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The New Quantum Era - innovation in quantum computing, science and technology

The New Quantum Era - innovation in quantum computing, science and technology

Auteur(s): Sebastian Hassinger
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 Your host, Sebastian Hassinger, interviews brilliant research scientists, software developers, engineers and others actively exploring the possibilities of our new quantum era. We will cover topics in quantum computing, networking and sensing, focusing on hardware, algorithms and general theory. The show aims for accessibility - Sebastian is not a physicist - and we'll try to provide context for the terminology and glimpses at the fascinating history of this new field as it evolves in real time.(c) New Quantum Era, LLC 2026 Physique Science
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  • Quantum LDPC error correction with Larry Cohen and Paul Webster

    Quantum LDPC error correction with Larry Cohen and Paul Webster
    Feb 26 2026

    Breaking Down RSA: How QLDPC Codes Cut Quantum Computing Requirements by an Order of Magnitude

    What if I told you that the number of qubits needed to break RSA encryption just dropped from over a million to around 100,000? That's exactly what researchers at Iceberg Quantum achieved by combining quantum low-density parity-check (QLDPC) error correction with algorithmic optimizations—potentially accelerating quantum cryptography timelines by years.


    Why this episode matters

    This episode dives into groundbreaking research that could reshape quantum computing's practical timeline. We explore how QLDPC codes overcome the physical constraints of surface codes, why hardware diversity is driving new error correction approaches, and what this means for the race toward cryptographically relevant quantum computers.

    Perfect for quantum researchers, cryptography professionals, and anyone curious about the engineering challenges between today's quantum devices and tomorrow's code-breaking machines.


    What you'll learn

    • Why QLDPC codes outperform surface codes — How throwing out nearest-neighbor connectivity assumptions unlocks better physical-to-logical qubit ratios across multiple hardware platforms
    • The algorithmic tricks that matter — How shared register reads and parallelization techniques can dramatically reduce runtime on slower quantum hardware platforms like trapped ions and neutral atoms
    • What "hardware agnostic" really means — Why developing error correction methods that work across superconducting, trapped ion, photonic, and neutral atom platforms is crucial for the quantum ecosystem
    • How generalized ladder surgery enables logical operations — The breakthrough that made QLDPC codes viable for full quantum computation, not just quantum memory storage
    • Why decoding remains the bottleneck — The real-time classical computation challenges that still need solving to make fault-tolerant quantum computing practical
    • The business model emerging around quantum architecture — How companies like Iceberg are positioning themselves as the "ARM or Nvidia" of quantum computing through specialized fault-tolerant designs
    • What cryptographers should know now — Why the timeline for cryptographically relevant quantum computers may be compressing faster than expected, and why algorithmic improvements matter as much as hardware scaling


    Resources & links

    • Iceberg Quantum's Pinnacle paper — "Reducing the Overhead of Quantum Error Correction with QLDPC Codes"
    • Craig Gidney's foundational Shor's algorithm optimization work
    • Scott Aaronson's blog analysis of the research implications

    Sponsor

    qubitsok — Cut Noise. Work Quantum. The quantum computing job board and arXiv research digest built for the community. - Job seekers & researchers: Subscribe free at qubitsok.com — weekly job alerts + daily paper digest filtered by 400+ quantum tags. - Hiring managers: Post your quantum role and reach 500+ targeted subscribers. Use code NEWQUANTUMERA-50 for 50% off your first listing at qubitsok.com/post-job.


    Key insights & quotes

    • "We think this is an immensely fundamentally valuable thing to do — when hardware improvements and reduced resource requirements converge, we'll be able to do something useful." — Larry, Iceberg Quantum CSO
    • "It would probably be a big mistake to assume that the numbers are not going to keep going down" — on future resource requirement reductions for RSA breaking
    • "At every level of scaling, new challenges emerge — it's not just a matter of taking a zero off your number" — Paul Webster on why order-of-magnitude improvements translate to real timeline changes
    • "There's no obvious reason why something like the Pinnacle architecture wouldn't have an obvious impact once hardware companies reach hundreds of thousands of qubits" — on practical implementation timelines
    • "This is why it's so important to have this broader perspective and not be too dependent on the assumptions of one hardware platform" — on the value of hardware-agnostic approaches
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    38 min
  • Our Quantum Future with Evan Kubes

    Our Quantum Future with Evan Kubes
    Feb 23 2026
    How a Lawyer and a Listicle Launched One of Quantum's Most Influential Media PlatformsEvan Kubes had no physics degree, no engineering background, and no idea what a qubit was when he stumbled across a press release about AWS investing in quantum. What he did have was experience translating complex industries for mainstream audiences — and within months, he and co-founder Alex Challans had turned a Wix website and a "Top 20 Most Influential People in Quantum" listicle into The Quantum Insider, now one of the industry's leading media and intelligence platforms. In this episode, Evan shares how that scrappy start grew into Resonance, a multi-vertical deep tech media company — and why he spent the last year making Our Quantum Future, a feature-length documentary premiering at APS March Meeting that aims to bring quantum out of the echo chamber and onto your screen.Why this episode mattersThis episode marks a new chapter for The New Quantum Era. In the intro, Sebastian shares some big updates — going fully independent, new media projects including the Helgoland 2025 documentary, a newsletter, and broader efforts to build a more accessible and equitable quantum technology ecosystem through open source and open standards. He also announces his new role as a Fellow at the Unitary Foundation. Read the full blog post: A New Chapter.The conversation with Evan Kubes is a perfect fit for this moment. Evan sits at the intersection of quantum's technical community and the broader world trying to make sense of it — a translator between physicists and the public. His story illuminates something the industry rarely discusses: how do you actually build awareness, trust, and market understanding for a technology most people can't explain?The documentary Our Quantum Future, produced for the International Year of Quantum and featuring Nobel laureates, a former CIA officer, and the leaders of Google, Microsoft, and IonQ, is designed for exactly that audience — the curious non-specialist who wants to understand what quantum means for the world. The ethics and national security themes it surfaces are relevant well beyond the quantum community.What you'll learnHow The Quantum Insider went from zero readers to a leading quantum industry platform using a creative "vanity listicle" strategy that got CEOs to respond overnightWhy a lawyer from the esports world saw the same market opportunity in quantum that venture capitalists were pouring billions into — and what that says about the accessibility gap in deep techHow the Resonance media model applies The Quantum Insider playbook to space, AI, and climate tech — and what makes a deep tech vertical ripe for this approachWhat 39 interviews across 40 countries revealed about how the quantum community thinks about ethics — including a striking divide between engineers ("I'm just solving a hard problem") and policymakers ("we need safeguards now")The Oppenheimer parallel: how the documentary draws a direct line between the atomic bomb's development and today's quantum technology, and why some builders don't think about consequences while others think about nothing elseA former CIA operative's reframing of quantum advantage as incremental compounding — 1% better per year for five years — and why that makes quantum feel much more real today than the "break all encryption" narrative suggestsWhy academics and corporate leaders consistently disagree on quantum's timeline, and where Evan lands after a year of filming both campsResources & linksGuest linksThe Quantum Insider — Quantum industry media, intelligence, and data platform co-founded by EvanResonance — Parent company extending the deep tech media model to space, AI, climate tech [link to confirm]Our Quantum Future — Documentary website with sign-up for distribution updatesPeople mentioned in the episodeAlex Challans — Co-founder and CEO of The Quantum Insider; Evan's business partnerNicholas Ogler — Former CIA operative featured in the documentary; redefines quantum advantage from a national security lensDr. Bill Phillips — Nobel Prize-winning physicist; discusses his bet with Carl Williams on the quantum advantage timelineDr. John Doyle — Professor of quantum at Harvard, president of APS; draws the Oppenheimer parallelIlyas Khan — Former CEO of Quantinuum; argues for educational licensing frameworks around quantum technologyEric Cornell — Nobel Prize winner featured in the documentaryMentioned in the introA New Chapter — NQE blog post — Sebastian's full announcement on going independent, new projects, and the future of the podcastUnitary Foundation — Open-source quantum technology ecosystem; Sebastian is now a FellowKey quotes & insights"When Oppenheimer and the most brilliant minds in the world were developing the atom, you had a large group who didn't really understand what they were building — they were just trying to solve a very difficult engineering and physics problem. We posed ...
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    38 min
  • Building a Quantum Ecosystem from Scratch with Martin Laforest

    Building a Quantum Ecosystem from Scratch with Martin Laforest
    Feb 17 2026
    What does it take to build a thriving quantum ecosystem from the ground up? Martin Laforest, physicist-turned-venture-capitalist at Quantacet, reveals how Quebec transformed a 1970s academic bet into a $400M quantum powerhouse—and why the industry's biggest misconception is thinking quantum computing is either a science problem or an engineering problem when it's clearly both.SummaryIn this conversation, Sebastian sits down with Martin Laforest, partner at Quantacet, Canada's quantum-only VC fund, to explore the messy realities of building quantum companies and ecosystems. Martin brings a rare perspective: PhD from Waterloo's Institute for Quantum Computing, eight years leading scientific outreach, a stint building a post-quantum cryptography startup with ex-BlackBerry executives, and now investing in the quantum future.This episode is for anyone trying to understand how quantum technology actually gets built—not the hype, but the infrastructure, the collaboration models, the government investment strategies, and the patience required. Whether you're technical or just curious about how transformative technologies emerge, Martin offers a grounded view of what's working, what's not, and why the quantum revolution looks more like slow, deliberate ecosystem building than overnight breakthroughs.What You'll LearnWhy quantum is both a science and engineering challenge and how the vacuum tube-to-transistor transition illuminates today's quantum journeyHow Quebec built a world-class quantum ecosystem starting from a 1970s university bet on condensed matter physics through to today's $400M provincial investmentThe infrastructure that matters: why Sherbrooke's six shared dilution fridges and quantum communication testbed represent a different collaboration modelWhat VCs actually look for in quantum startups beyond the technology—and why Martin believes early-stage investing is about building great companies, not just returnsThe three most dangerous misconceptions plaguing quantum technology (spoiler: it's not just about quantum computers)How regional quantum ecosystems should compete and collaborate with lessons from Netherlands, Chicago, and UK programsWhy fundamental research funding can't stop even as commercialization accelerates—and what happens when governments don't understand this balanceWhat "mutualized infrastructure" means in practice and why no single entity owning critical testbeds might be the secret sauceHow federal and provincial politics shape quantum strategy in Canada and what other countries can learn from itResources & LinksQuantacetInstitute for Quantum Computing (IQC)University of Sherbrooke Institute QuantiqueC2MI semiconductor fabrication facilityQuantumDELTAKey InsightsOn the science vs. engineering debate:"People ask if quantum computing is still a science problem or just engineering. It's both. Look at the vacuum tube to transistor transition—we needed new physics and new engineering. That's exactly where we are now."On ecosystem building:"Sherbrooke made a bet on condensed matter physics in the 1970s. Fifty years later, they have six dilution fridges available for rent and a quantum communication testbed owned by no one. That infrastructure patience is what builds real ecosystems."On VC philosophy:"Early-stage venture capital is about building great companies. The money is a byproduct. If you focus on the returns first, you'll make the wrong decisions every time."On common misconceptions:"The biggest myth is that quantum technology equals quantum computing. We have quantum sensors, quantum communications, post-quantum crypto—this is a multi-faceted industry, not a single magic box."On balancing research and commercialization:"You can't stop funding fundamental research just because commercialization is happening. The vacuum tube didn't kill physics research. We need both engines running or the whole thing stalls."Join the ConversationSubscribe to The New Quantum Era wherever you get your podcasts to hear more conversations with the people building quantum technology's future.
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    42 min
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