『The Quantum Computing Podcast with Fexingo: Qubits, Quantum Hardware, and Future Computing』のカバーアート

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

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

著者: Fexingo
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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© 2026 Fexingo. All rights reserved. 経済学
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  • Why Quantum Computers Need a New Approach to Networking

    Why Quantum Computers Need a New Approach to Networking
    2026/06/08
    Episode 39 of The Quantum Computing Podcast dives into one of the most overlooked bottlenecks in scaling quantum computers: networking. Lucas and Luna explore why connecting multiple quantum processors — even in the same building — requires fundamentally new infrastructure. They discuss the challenge of distributing entanglement across chips, the role of photonic interconnects, and how companies like Xanadu and startups like PsiQuantum are betting on telecom-band photons to link quantum modules. Specific numbers: current qubit counts are in the hundreds, but a networked quantum computer could scale to thousands. The conversation also touches on how classical network protocols don't work for quantum data, and why 'quantum repeaters' are still a decade away. This episode offers a concrete look at the hardware reality behind the hype. #QuantumNetworking #QuantumComputing #PhotonicInterconnects #QubitScaling #Xanadu #PsiQuantum #QuantumRepeaters #EntanglementDistribution #QuantumHardware #Cryogenics #Technology #QuantumInternet #FaultTolerant #ModularArchitecture #TelecomBandPhotons #FexingoBusiness #BusinessPodcast #QuantumFuture Keep every episode free: buymeacoffee.com/fexingo
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    11 分
  • How Quantum Computing Is Fighting the Noise Problem

    How Quantum Computing Is Fighting the Noise Problem
    2026/06/08
    Quantum computers are notoriously sensitive to noise from heat, vibration, and electromagnetic interference. In this episode, Lucas and Luna explore the practical strategies researchers are using to isolate qubits from real-world disturbances. They break down the concept of 'error suppression' versus 'error correction,' look at how companies like IBM and Quantinuum are engineering better shielding and control systems, and discuss a recent milestone in which a quantum processor maintained coherence for over a millisecond—a big deal in the field. The conversation also touches on why noise is the single biggest barrier to scaling up quantum systems and why progress now is more about smart engineering than exotic physics. No hype, just the nuts and bolts of making qubits less fragile. #QuantumComputing #Noise #ErrorSuppression #CoherenceTime #IBM #Quantinuum #QubitFidelity #Cryogenics #QuantumHardware #Technology #FexingoBusiness #BusinessPodcast #LucasAndLuna #ErrorMitigation #QuantumEngineering #SuperconductingQubits #MillisecondCoherence #QuantumNoise Keep every episode free: buymeacoffee.com/fexingo
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    6 分
  • Why Quantum Computers Are Going Hybrid with Neutral Atoms

    Why Quantum Computers Are Going Hybrid with Neutral Atoms
    2026/06/07
    In this episode, Lucas and Luna explore a surprising shift in quantum computing hardware: atomic arrays based on neutral atoms. Unlike superconducting or trapped-ion qubits, neutral atoms offer unique advantages like long coherence times and the ability to be assembled into arbitrary geometries using optical tweezers. The hosts dive into a recent milestone from QuEra Computing, which demonstrated a 256-qubit programmable neutral-atom quantum simulator that can solve optimization problems like the maximum independent set on graphs with up to 256 nodes. They discuss how neutral atoms can be used for both analog quantum simulation and digital quantum computation, and why companies like QuEra, Atom Computing, and others are betting on this approach as a scalable path to fault-tolerant quantum computing. The episode also touches on the challenges of gate fidelity and two-qubit operations, and what the next few years might hold for this technology. #QuantumComputing #NeutralAtoms #AtomicArrays #QuEraComputing #AtomComputing #OpticalTweezers #QuantumSimulation #Optimization #MaximumIndependentSet #Qubits #ErrorCorrection #Technology #Podcast #FexingoBusiness #BusinessPodcast #LucasAndLuna #QuantumHardware #ScalableQuantum Keep every episode free: buymeacoffee.com/fexingo
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    9 分
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