julius wowowin
AleAnna, Inc. Announces Completion of Business Combination between Swiftmerge Acquisition Corp. ...
Manchester City, Arsenal, and now Tottenham. The list of top Premier League teams beaten at Bournemouth this season is growing. Dean Huijsen took advantage of Tottenham’s weakness at set pieces to head home a 17th-minute winner in Bournemouth’s 1-0 victory on Thursday. After the game, some Spurs fans appeared to vent their frustration at manager Ange Postecoglou when he went over to the away contingent following his team's insipid display. “They are pretty disappointed, rightly so, and I got some pretty direct feedback as to how we are going,” the Australian coach said, “and that's fair enough.” Bournemouth climbed to ninth — a point and a place above Tottenham in the standings — and underlined its penchant for surprising high-profile visitors to Vitality Stadium. Man City’s remarkable four-game losing run in the Premier League started with a 2-1 defeat at Bournemouth, while fellow title contender Arsenal’s first loss of the season also came at the Vitality, 2-0 on Oct. 19. This was Spurs' sixth defeat of the campaign. They now have as many wins as losses, highlighting the inconsistency blighting their season, and their seven away results so far make remarkable reading: aside from a 3-0 win at Manchester United and a 4-0 thrashing of Man City, Tottenham has lost four and drawn the other at relegation candidate Leicester. “We've got to get out of this space we're in at the moment where we're just not able to get a real grip on our season,” Postecoglou said. An inability to defend set plays continues to hurt Postecoglou’s team. A week after Roma scored twice from them in a 2-2 draw in the Europa League, Huijsen roamed free in the area at a corner and headed home unmarked. Postecoglou said in May said he “wasn’t interested” about his side’s fallibility while defending set pieces, and said after losing 1-0 to Arsenal in September — after a goal from Gabriel at a corner — that “it’s my burden to carry and I’m happy to do that.” “We started well and conceded a really poor goal," Postecoglou said after the Bournemouth game. “It’s a difficult place to come when giving the opposition the opportunity to play in the manner they want.” IWOBI DOUBLE Alex Iwobi scored goals early and late in the game to lead Fulham to a 3-1 win over Brighton. The Nigeria winger intercepted a stray pass out from the back by Brighton goalkeeper Bart Verbruggen and slotted into an unguarded net for the opener in the fourth minute and curled home Fulham’s clinching goal in the 87th. Carlos Baleba equalized for Brighton in the 56th before Brighton midfielder Matt O’Riley – a former Fulham academy player – deflected the ball into his own net from a corner to put the home side back in front. Fulham climbed to sixth in the standings, a point and a place behind Brighton. AP soccer: https://apnews.com/hub/soccerIf You're Puzzled By How People Keep Their Homes Tidy, These 28 Products Can Help You Pick Up The Pieces In Your Place
Trump’s lawyers rebuff DA's idea for upholding his hush money conviction, calling it 'absurd'Lynk & Co L946 flagship SUV revealed in official images – set to launch in 2025 The Lynk & Co L946 flagship crossover with a plug-in hybrid powertrain was officially revealed in China as it readies for the official launch in 2025. This full-size SUV will rival Huawei’s Aito M9, Li Auto L9, and the upcoming Denza N9. Lynk & Co is a high-end NEV brand founded in 2017 by Geely and Volvo. It became a part of the Geely -owned Zeekr Technology in 2024. Lynk & Co’s wide domestic model line consists of 10 cars. The full-size flagship SUV codenamed L946 will become the latest addition to the lineup. It was officially revealed in China. Lynk & Co L946’s first official photos Lynk & Co shared the first official photos of the L946 crossover undergoing winter tests in China. The car is covered with rather revealing camouflage. It allows us to see key details of the L946’s exterior design. This is a large vehicle with a slightly slanted roofline. From the side, it looks close to the Range Rover Sport. The L946 adopts hidden door handles, roof racks, frameless mirrors, and some plastic trim around the body. The front end of Lynk & Co’s flagship crossover has the brand’s distinguishing LED running lights with headlights integrated into the front bumper. The car has a closed front end with no grille. Instead, the L946 has a large rectangular active air intake in the front bumper to ensure the engine is cool. Other features of the car include a LiDAR sensor on the roof, blackened pillars, and a single taillight strip. Large five-spoke wheels with orange brake calipers in the front add some sportiness to this SUV. Lynk & Co didn’t share interior photos of the L946. However, we previously covered its spy shots . They revealed the L946 is a three-row SUV with two independent captain chairs on the second row. CarNewsChina expects this vehicle to adopt the plug-in hybrid powertrain. Its specs will be revealed closer to the launch date. The car will start sales in March 2025 with a starting price of 300,000 yuan (41,100 USD).
No. 24 UCLA, Arizona have first reunion since Pac-12 daysNone
Socket-Outlet Residual Current Devices Market Outlook and Future Projections for 2030 12-25-2024 01:58 PM CET | Business, Economy, Finances, Banking & Insurance Press release from: Dhirtek Business Research and Consulting Socket-Outlet Residual Current Devices Market The socket-outlet residual current devices market represents a dynamic and continually evolving landscape, shaped by changing consumer demands and technological advancements. In this comprehensive report, we provide an in-depth exploration of the market, designed for a wide range of stakeholders including manufacturers, suppliers, distributors, and investors. Our goal is to equip industry participants with essential insights that enable informed decision-making in an ever-changing market environment. This analysis not only examines the current state of the socket-outlet residual current devices market but also forecasts its future trends. Scope and Purpose This report serves as an extensive resource, thoughtfully curated to deliver actionable intelligence to industry stakeholders. It covers critical elements such as market dynamics, competitive environments, growth opportunities, challenges, and regional differences. The insights provided go beyond mere descriptions, offering a valuable tool for stakeholders to refine their strategies and make informed choices in a competitive market. Request for Sample Report: https://www.dhirtekbusinessresearch.com/market-report/Socket-Outlet-Residual-Current-Devices-Market/request-for-sample-report Comprehensive Market Analysis We are committed to providing a thorough analysis that explores every aspect of market growth, including shifts in consumer preferences and technological innovations driving demand for socket-outlet residual current devices products. We also address the challenges faced by the industry, such as economic uncertainties and intense competition, offering insights to help stakeholders navigate these complexities. Key Players in the Socket-Outlet Residual Current Devices Market: Schneider Electric SIEMENS ABB EATON Chint Group DELIXI ELECTRIC Legrand Rockwell Automation BG Electrical LOVATO Electric Sassin International Electric Strategic Guidance for the Future This report invites stakeholders to delve into a detailed examination of the competitive landscape. By profiling key players in the socket-outlet residual current devices market and analyzing their strategies, we offer crucial insights to help industry participants make informed strategic decisions. Whether it's about outpacing competitors or learning from successful approaches, our analysis is designed to guide stakeholders toward success. Anticipated Insights Understanding the diverse segments within the socket-outlet residual current devices market is critical to success. Our report breaks down segment sizes, potential growth trajectories, and key trends, offering actionable insights that allow stakeholders to develop targeted strategies and optimize resource allocation. The knowledge provided empowers stakeholders to navigate the complexities of the socket-outlet residual current devices market with clarity and confidence. Balancing Market Forces and Strategic Impact This report delivers a comprehensive analysis of the factors shaping the socket-outlet residual current devices market. By evaluating both the drivers of market growth and the obstacles that could impede it, stakeholders gain a holistic understanding of the market's dynamics. For manufacturers, this analysis helps align innovation efforts with consumer demands and regulatory trends, while investors and decision-makers gain a deeper understanding of economic risks and supply chain vulnerabilities, allowing them to make more informed strategic choices. Our goal is to provide stakeholders with the knowledge needed to confidently and successfully navigate the socket-outlet residual current devices market. Competitive Landscape Our in-depth examination of the socket-outlet residual current devices market's competitive landscape highlights key players, scrutinizing their strategies and impacts on the industry. By analyzing the approaches of major companies, stakeholders gain a valuable understanding of market dynamics and can leverage these insights to identify growth opportunities, innovate, and make informed strategic decisions. Market Segmentation The report begins with a detailed analysis of the unique characteristics defining each segment within the socket-outlet residual current devices market. Segmentation can occur across various dimensions, including product types, customer demographics, or specific use cases. Understanding these differences allows stakeholders to tailor their strategies, products, and marketing efforts to meet the specific needs of each segment, enhancing competitive positioning and maximizing opportunities for success. Market Segments: Product Type: Type AC RCD Type A RCD Type B RCD Type F RCD Others Application: Home Commercial Industrial Market Size and Segment Growth Potential A crucial part of the report focuses on understanding the size and significance of each market segment. We provide quantitative data that illustrates the market share and contribution of each segment, enabling stakeholders to make informed decisions regarding resource allocation, strategic prioritization, and investment. This section offers insights into the growth potential of each segment, including factors driving future expansion, evolving consumer preferences, and technological adoption. Conclusion This report serves as a strategic guide for stakeholders in the socket-outlet residual current devices market, offering comprehensive insights into market segmentation, competitive dynamics, and growth potential. By understanding the market's complexities and emerging opportunities, industry participants can make well-informed decisions that drive success and innovation in this rapidly evolving market. Other Reports Mealtime Insulin Market https://www.dhirtekbusinessresearch.com/market-report/Mealtime-Insulin-Market Air Bearing Polygon Scanners Market https://www.dhirtekbusinessresearch.com/market-report/Air-Bearing-Polygon-Scanners-Market Ultraviolet Absorber UV-772 Market https://www.dhirtekbusinessresearch.com/market-report/Ultraviolet-Absorber-UV-772-Market PCB Plating Solution Market https://www.dhirtekbusinessresearch.com/market-report/PCB-Plating-Solution-Market "Contact Us Dhirtek Business Research and Consulting Private Limited Contact No: +91 7580990088 Email Id: sales@dhirtekbusinessresearch.com" "About Us Dhirtek Business Research & Consulting Pvt Ltd is a global market research and consulting services provider headquartered in India. We offer our customers syndicated research reports, customized research reports, and consulting services. Our objective is to enable our clientele to achieve transformational progress and help them to make better strategic business decisions and enhance their global presence. We serve numerous companies worldwide, mobilizing our seasoned workforce to help companies shape their development through proper channeling and execution. We offer our services to large enterprises, start-ups, non-profit organizations, universities, and government agencies. The renowned institutions of various countries and Fortune 500 businesses use our market research services to understand the business environment at the global, regional, and country levels. Our market research reports offer thousands of statistical information and analysis of various industries at a granular level." This release was published on openPR.
South Korean researchers have built a wearable robotic exoskeleton suit that can help people with paraplegia walk again. The suit, dubbed WalkON Suit F1, was developed by the Exoskeleton Laboratory team at the Korea Advanced Institute of Science and Technology (KAIST). The researchers have built several iterations of the wearable robot exoskeleton previously, but the latest model comes with a frontal-docking mechanism. It can also walk and approach the user, which has earned it the moniker of the “Iron Man” suit. KAIST's Exoskeleton Laboratory Unveils WalkON Suit F1 In a newsroom post , the researchers unveiled the new exoskeleton robotic suit and highlighted that it was specifically designed for people with paraplegia (paralysis of the legs and lower body) to help them walk again. The team stated that the robotic suit can walk to the user and be worn while sitting in a wheelchair, making it accessible without requiring help from others. Developed in collaboration with Angel Robotics, the robot can assist people with the American Spinal Injury Association's (ASIA) impairment scale of A-grade (complete paralysis) injury, which is the most severe level of paraplegia. It is designed as a walking assistant, and it's not meant to be used for rehabilitation therapy or improving muscle strength. The WalkON Suit F1 project was led by Professor Kyoungchul Kong (the CEO and founder of Angel Robotics) of the KAIST Department of Mechanical Engineering. The current model follows the WalkON Suit 1, announced in 2016, and the WalkON Suit 4, which arrived in 2020. The latest iteration solves several issues of its predecessors. Specifically, it addresses the issue of users needing help from others to wear the robot. This is because the earlier models had a rear-sitting mechanism. The WalkON Suit F1 instead has a frontal docking system that can be worn while sitting in a wheelchair. Additionally, the suit can walk like a humanoid robot and approach the user, eliminating the need for someone to bring the exoskeleton suit. The robot also actively controls the centre of its weight against gravity to maintain balance even when the user pushes the robot. The design of the wearable robot was created by Professor Hyunjoon Park of the Department of Industrial Design at KAIST. With this, users can walk at a speed of 3.2kmph. Users can also keep both their hands free while walking, which was not possible in older versions. Further, the team claims that the robot has the ability to pass through obstacles such as narrow passages, doors, and stairs. Notably, the robot is built with aluminium and titanium and weighs 50kg. For the latest tech news and reviews , follow Gadgets 360 on X , Facebook , WhatsApp , Threads and Google News . For the latest videos on gadgets and tech, subscribe to our YouTube channel . If you want to know everything about top influencers, follow our in-house Who'sThat360 on Instagram and YouTube .
Lovett Industrial Begins Construction on 121 Logistics Park, a Two-Building Industrial Development in Coppell and Lewisville TexasJ.K. Dobbins' knee injury could be tough news for the Chargers offense
Give the Gift of Movies at Regal this Holiday SeasonLeague fines Hawks $100,000 for Young missing NBA Cup game
WASHINGTON (AP) — In an evening announcement, President-elect Donald Trump railed against Mexico and Canada, accusing them of allowing thousands of people to enter the U.S. Hitting a familiar theme from the campaign trail and his first term in office, Trump portrayed the country's borders as insecure and immigrants as contributing to crime and the fentanyl crisis. In an announcement that could have stark repercussions, he threatened to impose 25% tariffs on everything coming into the country from those two countries. Javascript is required for you to be able to read premium content. Please enable it in your browser settings. Get any of our free email newsletters — news headlines, obituaries, sports, and more.Psychics predict ‘nothing good’ for 2025 — expect a ‘deeply transformative phase’None
Alarm in France over fate of detained French-Algerian writerYoung holds 3-shot lead over Scheffler in BahamasDecember 13, 2024 This article has been reviewed according to Science X's editorial process and policies . Editors have highlightedthe following attributes while ensuring the content's credibility: fact-checked peer-reviewed publication trusted source proofread by University of Oulu In a recent study, rare wooden structures from the Roman Empire were investigated in a wide range of ways using NMR methods. These methods, widely known for their use in hospital MRI scans to produce detailed images of the human body, have proven equally valuable in unraveling the secrets of Europe's archaeological treasures. Promising applications are rapidly expanding into a wide range of fields. The samples are from the wooden poles of the pier of an ancient Roman harbor discovered during excavations for a new metro line in Naples, Italy, which began in 2004. The discoveries also moved the route of the metro line, which now runs underneath the archaeological treasures. The development of the discovered port tells an interesting story of the Roman Empire. "It is rare that ancient organic wooden structures are found at all, as they usually degrade over time unless they are in a humid environment. The exceptional discovery was made possible by the aquifer that has preserved the pier structures for centuries," says Otto Mankinen, a researcher at the University of Oulu. NMR spectroscopy, or nuclear magnetic resonance spectroscopy, is based on radio-frequency radiation, so it does not damage the target at all. Medical MRI in hospitals is one of the well-known applications of NMR spectroscopy. The technique exploits the magnetic properties of atomic nuclei to obtain very precise information about the structure and properties of matter. The non-invasive nature of NMR measurements is also particularly important when examining archaeologically valuable samples or, for example, paintings for restoration. Many other methods can damage the sample, such as X-ray or light microscopy , which often also requires slicing of the sample, a destructive and challenging process when dealing with fragile and spongy underwater wood remains. If they are lifted into the air, activated decomposers can destroy the samples or they can decay. In the new study, now published in Physical Chemistry Chemical Physics , wood samples were preserved under similar conditions where they spent centuries. The team aimed to find out how wood behaves and survives in water and to reconstruct the changes caused by decay, and to make a comprehensive analysis of the structure and changes in archaeological wood remains. The study is one of the first to combine four different NMR techniques: relaxometry, micro-imaging, diffusometry and cryoporometry. Archaeological samples of spruce, chestnut and maple were compared with fresh wood material from the same species. "Knowledge of structural preservation is essential and important. It helps to find new ways to ensure that archaeologically valuable heritage is preserved for future generations ," says Mankinen. "In the future, the method needs to be developed with a larger number of samples of coniferous and deciduous trees. These can be very different depending on the age of the tree, the specimen and the location of the sample in the trunk. The differences between current and old wood samples require careful interpretation." "The valuable samples were analyzed at the University of Oulu, as one of our long-standing research topics has been the analysis of wood materials. The best way forward would be to take NMR equipment on-site to historic finds, which are often too fragile to move," says Mankinen. The new findings will also contribute to the development of mobile NMR instruments. Discover the latest in science, tech, and space with over 100,000 subscribers who rely on Phys.org for daily insights. Sign up for our free newsletter and get updates on breakthroughs, innovations, and research that matter— daily or weekly . NMR instruments are getting smaller and cheaper—with applications in many fields When he came to his studies, Mankinen was surprised by the diversity of physics and NMR studies. "The methods are used for really interesting studies, and I didn't know before that I would be involved in archaeological research." The next studies are already underway, now on even older wooden artifacts from Neolithic inhabitants up to 7,500 years old in Italy's Lake Bracciano. In recent years, NMR techniques have become faster and more sensitive, and the trend is also towards smaller and smaller instruments. Mobile NMR instruments are also less expensive. There are high expectations and promising results for practical applications of NMR spectroscopy in several fields, such as environmental and atmospheric monitoring, battery materials, eco concrete, mine water and catalysts, and biochemistry, as shown in a doctoral thesis at the University of Oulu on December 2024. More information: Valeria Stagno et al, Comprehensive characterization of waterlogged archaeological wood by NMR relaxometry, diffusometry, micro-imaging and cryoporometry, Physical Chemistry Chemical Physics (2024). DOI: 10.1039/D4CP02697G Journal information: Physical Chemistry Chemical Physics Provided by University of Oulu
(All times Eastern) Schedule subject to change and/or blackouts Saturday, Nov. 23 AUSTRALIAN RULES FOOTBALL (WOMEN’S) 3:30 a.m. FS2 — AFL Playoffs: Adelaide at Brisbane, Preliminary Final AUTO RACING 12:55 a.m. (Sunday) ESPN — Formula 1: The Heineken Silver Las Vegas Grand Prix, Las Vegas Strip Circuit, Las Vegas COLLEGE BASKETBALL (MEN’S) Noon FS2 — St. Francis (Pa.) at Georgetown 5 p.m. FS2 — N. Illinois at DePaul COLLEGE BASKETBALL (WOMEN’S) 4 p.m. NBC — Notre Dame at Southern Cal PEACOCK — Notre Dame at Southern Cal COLLEGE CROSS COUNTRY (MEN’S and WOMEN’S) 9:30 a.m. ESPNU — NCAA Championships: From Verona, Wis. COLLEGE FOOTBALL Noon ABC — Mississippi at Florida ACCN — UConn at Syracuse BTN — Iowa at Maryland CBSSN — Sam Houston St. at Jacksonville St. CW — North Carolina at Boston College ESPN — Wake Forest at Miami ESPN2 — SMU at Virginia ESPNU — Yale at Harvard FOX — Indiana at Ohio St. PEACOCK — Illinois at Rutgers 12:45 p.m. SECN — UMass at Georgia 3:30 p.m. ABC — Kentucky at Texas ACCN — Stanford at California BTN — Wisconsin at Nebraska CBS — Penn St. at Minnesota CBSSN — San Diego St. at Utah St. CW — The Citadel at Clemson ESPN — BYU at Arizona St. ESPNU — UCF at West Virginia FOX — Colorado at Kansas FS1 — Northwestern at Michigan 4 p.m. ESPN2 — Pittsburgh at Louisville 4:15 p.m. SECN — Missouri at Mississippi St. 7 p.m. CBSSN — Boise St. at Wyoming CW — Washington St. at Oregon St. FS1 — Baylor at Houston NBC — Army vs. Notre Dame, New York PEACOCK — Army vs. Notre Dame, New York 7:30 p.m. ABC — Alabama at Oklahoma ESPN — Texas A&M at Auburn ESPNU — Marshall at Old Dominion FOX — Iowa St. at Utah 7:45 p.m. SECN — Vanderbilt at LSU 8 p.m. ACCN — Virginia Tech at Duke ESPN2 — Cincinnati at Kansas St. 10:15 p.m. NBC — Southern Cal at UCLA 10:30 p.m. CBSSN — Colorado St. at Fresno St. FS1 — Air Force at Nevada 11 p.m. ESPNU — Florida A&M at Bethune-Cookman (Taped) COLLEGE VOLLEYBALL (WOMEN’S) 8 p.m. BTN — Wisconsin at Nebraska GOLF 1 p.m. GOLF — PGA Tour: The RSM Classic, Third Round, Sea Island Golf Club - Seaside Course, Sea Island, Ga. 4 p.m. GOLF — LPGA Tour: The CME Group Tour Championship, Third Round, Tiburon Golf Club, Naples, Fla. (Taped) 9:30 p.m. GOLF — DP World Tour: The BMW Australian PGA Championship, Final Round, Royal Queensland Golf Club, Brisbane, Australia 1 a.m. (Saturday) GOLF — Asian Tour: The LINK Hong Kong Open, Final Round, Hong Kong Golf Club, Hong Kong HORSE RACING 11:30 a.m. FS1 — NYRA: America’s Day at the Races 3:30 p.m. FS2 — NYRA: America’s Day at the Races 1 a.m. (Sunday) FS2 — The Japan Cup: From Tokyo Racecourse, Tokyo NBA BASKETBALL 5 p.m. NBATV — New York at Utah 8 p.m. NBATV — Memphis at Chicago 10:30 p.m. NBATV — Denver at L.A. Lakers NHL HOCKEY 1 p.m. NHLN — Chicago at Philadelphia 7 p.m. NHLN — Vegas at Montreal SAILING 5 a.m. CBSSN — Sail GP: The Emirates Dubai Sail Grand Prix - Day 1, Dubai, United Arab Emirates 5 a.m. (Sunday) CBSSN — Sail GP: The Emirates Dubai Sail Grand Prix - Day 2, Dubai, United Arab Emirates SOCCER (MEN’S) 7:30 a.m. USA — Premier League: Chelsea at Leicester City 9 a.m. CBSSN — Serie A: Inter Milan at Hellas Verona 10 a.m. USA — Premier League: Brighton & Hove Albion at Bournemouth Noon CBS — USL Championship: Rhode Island at Colorado Springs, Final 12:30 p.m. NBC — Premier League: Tottenham Hotspur at Manchester City 7 p.m. FS2 — Saudi Pro League: Al Hilal at Al Khaleej (Taped) SOCCER (WOMEN’S) 8 p.m. CBS — NWSL Playoffs: Orlando vs. Washington, Final, Kansas City, Mo. TENNIS 7 a.m. TENNIS — Davis Cup Finals Semifinal The Associated Press created this story using technology provided by TV listings provided by . (All times Eastern) Schedule subject to change and/or blackouts Sunday, Nov. 24 COLLEGE BASKETBALL (MEN’S) 10:30 a.m. ESPNU — ESPN2 — Myrtle Beach Invitational: TBD, Seventh-Place Game, Conway, S.C. 11 a.m. CBSSN — St. John’s vs. Georgia, Nassau, Bahamas 1 p.m. CBSSN — Rutgers at Kennesaw St. ESPN — Villanova vs. Maryland, Newark, N.J. ESPN2 — Myrtle Beach Invitational: TBD, Third-Place Game, Conway, S.C. 3 p.m. CBSSN — Greenbrier Tip-Off: TBD, Third-Place Game, West White Sulphur Springs, W.V. ESPN — Charleston Classic: TBD, Third-Place Game, Charleston, S.C. 3:30 p.m. ESPN2 — Florida St. vs. UMass, Uncasville, Conn. 5:30 p.m. CBSSN — Greenbrier Tip-Off: TBD, Championship, West White Sulphur Springs, W.V. ESPN — Myrtle Beach Invitational: TBD, Championship, Conway, S.C. 6 p.m. ESPN2 — Charleston Classic: TBD, Fifth-Place Game, Charleston, S.C. ESPNU — Yale vs. Delaware, Uncasville, Conn. 8 p.m. ESPN2 — Myrtle Beach Invitational: TBD, Fifth-Place Game, Conway, S.C. 8:30 p.m. ESPN — Charleston Classic: TBD, Championship, Charleston, S.C. COLLEGE BASKETBALL (WOMEN’S) 1 p.m. PEACOCK — South Florida vs. Louisville, Lake Buena Vista, Fla. 4 p.m. ACCN — Bethune-Cookman at Virginia BTN — Washington St. at Iowa FS1 — South Carolina at UCLA COLLEGE FIELD HOCKEY 1:30 p.m. ESPNU — NCAA Tournament: TBD, Championship, Ann Arbor, Mich. COLLEGE FOOTBALL 12:30 p.m. ESPNU — FCS Football Selection Show COLLEGE VOLLEYBALL (WOMEN’S) Noon ACCN — Stanford at North Carolina 2 p.m. ACCN — California at Duke SECN — South Carolina at Tennessee 3:30 p.m. ESPNU — Southwestern Athletic Tournament: TBD, Championship, Grambling, La. 4 p.m. SECN — Arkansas at Kentucky 6 p.m. SECN — Auburn vs. Oklahoma 7:30 p.m. BTN — Indiana at Ohio St. 8:30 p.m. ESPNU — Mid-Eastern Athletic Tournament: TBD, Championship, Dover, Del. FIGURE SKATING 4 p.m. NBC — ISU: The 2024 Cup of China, Chongqing, China GOLF 1 p.m. GOLF — PGA Tour: The RSM Classic, Final Round, Sea Island Golf Club - Seaside Course, Sea Island, Ga. NBC — LPGA Tour: The CME Group Tour Championship, Final Round, Tiburon Golf Club, Naples, Fla. HORSE RACING Noon FS1 — NYRA: America’s Day at the Races 4 p.m. FS2 — NYRA: America’s Day at the Races NBA G-LEAGUE BASKETBALL 1 p.m. NBATV — Capital City at Maine NFL FOOTBALL 1 p.m. CBS — Regional Coverage: New England at Miami, Tampa Bay at N.Y. Giants, Kansas City at Carolina, Tennessee at Houston FOX — Regional Coverage: Minnesota at Chicago, Detroit at Indianapolis, Dallas at Washington 4:05 p.m. CBS — Denver at Las Vegas 4:25 p.m. FOX — Regional Coverage: San Francisco at Green Bay, Arizona at Seattle 8:20 p.m. NBC — Philadelphia at L.A. Rams PEACOCK — Philadelphia at L.A. Rams NHL HOCKEY 7 p.m. NHLN — Utah at Toronto SAILING 5 a.m. CBSSN — Sail GP: The Emirates Dubai Sail Grand Prix - Day 2, Dubai, United Arab Emirates SOCCER (MEN’S) 9 a.m. USA — Premier League: Liverpool at Southampton 11:30 a.m. USA — Premier League: Manchester United at Ipswich Town 11:45 a.m. FS2 — Saudi Pro League: Al Fateh at Al Ittihad Noon ABC — Spanish Primera Division: Real Madrid at CD Leganés 6 p.m. FS1 — MLS Cup Western Conference Semifinal: Minnesota at L.A. Galaxy TENNIS 10 a.m. TENNIS — Davis Cup Finals Championship The Associated Press created this story using technology provided by TV listings provided by .Cameroun: Election présidentielle de 2025 - Près de 40 observateurs de la région de l'Ouest formés
In brief: Scientists at MIT have achieved a groundbreaking feat by creating a unique magnetic state in a material using light. By applying lasers, they successfully switched an antiferromagnetic material into an entirely new magnetic state. This discovery holds the potential to revolutionize next-generation memory and data storage technology, paving the way for chips far more advanced than today's standards. The research team, led by physics professor Nuh Gedik, concentrated on a material called FePS3, a type of antiferromagnet that transitions to a non-magnetic state at around -247°F. They hypothesized that precisely exciting the vibrations of FePS3's atoms with lasers could disrupt its typical antiferromagnetic alignment and induce a new magnetic state. In conventional magnets (ferromagnets), all atomic spins align in the same direction, making their magnetic field easy to control. In contrast, antiferromagnets have a more complex up-down-up-down spin pattern that cancels out, resulting in zero net magnetization. While this property makes antiferromagnets highly resistant to stray magnetic influences – an advantage for secure data storage – it also creates challenges in intentionally switching them between "0" and "1" states for computing. Gedik's innovative laser-driven approach seeks to overcome this obstacle, potentially unlocking antiferromagnets for future high-performance memory and computational technologies. The team's innovative approach involved cooling a FePS3 sample below its transition temperature and then blasting it with a carefully tuned terahertz laser pulse. These lasers, oscillating over a trillion times per second, perfectly matched the natural vibrational frequencies of the material's atoms. Amazingly, the researchers discovered that these pulses pushed the material into a completely new, magnetized state that lasted for several milliseconds after the laser pulse ended. While milliseconds may seem fleeting, in the quantum world, that's practically an eternity compared to prior attempts, as Gedik emphasized. Looking ahead, the researchers aim to refine and further understand these induced magnetic phases. The ultimate goal is to leverage antiferromagnets in next-generation data storage and processing hardware. Their robust magnetic domains, resistant to stray magnetic noise, could enable denser, more energy-efficient memory and logic chips compared to today's technology. However, significant engineering challenges remain before antiferromagnetic computers can become a reality. The team is optimistic, and their groundbreaking findings, published in Nature, represent a critical step toward that vision.CAF Women’s Awards 2024: Fans question Ajibade omission, back Nnadozie for honoursWireless Motorcycle GPS Navigator Market Outlook and Future Projections for 2030
2024: Successful year for migration governance in Nigeria – Official