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Nobel Prize Winner Plans to Develop World’s Most Powerful Quantum Computer

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Ryan Wills, New Scientist. Alamy

John Martinis is a leading expert in quantum hardware, who emphasizes hands-on physics rather than abstract theories. His pivotal role in quantum computing history makes him indispensable to my book on the subject. As a visionary, he is focused on the next groundbreaking advancements in the field.

Martinis’s journey began in the 1980s with experiments that pushed the limits of quantum effects, earning him a Nobel Prize last year. During his graduate studies at the University of California, Berkeley, he tackled the question of whether quantum mechanics could apply to larger scales, beyond elementary particles.

Collaborating with colleagues, Martinis developed circuits combining superconductors and insulators, demonstrating that multiple charged particles could behave like a single quantum entity. This discovery initiated the macroscopic quantum regime, forming the backbone of modern quantum computers developed by giants like IBM and Google. His work led to the adoption of superconducting qubits, the most common quantum bits in use today.

Martinis made headlines again when he spearheaded a team at Google that built the first quantum computer to achieve quantum supremacy. For nearly five years, this machine could independently verify the outputs of random quantum circuits, though it was eventually surpassed by classical computers in performance.

Approaching seven decades of age, Martinis still believes in the potential of superconducting qubits. In 2024, he co-founded QoLab, a quantum computing startup proposing revolutionary methodologies aimed at developing a genuinely practical quantum computer.

Carmela Padavich Callahan: Early in your career, you fundamentally impacted the field. When did you realize your experiments could lead to technological advancements?

John Martinis: I questioned whether macroscopic variables could bypass quantum mechanics, and as a novice in the field, I felt it was essential to test this assumption. A fundamental quantum mechanics experiment intrigued me, even though it initially seemed daunting.

Our first attempt was a simple and rapid experiment using contemporary technology. The outcome was a failure, but I quickly pivoted. Learning about microwave engineering, we tackled numerous technical challenges before achieving subsequent successes.

Over the next decade, our work on quantum devices laid a solid foundation for quantum computing theory, including the breakthrough Scholl algorithm for factorizing large numbers, essential for cryptography.

How has funding influenced research and the evolution of technology?

Since the 1980s, the landscape has transformed dramatically. Initially, there was uncertainty about manipulating single quantum systems, but quantum computing has since blossomed into a vast field. It’s gratifying to see so many physicists employed to unravel the complexities of superconducting quantum systems.

Your involvement during quantum computing’s infancy gives you a unique perspective on its trajectory. How does that inform your current work?

Having long experience in the field, I possess a deep understanding of the fundamentals. My team at UC Santa Barbara developed early microwave electronics, and I later contributed to foundational cooling technology at Google for superconducting quantum computers. I appreciate both the challenges and opportunities in scaling these complex systems.

Cryostat for Quantum Computers

Mattia Balsamini/Contrasto/Eyeline

What changes do you believe are necessary for quantum computers to become practical? What breakthroughs do you foresee on the horizon?

After my tenure at Google, I reevaluated the core principles behind quantum computing systems, leading to the founding of QoLab, which introduces significant changes in qubit design and assembly, particularly regarding wiring.

We recognized that making quantum technology more reliable and cost-effective requires a fresh perspective on the construction of quantum computers. Despite facing skepticism, my extensive experience in physics affirms that our approach is on the right track.

It’s often stated that achieving a truly functional, error-free quantum computer requires millions of qubits. How do you envision reaching that goal?

The most significant advancements will arise from innovations in manufacturing, particularly in quantum chip fabrication, which is currently outdated. Many leading companies still use techniques reminiscent of the mid-20th century, which is puzzling.

Our mission is to revolutionize the construction of these devices. We aim to minimize the chaotic interconnections typically associated with superconducting quantum computers, focusing on integrating everything into a single chip architecture.

Do you foresee a clear leader in the quest for practical quantum computing in the next five years?

Given the diverse approaches to building quantum computers, each with its engineering hurdles, fostering various strategies is valuable for promoting innovation. However, many projects do not fully contemplate the practical challenges of scaling and cost control.

At QoLab, we adopt a collaborative business model, leveraging partnerships with hardware companies to enhance our manufacturing capabilities.

If a large-scale, error-free quantum computer were available tomorrow, what would your first experiment be?

I am keen to apply quantum computing solutions to challenges in quantum chemistry and materials science. Recent research highlights the potential for using quantum computers to optimize nuclear magnetic resonance (NMR) experiments, as classical supercomputers struggle with such complex quantum issues.

While others may explore optimization or quantum AI applications, my focus centers on well-defined problems in materials science, where we can craft concrete solutions with quantum technologies.

Why have mathematically predicted quantum applications not materialized yet?

While theoretical explorations in qubit behavior are promising, real-life qubits face significant noise challenges, making practical implementations far more complex. Theoretical initiatives comprehensively grasp theory but often overlook the intricacies of hardware development.

Through my training with John Clark, I cultivated a strong focus on noise reduction in qubits, which has proven beneficial in experiments showcasing quantum supremacy. Addressing these challenges requires dedication to understanding qubit design intricacies.

As we pursue advancements, a dual emphasis on hardware improvements and application innovation remains crucial in the journey to unlock quantum computing’s full potential.

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Source: www.newscientist.com

Nobel Prize Winner Omar Yagi Unveils Groundbreaking Invention Set to Transform the World

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Image Credit: Christopher Michel/Contour RA by Getty Images

Civilizations often define their eras by significant materials. We speak of the Stone Age and the Bronze Age, and currently, we reside in the Silicon Age—marked by the prevalence of computers and mobile devices. What might the next defining era be? Omar Yagi from the University of California, Berkeley, posits that the innovative material he pioneered in the 1990s has promising potential: Metal-Organic Frameworks (MOFs). His groundbreaking work in this area made him a co-recipient of the 2025 Nobel Prize in Chemistry.

MOFs, along with their covalent organic frameworks (COFs) counterparts, are crystalline in structure and notable for their exceptional porosity. In 1999, Yagi and his team achieved a milestone by synthesizing a zinc-based structure known as MOF-5. This material is characterized by its numerous pores, boasting an internal surface area equivalent to that of a football field within merely a few grams (refer to the image below). Internally, the structure offers vastly more space than externally.

Over the years, Yagi has been a pioneer in the development of new MOFs and COFs, a field called reticular chemistry. Understanding how these materials can be utilized is a focal point of his research. Their porous nature allows them to absorb other molecules, making them invaluable for applications such as moisture extraction from arid desert air and atmospheric carbon dioxide capture. In an interview with New Scientist, Yagi expressed optimism about this research, discussing the past, present, and future of reticular chemistry and the impending era of these materials.

Karmela Padavic-Callaghan: What inspired your interest in reticular chemistry?

Omar Yagi: Initially, when we began our work with MOFs, we had no concept that we were addressing social issues; it was purely an intellectual pursuit. We aimed to construct materials molecule by molecule, akin to building a structure or programming using Legos. It was a formidable challenge in chemistry. Many doubted its feasibility and considered our efforts futile.

What made the design of materials seem unfeasible?

The primary hurdle in rationalizing material construction lies in the nature of component mixing, which typically results in disordered, complex arrangements. This aligns with physical laws, as nature tends to favor high entropy or disorder. Therefore, our goal was to engineer a crystal—an ordered entity with a recurring pattern.

It’s akin to instructing your children to form a perfect circle in their room—it demands significant effort. Even upon achieving that circle, if you release your hold, it may take too long to re-establish it. We were essentially attempting to crystallize materials in a day—what nature takes billions of years to accomplish. Nonetheless, I believed that with the right knowledge, anything could be crystallized.

In 1999, your intuition was validated with the publication: Synthesis of MOF-5. Did you foresee its potential utility?

We identified a valuable solvent for synthesizing stable MOFs and understanding its mechanism. This critical insight allows us to minimize disorder, effectively tuning the outcome. Subsequently, thousands of researchers have adopted this method.

Initially, I was just elated to create beautiful crystals. Observing their remarkable properties prompted thoughts of potential applications, particularly in trapping gases. Given their internal compartments, these substances can accommodate water, carbon dioxide, or other molecules.

What’s your perspective on creating these materials today?

I usually avoid elaborate cooking and prefer simple, healthy ingredients. This mindset parallels my approach to chemistry: striving for simplicity while utilizing only necessary chemicals. The first step involves selecting the backbone of material; the second, defining pore sizes; the third, administering chemistry on the backbone to incorporate trapping molecules. This process, while appearing simple, is intricately complex.

What pioneering technologies does this process enable?

By mastering molecular-level design, we foresee significant geological transformations. My vision, along with my company founded in 2020, Atco, encompasses progressing from molecules to practical societal applications—addressing material deficiencies in various tasks or enhancing poorly performed tasks with rational designs. Our advancements in material synthesis will elevate societal standards.

Recently, we unveiled COF-999, the most efficient material for capturing carbon dioxide. Undertaking extensive capture tests, we demonstrated its efficacy in collecting CO2 from the atmosphere for over 100 cycles here in Berkeley. Atoco aims to implement reticulated materials like COF-999 in carbon capture modules suitable for both industrial settings and residential buildings.

Additionally, we’ve devised a novel material capable of extracting thousands of liters of water daily from the atmosphere. This technology relies on our device which can pull moisture even in humidities below 20%, such as in desert locations like Nevada. I foresee that within the next decade, water harvesting will emerge as an everyday technology.

MOFs exhibit a crystalline structure filled with numerous small internal pores.

Image Credit: Eyes of Science/Science Photo Library

How do MOFs and COFs compare with other water and CO2 capture technologies?

We maintain a significant degree of control over the chemistry involved, allowing for sustainable device manufacturing. These devices are long-lasting, and when the MOF component eventually degrades, it can dissolve in water, thus preventing environmental contamination. Consequently, as MOFs scale to multi-ton applications, we should not anticipate a “MOF waste issue.”

For instance, we’ve developed a method to harness ambient sunlight for water release from harvesting devices, thereby enhancing energy efficiency. Similarly, carbon capture technologies can utilize waste heat from industrial processes, rendering them more economical and sustainable compared to competing systems.

However, challenges in scalability and precise molecular release control persist. While producing MOFs in large quantities is feasible, COFs production has not reached such scales yet. I am optimistic that improvements will come swiftly. Optimizing water retention is essential; we must strike the right balance between excessive and insufficient retention.

We are now leveraging artificial intelligence to streamline MOF and COF optimization, making the design process more efficient. Generally, while generating a basic MOF or COF is straightforward, achieving one with finely-tuned properties can be time-consuming, often taking a year. The integration of AI could significantly accelerate this timeline; our lab has successfully doubled the speed of MOF creation by employing large-scale language models.

What promising applications of reticular chemistry should capture public interest?

Reticular chemistry is a thriving field, with millions of new MOFs yet to be synthesized. One intriguing concept involves utilizing MOFs to replicate the catalytic functions of enzymes, enhancing the efficiency of chemical reactions important in drug development and other fields. Some MOFs have demonstrated capabilities comparable to enzymes but with improved longevity and performance, making them ripe for medical and therapeutic applications over the next decade.

An exciting future application lies in “multivariate materials.” This research, largely conducted in my lab, aspires to create MOFs with varied internal environments. By employing different modules paired with varying compounds, we can develop materials that selectively and efficiently absorb gases. This approach encourages chemists to expand their thinking beyond creating uniform structures toward designing heterogeneous frameworks that incorporate diverse elements.

What gives you confidence in the future of MOF and COF innovations?

We’ve merely scratched the surface, with no shortage of concepts for exploration. Since the 1990s, this field has flourished, and while interest in many areas declines over time, that hasn’t occurred here. An exponential rise in patents related to MOFs and COFs reflects ongoing curiosity and the pursuit of novel applications. I appreciate how this research links organic and inorganic chemistry, as well as engineering and AI, evolving beyond traditional chemistry into true scientific frontiers.

I genuinely believe we are at the cusp of a revolution. While it may not always feel that way, something extraordinary is transpiring. We can now design materials in unprecedented ways, connecting them to innovative applications that were once unimaginable.

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  • Chemistry /
  • Materials Science

Source: www.newscientist.com

From acclaimed author Adrian Tchaikovsky to Hugo Award winner Hao Jingfan: The top new science fiction of the month

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In Sierra Greer’s novel Annie Bot, a female robot is created to be the perfect girlfriend for her owner.

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From Adrian Tchaikovsky to Hao Jingfan to Natasha Pulley, many of the biggest names in science fiction are releasing new releases this month. We, the readers, can choose whether we want to peer into the ruins of an alien civilization, follow the possibility of the coming singularity and its aftermath, or enter the world of sex robots. To each of them, I would say, yes, please come join us. But I think it’s Stuart Turton’s new high-concept thriller that I’m most excited about. This thriller depicts crime and science fiction, with a murder taking place on an island surrounded by the fog that has destroyed the rest of the planet, and is one of my favorites. Blend.

If all these new titles aren’t enough to keep you busy this March, you might want to revisit Cixin Liu’s epic. three body problem, in anticipation of Netflix’s upcoming adaptation. Or please join us. new sciencet Book Club, I just started reading Martin McInnes’ novels Ascension in progress. The story from a mysterious trench at the bottom of the Atlantic Ocean to deep space has just been published in paperback and is an amazing read.

alien clay Written by Adrian Tchaikovsky

Is Tchaikovsky single-handedly supporting the science fiction industry? I think he might be, since he’s really prolific and definitely brilliant. alien clay This novel, the first of two new novels to be published over the coming months, is set on the faraway world of Kiln, where the ruins of an alien civilization have been discovered. Professor Arton Dagdev, who has always wanted to study extraterrestrial life, is exiled to the Kiln for his political activities and has to work in a concentration camp. Can he uncover the world’s secrets before he is killed?

I’m a big Turton fan. I’ve loved his smart, high-concept murder mysteries ever since his debut. The Seven Deaths of Evelyn Hardcastle From his latest historical crime novel. devil and dark water. His latest outings have a decidedly sci-fi tinge. The setting is a world destroyed by a murderous fog that has attacked the planet. The only thing that survives is the island, where 122 villagers and 3 scientists live happily together, until one of the scientists is found stabbed to death, when the island’s security system is degraded and the fog disappears. Everyone on the island will die as a result. It will take 107 hours if the murder case is not solved. That’s already a lot to accept, but everyone’s memories have also been wiped by the security system. Sounds complicated, but I believe Turton is great, so I’ll put it next on my list.

Mars is the setting for Natasha Pooley’s new novel

Pulley is a relatively recent discovery for me, ever since my mother finally convinced me to find time to read her historical and fantasy novels. Filigree Street Clockmaker (That made me happy). This latest installment is set after an environmental catastrophe. January, a refugee from Earth who is now a second-class citizen on Mars because her body has not yet adapted to low gravity, enters into a marriage of convenience with xenophobic Martian politician Aubrey Gale. However, Aubrey Gale turns out to be very different from their methods. Featured in Mars news. I love a good romance combined with his sci-fi setting, so this is a must-read for me.

2054: Novel Written by Elliot Ackerman and James Stavridis

Mr. Stavridis is not just a novelist, but also former NATO Supreme Allied Commander Admiral James Stavridis.He and Ackerman are bestselling authors 2034. In this follow-up study, 20 years after the U.S. Nuclear War, the president of the United States collapsed and died while addressing the nation. Conspiracy theories spread and civil war breaks out. Meanwhile, computer scientists and intelligence experts believe they know what’s behind the assassination: a major advance in AI. This sounds thrilling and provocative, and is something you should devote a fair amount of your time to reading.

Hugo Award-winning Jing Fan’s new sci-fi thriller is set in a future where a mysterious, highly intelligent alien race comes into contact. His three scientists, unconvinced that aliens are a threat, join forces to thwart a potentially disastrous military response.

Our science fiction columnist Emily Wilson gives this novel very high praise.It is said to be perfect for fans of never let me go and my dark vanessa, which I definitely count among them, is the story of Anniebot, a female robot created to be the perfect girlfriend for her owner, Doug. The problem is that she’s starting to think about what she really wants from her life.

high voltage Written by Chris Sugden and Jen Sugden

By the author of the podcast drama series victorio city, this novel is described as perfect for fans of Terry Pratchett and Douglas Adams – Hello, it’s me. The setting is 1887 “Even Greater London,” an “urban plane” that covers the entire lower half of England, where Isambard Kingdom Brunel’s “Legion of Engineers” builds and destroys anything they deem necessary. There is. Meanwhile, Archibald Fleet and Clara Entwistle establish the country’s first private detective agency and take on a series of impossible bank robberies that keep the police busy and one kidnapping case after another.

This first contact novel is a sequel to Johnston’s novel. space between us Then we see the alien Enceladon disappearing into the water off the west coast of Scotland. I would like to start with the first one in this series.I highly value Johnston as a crime writer (his Skefus The series is peppered with morbid black humor, so I’d love to try out some of his science fiction work as well.

This cyberpunk satire sounds like fun. Following on from the TV sensation whose title is the novel, the next season will take place in the neo-medieval state organization “Inner Azure”, where the country has been (by its own choice) separated from the rest of the world for almost a century. It has been blocked off…until now. To entertain viewers around the world, the show’s producers must assemble a group of misfits who try to run the country.

Adam Malek’s third collection of short stories explores plant-based skyscrapers, a zombie apocalypse, how time dilation affects marriages, as well as reluctant sex robots and the terrible parenting skills of a billionaire space industrialist. is promised to us.

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Source: www.newscientist.com

The first VTuber Awards crowns VR as the winner

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Currently streaming, Philian took to the center stage of a huge arena, illuminated by purple spotlights and surrounded by throngs of fans holding penlights. The streamer opened the show wearing a bright purple skirt, magenta bow tie, and high white boots that matched her jacket. This is a luxurious version of her avatar’s regular sailor style school uniform. Philian said in his opening remarks, “’Please be patient. This show uses a lot of technology and is truly live.’ It’s not rocket science, but it could be.” Philian, a streamer with over 766,000 Twitch followers, hosted his first annual event VTuber Award last weekend. Like many of his VTubers (a portmanteau for “virtual YouTuber”), Philian keeps his identity secret, streaming using a digital model of himself instead of revealing his real face. Filian was physically hosting the ceremony from a sealed green box in WePlay’s Los Angeles studio, a space typically used for esports events.

The virtual reality awards show is the first of its kind for VTuber as well as for his production company WePlay, which has focused primarily on hosting and producing in-person gaming tournaments from studios in Los Angeles and Kiev for the past decade. One of his first ever.From a niche streaming genre billion dollar industry in recent years. The show was a first for VTubers and WePlay, which produced a live VR event.

The event combined WePlay’s physical production space with a VR stadium. VTubers are also widely recognized in other shows.of streamer award has a “Best VTuber” category, and VTuber Ironmouse won at this year’s Game Awards. He became the first animation streamer to win Content Creator of the Year. However, neither award takes into account skills unique to VTubers, such as avatar design, technological innovation, and hosting virtual events. For example, the Best Technical VTuber award went to vedal987, a streamer and programmer who developed the chatbot VTuber. Mr. Neurouses text-to-speech and AI to play games and communicate with your Twitch audience.

“VTubers are often treated as a footnote, sometimes as something unique and weird at any award show,” Filian said in an interview with TechCrunch. On January 8th, I did a stream where I tried to teach Neuro to play to defeat the spire. She couldn’t even get past the first boss. Attempt 2 is going well. pic.twitter.com/aISW0poN5v — Vedal (@Vedal987) October 12, 2023 VTubers are often looked down upon as obscene anime streamers because they usually wear animal ears, exaggerated facial features, or vulgar costumes. An offshoot of idol culture, it took off outside of Asia when VTuber production company Hololive debuted its first English-speaking streamer. The VTuber Awards will recognize not only individual content creators, but also VTuber viewers, as fans have propelled the genre into mainstream recognition. In addition to the Most Avid Fanbase category, the VTuber Awards also includes a category for his VTuber Clippers, who clip, curate, and post VTuber content online.

“YouTube, which in many ways created a huge demand for VTubers,” Philian continued. “When VTubers finally came to the West, it was poised to explode. I can’t stress enough how important the VTuber clipper was and was for VTubers to be where they are today. There’s no such thing as too much if… In many ways, VTubers are typically more engaged with their fans than many other creators.” Although motion capture technology is not new to the film and video game industries, incorporating it into live streaming events has been difficult. In a control room, a crew member juggled dozens of screens and displayed Philian’s avatar on a virtual stage and others who participated or presented awards.

Each physical camera can capture multiple angles in VR. Image credit: WePlay Studio Although the live stream depicted a vast arena, Filian’s avatar is essentially confined to a small circular stage surrounded by screens, a virtual construction of WePlay’s physical production stage. In a control room a few feet away, a crew member juggled dozens of screens and displayed Fillian’s avatar on a virtual stage, IRL Fillian in a motion-capture suit, and others who called out across the stream to host the pre-show. Displayed visuals of VTuber. Give or receive an award. The VTubers who appeared at the pre-show and presented awards appeared to be at the venue on the stream.they got it done simultaneous streaming We’ve provided WePlay with access to Filian’s broadcasts and streams, allowing us to seamlessly integrate comments into our shows. VTubers who appeared on the stream and received awards appeared on the screen on the virtual stage. WePlay used Discord to organize behind-the-scenes logistics with other streamers. This isn’t because of any unique platform features, but because Discord is already a “familiar tool for all gamers,” Chuhai said during a walkthrough of the studio. Like many VTubers, Philian is fiercely protective of his privacy. A crew member stood for a photo.Image credit: WePlay Studio Fillian, meanwhile, hosted from a separate green screen room with only a teleprompter. Footage from his motion capture suit and helmet was displayed and crew members helped ensure his privacy was maintained.

Source: techcrunch.com