Why Do Quantum Computers Make So Many Mistakes? | Mikhail Lukin on Quantum Error Correction
632nm21 Okt 2025

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

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 or measured directly—and why this breakthrough may be the key to making large-scale quantum computers possible.

We dive into the strange logic of superposition, entanglement, and “small cat states,” explore what makes quantum evolution inherently analog, and learn how Lukin’s team uses optical tweezers and Rydberg interactions to engineer stable, reconfigurable qubits—atoms literally held and moved by light.

Whether you’re fascinated by quantum mechanics, computing, Schrödinger’s cat, or the future of information, this conversation reveals how physicists are turning the weirdness of quantum physics into working technology—and why building a fault-tolerant quantum computer is one of the hardest and most exciting challenges in science today.

Follow us for more technical interviews with the world’s greatest scientists:
Twitter: https://x.com/632nmPodcast
Instagram: https://www.instagram.com/632nmpodcast?utm_source=ig_web_button_share_sheet&igsh=ZDNlZDc0MzIxNw==
LinkedIn: https://www.linkedin.com/company/632nm/about/
Substack: https://632nmpodcast.substack.com/

Follow our hosts!
Michael Dubrovsky: https://x.com/MikeDubrovsky
Misha Shalaginov: https://x.com/MYShalaginov
Xinghui Yin: https://x.com/XinghuiYin

Subscribe:
Apple Podcasts: https://podcasts.apple.com/us/podcast/632nm/id1751170269
Spotify: https://open.spotify.com/show/4aVH9vT5qp5UUUvQ6Uf6OR
Website: https://www.632nm.com

Timestamps:
00:00 - Intro
01:32 - Fundamentals of Quantum Computers
04:09 - Transistors vs Quantum Gates
10:07 - What is Quantum Error Correction?
14:23 - State of the Art QEC
22:19 - Quantum Research Before Lukin
27:35 - Lukin’s Breakout Work
31:10 - From Quantum Optics to Quantum Computing
36:59 - Working with Neutral Atoms
48:17 - Funding Quantum Computers
50:00 - Transverse Gate Operations
58:22 - Is Quantum Computing All Hype?

#quantumcomputing #quantumerrorcorrection #mikhaillukin #qubits #schrodingerscat #entanglement #superposition #quantumphysics

Episoder(46)

How Neurons Translate Electricity into Chemistry | Tom Südhof

How Neurons Translate Electricity into Chemistry | Tom Südhof

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 revea...

10 Mar 1h 30min

How Engineers Solve “Impossible” Problems | Dan Gelbart

How Engineers Solve “Impossible” Problems | Dan Gelbart

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 t...

17 Feb 2h 3min

How Visual Experience Rewires the Brain | Mark Bear on Neuroplasticity

How Visual Experience Rewires the Brain | Mark Bear on Neuroplasticity

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 exp...

3 Feb 1h 55min

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

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

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 t...

20 Jan 2h 13min

Graphene, Nanotubes, and Quantum Hall Physics | Philip Kim

Graphene, Nanotubes, and Quantum Hall Physics | Philip Kim

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 ...

6 Jan 2h 47min

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

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

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 th...

23 Des 20252h 34min

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

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

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 u...

9 Des 20251h 50min

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

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

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 t...

26 Nov 20252h 4min

Populært innen Vitenskap

fastlegen
tingenes-tilstand
rss-nysgjerrige-norge
rekommandert
forskningno
liberal-halvtime
sinnsyn
vett-og-vitenskap-med-gaute-einevoll
rss-rekommandert
smart-forklart
fjellsportpodden
jss
villmarksliv
pod-britannia
rss-overskuddsliv
rss-radium
nevropodden
hva-er-greia-med
dekodet-2
rss-inn-til-kjernen-med-sunniva-rose