Misha Shalaginov, Michael Dubrovsky, Xinghui Yin

632nm

Science EN ↓ 54 episodes

Technical interviews with the greatest scientists in the world.

Author

Misha Shalaginov, Michael Dubrovsky, Xinghui Yin

Category

Science

Podcast website

632nm.com

Latest episode

Jun 30, 2026

Where to listen?

Podcasts in the app Replaio Radio Coming soon

Podcasts are coming to the app soon. Install now and be the first to see a whole new take on podcasts

Get it on Google Play Install for free Android 5M+ downloads · 4.8 rating iOS soon

Episodes

The Atomic Physics Behind Neutral Atom Computers | Mark Saffman 30.06.2026

Why are so many companies betting on neutral atoms to build the first useful quantum computers? In this episode, we speak with Mark Saffman, professor at the University of Wisconsin–Madison and one of the pioneers of neutral atom quantum computing. Over the past two decades, Saffman has helped transform Rydberg atoms from a theoretical idea into one of the leading architectures for scalable, fault...

Silicon Photonics and the Future of AI Scaling | John Bowers 16.06.2026

Why are some of the world's largest technology companies betting on silicon photonics? In this episode, we speak with John Bowers, professor at UC Santa Barbara and one of the pioneers of silicon photonics, about the technologies that are transforming AI infrastructure and modern data centers. Bowers explains why moving data has become one of the central challenges in computing, how optical commun...

Bioelectricity, Morphogenesis, and Two-Headed Worms | Michael Levin 02.06.2026

How can a flatworm regenerate a complete head after being cut in half? In this episode, we speak with Michael Levin, developmental biologist and director of the Allen Discovery Center at Tufts University, about the emerging field of developmental bioelectricity. Levin explains how voltage gradients, ion channels, and gap junctions form a layer of biological control that operates alongside genetics...

Quantum Architecture, QAOA, and Cancer Biomarkers | Fred Chong 19.05.2026

Are quantum computers changing the way we discover cancer treatments? In this episode, Misha and Yudong spoke with Fred Chong, Seymour Goodman Professor at the University of Chicago, about the future of quantum computer architecture and how quantum algorithms could eventually help solve real-world problems in medicine, optimization, and scientific computing. Chong explains the transition from the...

How Quantum Sensors Can Measure Single Electrons | Amir Yacoby 05.05.2026

How do you measure something as small as a single electron or map quantum behavior at the nanoscale? In this episode, Misha spoke with Amir Yacoby, professor at Harvard University, about the cutting edge of quantum sensing and the experimental tools redefining how we probe the quantum world. Yacoby explains how physicists build ultra-sensitive detectors, from single-electron transistors to quantum...

The Physics of Un-Hackable Face Recognition | Rob Devlin on Metalenz 21.04.2026

How do you turn a flat piece of nanostructured material into a secure biometric sensor? In this episode, we speak with Rob Devlin, co-founder and CEO of Metalenz, about how metasurfaces are transforming optics and enabling a new generation of biosecure sensing. Devlin explains how engineers can control light at the subwavelength scale to replace bulky lens stacks with a single flat surface, and wh...

The Real Economics of Data Centers in Space | Starcloud CEO Philip Johnston 01.04.2026

Are data centers in space physically possible, or just another overhyped idea? In this episode, we speak with Philip Johnston, CEO of Starcloud, about the technical and economic case for putting AI infrastructure in orbit. The idea has gone viral in recent months, drawing strong criticism from science communicators like Scott Manley, Kyle Hill, and Hank Green, but rarely with detailed engagement o...

How To Make Quantum Algorithms Cheaper | Craig Gidney on Magic-State Factories, Resource Estimates 27.03.2026

How do you actually make quantum algorithms work on real hardware? Build your own quantum circuits in Crumble: https://algassert.com/crumble In this episode, we speak with Craig Gidney of Google Quantum AI, whose work focuses on the practical realities of building fault-tolerant quantum computers. Gidney explains how seemingly small implementation choices, like how you perform arithmetic, can domi...

How Neurons Translate Electricity into Chemistry | Tom Südhof 10.03.2026

How do neurons convert electrical signals into chemical messages in under a millisecond? In this episode, we speak with Thomas Südhof, Stanford neuroscientist and Nobel laureate whose discoveries revealed the molecular machinery that allows neurons to communicate at synapses. Südhof explains how an electrical impulse traveling down a neuron triggers the rapid release of neurotransmitters, transfor...

How Engineers Solve “Impossible” Problems | Dan Gelbart 17.02.2026

How do engineers solve problems that seem to violate the laws of physics? In this episode, we speak with Dan Gelbart, a prolific inventor and precision engineer, about what it really means to work at the limits of physical law. From lasers and optical systems to ultra-precision manufacturing and semiconductor tools, Gelbart has spent decades designing systems where nanometers, noise, and nonlinear...

How Visual Experience Rewires the Brain | Mark Bear on Neuroplasticity 03.02.2026

How does experience rewire the brain—and why is vision the ideal system for understanding neuroplasticity? In this episode, we speak with Mark Bear, MIT neuroscientist and a pioneer in the study of experience-dependent plasticity. Bear explains how the visual cortex became a model system for uncovering the synaptic mechanisms that allow the brain to change, adapt, and learn, especially during earl...

Snell's Law, Metasurfaces, and Metalenses | Federico Capasso 20.01.2026

How can flat surfaces shape light as powerfully as bulky lenses? In this episode, we speak with Federico Capasso, Harvard physicist and pioneer of metasurfaces, metalenses, and nanophotonics. Capasso traces the path from his work at Bell Labs on quantum cascade lasers to the invention of metasurface optics, showing how a practical challenge—collimating light without traditional lenses—sparked a ne...

Graphene, Nanotubes, and Quantum Hall Physics | Philip Kim 06.01.2026

How do electrons behave when they’re confined to a single layer, and why do entirely new laws of physics emerge when dimensions shrink? Papers discussed in this episode: Experimental observation of the quantum Hall effect and Berry's phase in graphene: https://www.nature.com/articles/nature04235 Tunable Fractional Quantum Hall Phases in Bilayer Graphene: https://arxiv.org/abs/1403.2112 Room-Temper...

Quantum Matter, Super-conductors, and Black Holes | Subir Sachdev on the SYK Model 23.12.2025

What makes high-temperature superconductors and “strange metals” some of the most perplexing systems in modern physics? In this episode, we speak with Dr. Subir Sachdev: Harvard physicist and one of the leading architects of today’s understanding of quantum matter. Sachdev explains why strange metals refuse to behave like ordinary conductors, how quantum entanglement reshapes the landscape of many...

How to Build Fault-Tolerant Quantum Computers | Austin Fowler on Surface Codes + TQEC 09.12.2025

Would we get a quantum computer sooner if everything was open source? In this episode, we speak with Austin Fowler, one of the architects of quantum error correction and a pioneer of the surface code used in today’s leading quantum computers. Fowler helped lay the groundwork for scalable, fault-tolerant computation at Google Quantum AI, before leaving to advocate for a more open and collaborative...

Why Syncing Atomic Clocks is Virtually Impossible | Judah Levine on UTC 26.11.2025

Why is syncing atomic clocks still one of the hardest problems in physics and engineering? In this episode, we speak with Judah Levine—legendary NIST physicist and one of the key architects of modern timekeeping—about the invisible systems that hold the digital world together. Levine explains why synchronizing atomic clocks across the planet is far more complex than the clocks themselves, and why...

Can We Predict History Like the Weather? | Peter Turchin on Cliodynamics 04.11.2025

Why do civilizations rise, prosper, and then collapse? Here's what the math tells us. In this episode, we sit down with Peter Turchin, complexity scientist and founder of the field of cliodynamics, which uses data and mathematical models to study the long-term cycles of history. Turchin explains his theory of elite overproduction, how societies generate too many ambitious, educated elites competin...

Why Do Quantum Computers Make So Many Mistakes? | Mikhail Lukin on Quantum Error Correction 21.10.2025

You can’t copy a qubit. So how do quantum computers remember anything? In this episode, we sit down with Mikhail Lukin, Harvard physicist and co-director of the Harvard Quantum Initiative, whose lab is building quantum computers from arrays of individually trapped atoms. Lukin explains the paradox of quantum error correction—how you can safeguard quantum information even though it can’t be copied...

We Interviewed the Winners of the Ig Nobel Prize | Ig Nobel 2025 09.10.2025

The scientific stories behind this year's research that made people LAUGH, then THINK. Watch the 2025 Ig Nobel Ceremony here: https://youtu.be/z1cP4xKd_L4 In this episode, we bring together three of this year’s Ig Nobel winners whose research spans psychology, food science and human biology. You’ll hear how a team of psychologists devised a counter-intuitive way to boost a narcissist’s self-confid...

What Science can Learn from Startups | Adam Marblestone on Focused Research Organizations 07.10.2025

Science has stalled. And Adam Marblestone thinks he knows why. Check out the Research Gap Map here: https://www.gap-map.org/?sort=rank In this episode, we sit down with Adam Marblestone, neuroscientist, nanotechnologist, and founder of Convergent Research, to explore how new “Focused Research Organizations” (FROs) could reignite scientific progress. From DNA “ticker-tape” neural recording to optic...

What Optical Atomic Clocks Tell Us About Space-Time | Jun Ye 23.09.2025

Times have changed. And cesium clocks can't keep up. In this episode, we sit down with Jun Ye, Joint Institute for Laboratory Astrophysics (JILA) Fellow and pioneer of optical lattice clocks, whose work has pushed timekeeping far beyond traditional cesium atomic clocks. Ye explains how combining ultra-stable lasers, frequency combs, and ultra-cold atoms produces clocks more than 100× more precise...

Laser Cooling and Quantum Timekeeping | Bill Phillips 09.09.2025

How did cooling atoms with lasers revolutionize our understanding of time? In this episode, we speak with Bill Phillips, Nobel Laureate in Physics, about his groundbreaking work on laser cooling and trapping of atoms: research that not only won him the Nobel Prize but also transformed modern timekeeping and technology. Phillips explains why breaking the Doppler cooling limit changed physics foreve...

Inside the Battle for Psychedelic Therapy | Rick Doblin 26.08.2025

What does it take to turn a banned psychedelic into an FDA-approved medicine? Visit MAPS to read about the latest progress is psychedelic research: https://maps.org/ In this episode, we speak with Rick Doblin, founder of the Multidisciplinary Association for Psychedelic Studies (MAPS), about the decades-long mission to make MDMA-assisted therapy a legal treatment for PTSD and other mental health c...

Biology's Biggest Chicken and Egg Problem | Jacob Fine 12.08.2025

Life’s First Blueprint Wasn’t DNA; it was RNA. Read Jacob Fine’s latest publication here: https://www.sciencedirect.com/science/article/pii/S0022283625001901 Today we spoke with Jacob Fine, graduate student researcher in Computational Biology from the University of Toronto. We explore the physics of replication, the role of entropy and information theory, and how modern biology is reconnecting wit...

The Final Interview with MIT Physicist Keith Johnson 05.08.2025

One of Keith Johnson’s final interviews: a brilliant mind on dark matter, water, and fusion. Read about Keith’s legacy here: https://news.mit.edu/2025/keith-johnson-materials-scientist-independent-filmmaker-dies-0723 This episode is one of the final recorded conversations with MIT physicist Keith Johnson, who passed away just weeks after our interview. In this conversation, he unpacks his early re...

Listen to the 632nm podcast in Replaio

Radio and podcasts in one app - free, with no sign-up. Install today and do not miss the launch

Get it on Google Play

Replaio is not a podcast publisher; show names, artwork and audio belong to their authors and are distributed through public RSS feeds.