The Quantum Computing Podcast with Fexingo: Qubits, Quantum Hardware, and Future Computing

Fexingo

This is a podcast about the current state and near-term future of quantum computing. Lucas and Luna examine the science and business of quantum hardware, from superconducting qubits to trapped ions and topological systems. They discuss the engineering challenges of error correction, the race to quantum supremacy, and the realistic timelines for commercial quantum advantage. Each episode focuses on a specific company, research paper, or technology milestone — Google's Sycamore, IBM's Quantum System One, IonQ's trapped-ion processors, or China's quantum communication network. Lucas brings a journalist's rigor to the technical details, while Luna pushes for clarity on what these advances mean for cryptography, drug discovery, optimization, and finance. This show is for listeners who want to understand quantum computing without hype — the real bottlenecks, the credible roadmaps, and the startups that might actually deliver. How close are we to a fault-tolerant quantum computer? Which industries will be transformed first? And which approaches are likely dead ends? #QuantumComputing #Qubits #QuantumHardware #QuantumSupremacy #ErrorCorrection #SuperconductingQubits #TrappedIons #TopologicalQubits #GoogleSycamore #IBMQuantum #IonQ #QuantumCryptography #DrugDiscovery #Optimization #Technology #Business #FexingoBusiness #BusinessPodcast Keep every episode free: buymeacoffee.com/fexingo

  1. 1 ngày trước

    How Quantum Computers Are Rethinking Battery Chemistry

    In this episode of The Quantum Computing Podcast with Fexingo, Lucas and Luna explore how quantum simulations are reshaping battery chemistry for next-generation energy storage. They focus on Toyota Research Institute's collaboration with D-Wave Systems to simulate lithium-air reactions, a breakthrough that could lead to batteries with five times the energy density of today's lithium-ion cells. The hosts break down why classical computers hit a wall modeling electron interactions in electrolytes, how quantum annealers handle the combinatorial explosion of molecular states, and what this means for electric vehicles and grid storage. They also touch on the broader implications for materials discovery, citing concrete examples like IBM's work on cobalt-free cathodes and Google's Quantum AI team's recent preprint on simulating transition metal oxides. No hype, just the real physics and business timelines. And as always, a brief note on why this show stays ad-free and how listeners can support that mission at buy me a coffee dot com slash fexingo. #QuantumComputing #BatteryChemistry #ToyotaResearchInstitute #DwaveSystems #LithiumAir #EnergyStorage #IBMQuantum #GoogleQuantumAI #MaterialsScience #QuantumAnnealing #ElectrolyteSimulation #ElectricVehicles #GridStorage #CobaltFreeCathodes #TransitionMetalOxides #Technology #FexingoBusiness #BusinessPodcast Keep every episode free: buymeacoffee.com/fexingo

    10 phút
  2. 2 ngày trước

    How Quantum Computing Is Rewriting the Rules of Materials Science

    In this episode of The Quantum Computing Podcast, Lucas and Luna dive into how quantum computers are accelerating materials discovery by simulating atomic interactions that classical computers cannot handle. Lucas explains recent breakthroughs in modeling high-temperature superconductors and battery electrolytes using hybrid quantum-classical algorithms on current noisy hardware. Luna highlights a specific case: a team at IBM successfully simulated a 12-atom molecule for a solid-state electrolyte in under 20 minutes—a task that would take months on a classical supercomputer. They discuss the shift from brute-force search to quantum-guided design, the role of error mitigation, and what this means for industries like energy storage and aerospace. The episode also touches on the timeline for practical quantum advantage in materials science, referencing recent roadmaps from IBM and Quantinuum. Listeners will come away with a clear understanding of why quantum computing is poised to transform how we discover new materials for batteries, solar cells, and more. #QuantumComputing #MaterialsScience #IBM #Quantinuum #HighTemperatureSuperconductors #BatteryTechnology #HybridQuantumClassical #ErrorMitigation #SolidStateElectrolytes #AtomicSimulation #QuantumAdvantage #NISQ #EnergyStorage #DensityFunctionalTheory #Physics #Technology #FexingoBusiness #BusinessPodcast Keep every episode free: buymeacoffee.com/fexingo

    8 phút

Giới Thiệu

This is a podcast about the current state and near-term future of quantum computing. Lucas and Luna examine the science and business of quantum hardware, from superconducting qubits to trapped ions and topological systems. They discuss the engineering challenges of error correction, the race to quantum supremacy, and the realistic timelines for commercial quantum advantage. Each episode focuses on a specific company, research paper, or technology milestone — Google's Sycamore, IBM's Quantum System One, IonQ's trapped-ion processors, or China's quantum communication network. Lucas brings a journalist's rigor to the technical details, while Luna pushes for clarity on what these advances mean for cryptography, drug discovery, optimization, and finance. This show is for listeners who want to understand quantum computing without hype — the real bottlenecks, the credible roadmaps, and the startups that might actually deliver. How close are we to a fault-tolerant quantum computer? Which industries will be transformed first? And which approaches are likely dead ends? #QuantumComputing #Qubits #QuantumHardware #QuantumSupremacy #ErrorCorrection #SuperconductingQubits #TrappedIons #TopologicalQubits #GoogleSycamore #IBMQuantum #IonQ #QuantumCryptography #DrugDiscovery #Optimization #Technology #Business #FexingoBusiness #BusinessPodcast Keep every episode free: buymeacoffee.com/fexingo

Có Thể Bạn Cũng Thích