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25 minutes ago
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Samsung Expands Galaxy AI as Consumer Desire for Mobile AI Grows
Major commitment announced during Galaxy AI Forum at Galaxy Unpacked NEW YORK, July 14, 2025--(BUSINESS WIRE)--Samsung has today announced a major commitment to expand Galaxy AI to over 400 million devices globally by the end of 2025. This builds on its 2024 milestone of bringing Galaxy AI to more than 200 million devices, beginning with the Galaxy S24 series. Since launch, Galaxy AI has helped define a new era of mobile AI innovation – transforming what's possible on smartphones. Today, over 70% of Galaxy S25 users actively engage with a growing suite of AI-powered features developed in collaboration with Samsung and Google. Among these, Google Gemini has seen the most notable growth, with usage tripling across the latest Galaxy S series. Through close collaboration with Samsung, Gemini is deeply integrated across Galaxy devices – connecting with first-party apps to deliver helpful and personalised responses. Mindy Brooks, Vice President, Android Consumer Product & Experience, Google, said: "Through close collaboration with Samsung, Gemini works seamlessly across its devices and connects with its first-party apps to provide helpful and personalised responses. For example, Gemini's live video capabilities have been optimized for the Flip's front screen camera, and Gemini on Galaxy Watch leverages context from your phone." Consumers Are Turning to Mobile AI for Everyday Tasks One year on from the inaugural Galaxy AI Forum, Samsung is sharing new insights into how AI is transforming daily life. Research conducted with Symmetry Research reveals growing reliance on mobile AI and evolving expectations for more personalised, proactive features: 47% of consumers say their daily routines would be disrupted without AI tools such as personalised notifications, AI-powered search, and voice assistance. 45% now use voice commands as often as they type – highlighting a shift in how users interact with their devices. These trends point to growing demand for multimodal, intelligent, and intuitive AI experiences. Democratising Mobile AI for All Samsung's expansion of Galaxy AI to 400 million devices reflects its commitment to democratising the power and possibilities of mobile AI. Whether through intuitive voice features, on-device privacy, or cross-device intelligence, Samsung is building a future where AI is seamlessly embedded in the smartphone – the device that's always in your hand. Jisun Park, Corporate Executive Vice President & Head of Language AI Team, Mobile eXperience Business at Samsung Electronics, concluded: "Some see AI as the start of a 'post smartphone' era, but we see it differently. We're building a future where your devices don't just respond, they become smarter to anticipate, see, and work quietly in the background to make life feel a little more effortless." Learn more about how Samsung and its industry partners are shaping the future of mobile AI here: View source version on Contacts George Error in retrieving data Sign in to access your portfolio Error in retrieving data Error in retrieving data Error in retrieving data Error in retrieving data
Yahoo
25 minutes ago
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Boston Scientific's (BSX) FARAPULSE Approved by FDA for Expanded Labeling
Boston Scientific Corporation (NYSE:BSX) is one of the 13 Best Large Cap Stocks to Buy Right Now. On July 7, Boston Scientific Corporation (NYSE:BSX) announced that it has obtained approval to expand the instructions for use (IFU) labeling for the FARAPULSE Pulsed Field Ablation (PFA) System from the US Food and Drug Administration (FDA). The new labeling will allow the system to be used in the treatment of drug-refractory, symptomatic persistent atrial fibrillation (AF), a condition where the heart beats abnormally for a minimum of seven days. A surgeon examining a patient's brain in an operating room, paramedics nearby. Boston Scientific Corporation (NYSE:BSX) expects to receive approval in Europe, Japan, and China in the coming months. This will make the system available to more patients around the world in the near future. Boston Scientific Corporation (NYSE:BSX) is an American biotechnology and biomedical engineering firm that offers a portfolio of devices and therapies that help physicians diagnose and treat cardiovascular, respiratory, digestive, oncological, neurological, and urological diseases and conditions. While we acknowledge the potential of BSX as an investment, we believe certain AI stocks offer greater upside potential and carry less downside risk. If you're looking for an extremely undervalued AI stock that also stands to benefit significantly from Trump-era tariffs and the onshoring trend, see our free report on the best short-term AI stock. READ NEXT: 10 Best American Semiconductor Stocks to Buy Now and 11 Best Fintech Stocks to Buy Right Now. Disclosure: None. This article is originally published at Insider Monkey. Error in retrieving data Sign in to access your portfolio Error in retrieving data Error in retrieving data Error in retrieving data Error in retrieving data
Yahoo
28 minutes ago
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A clever glass trick fixes the decade-old photonic crystal laser problem
Photonic-crystal surface-emitting laser (PCSEL) is a promising technology that can completely revolutionize what lasers can achieve. Such a system can produce highly directional, bright beams with pinpoint precision, making it ideal for applications like LiDAR, optical communication, and sensing systems used in autonomous vehicles and defense gadgets. However, despite their potential, PCSELs have been notoriously difficult to develop. The problem lies in their core design, which relies on special air holes that disappear soon after they are formed. Now, engineers at University of Illinois Urbana-Champaign (UIUC) have overcome this long-standing hurdle. Instead of air holes, they have proposed embedding silicon dioxide into the photonic crystal layer. According to the scientists, this change allowed them to successfully demonstrate the first room-temperature, eye-safe, photopumped PCSEL using buried dielectric features. Traditionally, PCSELs are built with air holes in their photonic crystal layer, which helps control how light moves inside the device. However, when scientists try to grow semiconductor material around those holes, which is a necessary step to complete the laser, the atoms shift and fill in the holes. This reshaping ruins the photonic crystal's structure, preventing the laser from working correctly. To resolve this issue, the study authors filled the photonic crystal layer with silicon dioxide, a solid and stable dielectric material. This change gave the structure strength and prevented it from collapsing during regrowth. However, the solution introduced a new problem. Silicon dioxide is amorphous, meaning it doesn't have a crystal structure, and growing semiconductors on top of such materials is usually extremely difficult. "The first time we tried to regrow the dielectric, we didn't know if it was even possible. Ideally, for semiconductor growth, you want to maintain that very pure crystal structure all the way up from the base layer, which is difficult to achieve with an amorphous material like silicon dioxide," said Erin Raftery, lead researcher and an engineering student at UIUC. For a laser to function, the semiconductor layers above need to maintain a smooth, continuous crystal structure. The team didn't know if it would be possible, but by carefully controlling the conditions, the engineers managed to grow the semiconductor laterally around the dielectric and then merge the material over the top, in a process known as coalescence. The result was a buried dielectric PCSEL that could emit a laser beam when excited by light, even at room temperature, and at a wavelength safe for the human eye, something no one had achieved before. This proof-of-concept lays the foundation for a new generation of surface-emitting lasers that are more precise, stable, and scalable than current technologies. PCSELs will produce high-brightness, narrow, circular beams, making them ideal for everything ranging from communication applications to high-tech weaponry. The use of solid dielectric material also simplifies the fabrication process and improves device durability. However, this first version still requires external light (photopumping) to power the laser, which limits its practicality in real-world applications. To make it truly usable, the team plans to design an electrically injected version by adding electrical contacts, allowing the laser to run on standard power sources. The study is published in the journal IEEE Photonics Journal.
