Eastern coast of North America.
Best places to watch the Great American Eclipse
When evaluating the best places to watch this year’s total eclipse, you’ll first want to determine where you’ll have the best angle to see the totality. The farther off-angle you are — in other words, the farther north or south of the eclipse’s path — the less of an impact you can expect.
Therefore, if you want to have the best chance of experiencing the eclipse, you’ll want to be in its path. As of this writing, most of the cities in the eclipse’s path have some hotel availability, but recent reports have suggested that rooms are booking up. And as more rooms are booked, prices are going up.
So if you want to be in the eclipse’s path, and need a hotel to do it, move fast. And Delta’s eclipse-viewing flight from Dallas to Detroit has just four seats left at the time of publication.
Eclipse eye safety and photography
As with any solar eclipse, it’s critical you keep eye safety in mind.
During the eclipse, and especially during the periods before and after totality, don’t look directly at the sun without special eye protection. Also, be sure not to look at the sun through a camera (including the camera on your phone), binoculars, a telescope or any other viewing device. This could cause serious eye injury. Sunglasses aren’t enough to protect your eyes from damage.
If you want to view the eclipse, you’ll instead need solar viewing glasses that comply with the ISO 12312-2 safety standard. Anything that doesn’t meet that standard or greater won’t be dark enough to protect your eyes. Want to get them for free? If you’ve got a Warby Parker eyeglasses store nearby, the company is giving away free, ISO-certified solar eclipse glasses at all of its stores from April 1 until the eclipse, while supplies last.
If you don’t have eclipse viewing glasses handy, you can instead use indirect methods for viewing the eclipse, like a pinhole projector.
Read more: A Photographer’s Adventure With the Eclipse
In the event you want to take pictures of the eclipse, attach a certified solar filter to your camera. Doing so will protect your eyes and allow you to take photos while you view the eclipse through your lens.
There’s also a new app to help you both protect your eyes and take better photos of the eclipse on your phone. Solar Snap, designed by a former Hubble Space Telescope astronomer, comes with a Solar Snap camera filter that attaches to the back of an iPhone or Android phone, along with solar eclipse glasses for protecting your eyesight during the event. After you attach the filter to your phone, you can use the free Solar Snap Eclipse app to zoom in on the eclipse, adjust exposure and other camera settings, and ultimately take better shots of the eclipse.
2024 eclipse compared to 2017
The last total solar eclipse occurred in 2017, and many Americans had a great view. Although there are plenty of similarities between the 2017 total solar eclipse and the one coming April 8, there are a handful of differences. Mainly, the 2024 eclipse is going to cover more land and last longer.
The 2017 eclipse started over the northwest US and moved southeast. Additionally, that eclipse’s path was up to 71 miles wide, compared with a maximum width of 122 miles for this year’s eclipse. Perhaps most importantly, the moon completely covered the sun for just 2 minutes, 40 seconds in 2017. This year, maximum totality will last for nearly four-and-a-half minutes.
-
Technologies1 год ago
Tech Companies Need to Be Held Accountable for Security, Experts Say
-
Technologies3 года ago
Verum, Wickr and Threema: next generation secured messengers
-
Technologies2 года ago
Olivia Harlan Dekker for Verum Messenger
-
Technologies3 года ago
Google to require vaccinations as Silicon Valley rethinks return-to-office policies
-
Technologies3 года ago
iPhone 13 event: How to watch Apple’s big announcement tomorrow
-
Technologies2 года ago
Made in the USA: Baseball bats, sticky notes, kitchen mixers and more
-
Technologies2 года ago
Black Friday 2021: The best deals on TVs, headphones, kitchenware, and more
-
Technologies2 года ago
Regen-COV might work before COVID exposure, trial shows: What to know about monoclonal antibodies