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Listen "Ultra-Thin Quantum Chips: The Future of AI and Computing Unveiled"
Episode Synopsis
Welcome to "AI with Shaily" 🎙️, your go-to podcast hosted by Shailendra Kumar, a passionate guide who makes the complex worlds of artificial intelligence and quantum technology easy to understand and exciting to explore. Shaily’s approach is like peeling an onion 🧅—layer by layer—revealing astonishing breakthroughs that could soon revolutionize computing as we know it.
This week, Shaily shines a spotlight on ultra-thin quantum chips — tiny, nearly invisible technological wonders promising to accelerate our tech future 🚀.
First, at TU Delft, scientists have made a groundbreaking discovery: quantum spin currents flowing through graphene without the need for magnetic fields. Imagine a secret highway for electrons 🛣️ that enables faster, greener electronics. This could supercharge quantum computers and memory devices. Shaily, who has hands-on experience with spintronics, finds this breakthrough thrilling because it brings us closer to chips that think magnetically as well as electrically — and all on an ultra-thin scale.
Next, in London, a startup called Quantum Motion is revolutionizing quantum computing by building the first full-stack quantum computer using silicon — the very material in everyday computer chips 💻. The exciting part? They’re using standard CMOS fabrication techniques, meaning scaling up production is no longer science fiction but a near-future reality. Imagine quantum computing moving from the lab into everyday technology!
At Harvard, researchers have made waves in optics by creating a metasurface that condenses complex quantum optical components into a single, robust slice no thicker than a credit card 💳. This innovation replaces bulky optical setups, making alignment easier and opening doors to room-temperature quantum computers and networks — a game-changer for experimental setups and practical quantum devices alike.
Finally, scientists are focusing on exotic ultrathin materials like niobium phosphide and tungsten diselenide to tackle one of quantum computing’s biggest challenges: heat dissipation 🔥. Working at the atomic scale, these materials promise powerful yet efficient devices, paving the way for quantum chips so thin and cool they almost seem like science fiction.
Shaily’s bonus tip: When exploring new quantum tech, pay close attention not just to the chips but also to the materials and fabrication methods 🛠️. The most impactful advances often come from combining novel materials with clever engineering. For those interested in diving deep into quantum or AI hardware, understanding these foundational elements is key.
Shaily invites you to ponder: Is the era of ultra-thin quantum chips ready to fundamentally change our daily technology, or are we still just scratching the surface? He welcomes your thoughts and questions.
He closes with a nod to the legendary physicist Richard Feynman: "If you want to find out anything from the theoretical physics point of view, you better make damn sure you understand quantum mechanics!" ⚛️ And indeed, that’s where the future lies.
You can find more insights from Shailendra Kumar on YouTube, Twitter, LinkedIn, and Medium. Don’t forget to subscribe for the latest AI and quantum tech news, and join the conversation by sharing your curiosity and questions in the comments 💬.
Until next time, keep questioning, keep learning, and keep pushing the boundaries with AI with Shaily! 🌟
This week, Shaily shines a spotlight on ultra-thin quantum chips — tiny, nearly invisible technological wonders promising to accelerate our tech future 🚀.
First, at TU Delft, scientists have made a groundbreaking discovery: quantum spin currents flowing through graphene without the need for magnetic fields. Imagine a secret highway for electrons 🛣️ that enables faster, greener electronics. This could supercharge quantum computers and memory devices. Shaily, who has hands-on experience with spintronics, finds this breakthrough thrilling because it brings us closer to chips that think magnetically as well as electrically — and all on an ultra-thin scale.
Next, in London, a startup called Quantum Motion is revolutionizing quantum computing by building the first full-stack quantum computer using silicon — the very material in everyday computer chips 💻. The exciting part? They’re using standard CMOS fabrication techniques, meaning scaling up production is no longer science fiction but a near-future reality. Imagine quantum computing moving from the lab into everyday technology!
At Harvard, researchers have made waves in optics by creating a metasurface that condenses complex quantum optical components into a single, robust slice no thicker than a credit card 💳. This innovation replaces bulky optical setups, making alignment easier and opening doors to room-temperature quantum computers and networks — a game-changer for experimental setups and practical quantum devices alike.
Finally, scientists are focusing on exotic ultrathin materials like niobium phosphide and tungsten diselenide to tackle one of quantum computing’s biggest challenges: heat dissipation 🔥. Working at the atomic scale, these materials promise powerful yet efficient devices, paving the way for quantum chips so thin and cool they almost seem like science fiction.
Shaily’s bonus tip: When exploring new quantum tech, pay close attention not just to the chips but also to the materials and fabrication methods 🛠️. The most impactful advances often come from combining novel materials with clever engineering. For those interested in diving deep into quantum or AI hardware, understanding these foundational elements is key.
Shaily invites you to ponder: Is the era of ultra-thin quantum chips ready to fundamentally change our daily technology, or are we still just scratching the surface? He welcomes your thoughts and questions.
He closes with a nod to the legendary physicist Richard Feynman: "If you want to find out anything from the theoretical physics point of view, you better make damn sure you understand quantum mechanics!" ⚛️ And indeed, that’s where the future lies.
You can find more insights from Shailendra Kumar on YouTube, Twitter, LinkedIn, and Medium. Don’t forget to subscribe for the latest AI and quantum tech news, and join the conversation by sharing your curiosity and questions in the comments 💬.
Until next time, keep questioning, keep learning, and keep pushing the boundaries with AI with Shaily! 🌟
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