‘Magic’ angle graphene and the creation of unexpected topological quantum states – Princeton University
Electrons inhabit a strange and topsy-turvy world. These infinitesimally small particles have never ceased to amaze and mystify despite the more than a century that scientists have studied them. Now, in an even more amazing twist, physicists have discovered that, under certain conditions, interacting electrons can create what are called topological quantum states. This finding, which was recently published in the journal Nature,holds great potential for revolutionizing electrical engineering, materials science and especially computer science.
Topological states of matter are particularly intriguing classes of quantum phenomena. Their study combines quantum physics with topology, which is the branch of theoretical mathematics that studies geometric properties that can be deformed but not intrinsically changed. Topological quantum states first came to the publics attention in 2016 when three scientists Princetons Duncan Haldane, who is Princetons Thomas D. Jones Professor of Mathematical Physics and Sherman Fairchild University Professor of Physics, together with David Thouless and Michael Kosterlitz were awarded the Nobel Prize for their work in uncovering the role of topology in electronic materials.
A Princeton-led team of physicists have discovered that, under certain conditions, interacting electrons can create what are called topological quantum states, which,has implications for many technological fields of study, especially information technology. To get the desired quantum effect, the researchersplaced two sheets of graphene on top of each other with the top layer twisted at the "magic" angle of 1.1 degrees, whichcreates a moir pattern. This diagram shows a scanning tunneling microscopeimaging the magic-angle twisted bilayer graphene.
Image courtesy of Kevin Nuckolls
The last decade has seen quite a lot of excitement about new topological quantum states of electrons, said Ali Yazdani, the Class of 1909 Professor of Physics at Princeton and the senior author of the study. Most of what we have uncovered in the last decade has been focused on how electrons get these topological properties, without thinking about them interacting with one another.
But by using a material known as magic-angle twisted bilayer graphene, Yazdani and his team were able to explore how interacting electrons can give rise to surprising phases of matter.
The remarkable properties of graphene were discovered two years ago when Pablo Jarillo-Herrero and his team at the Massachusetts Institute of Technology (MIT) used it to induce superconductivity a state in which electrons flow freely without any resistance. The discovery was immediately recognized as a new material platform for exploring unusual quantum phenomena.
Yazdani and his fellow researchers were intrigued by this discovery and set out to further explore the intricacies of superconductivity.
But what they discovered led them down a different and untrodden path.
This was a wonderful detour that came out of nowhere, said Kevin Nuckolls, the lead author of the paper and a graduate student in physics. It was totally unexpected, and something we noticed that was going to be important.
Following the example of Jarillo-Herrero and his team, Yazdani, Nuckolls and the other researchers focused their investigation on twisted bilayer graphene.
Its really a miracle material, Nuckolls said. Its a two-dimensional lattice of carbon atoms thats a great electrical conductor and is one of the strongest crystals known.
Graphene is produced in a deceptively simple but painstaking manner: a bulk crystal of graphite, the same pure graphite in pencils, is exfoliated using sticky tape to remove the top layers until finally reaching a single-atom-thin layer of carbon, with atoms arranged in a flat honeycomb lattice pattern.
To get the desired quantum effect, the Princeton researchers, following the work of Jarillo-Herrero, placed two sheets of graphene on top of each other with the top layer angled slightly. This twisting creates a moir pattern, which resembles and is named after a common French textile design. The important point, however, is the angle at which the top layer of graphene is positioned: precisely 1.1 degrees, the magic angle that produces the quantum effect.
Its such a weird glitch in nature, Nuckolls said, that it is exactly this one angle that needs to be achieved. Angling the top layer of graphene at 1.2 degrees, for example, produces no effect.
The researchers generated extremely low temperatures and created a slight magnetic field. They then used a machine called a scanning tunneling microscope, which relies on a technique called quantum tunneling rather than light to view the atomic and subatomic world. They directed the microscopes conductive metal tip on the surface of the magic-angle twisted graphene and were able to detect the energy levels of the electrons.
They found that the magic-angle graphene changed how electrons moved on the graphene sheet. It creates a condition which forces the electrons to be at the same energy, said Yazdani. We call this a flat band.
When electrons have the same energy are in a flat band material they interact with each other very strongly. This interplay can make electrons do many exotic things, Yazdani said.
One of these exotic things, the researchers discovered, was the creation of unexpected and spontaneous topological states.
This twisting of the graphene creates the right conditions to create a very strong interaction between electrons, Yazdani explained. And this interaction unexpectedly favors electrons to organize themselves into a series of topological quantum states.
The researchers discovered that the interaction between electrons creates topological insulators:unique devices that whose interiors do not conduct electricity but whose edges allow the continuous and unimpeded movement ofelectrons. This diagram depicts thedifferent insulating states of the magic-angle graphene, each characterized by an integer called its Chern number, which distinguishes between different topological phases.
Image courtesy of Kevin Nuckolls
Specifically, they discovered that the interaction between electrons creates what are called topological insulators. These are unique devices that act as insulators in their interiors, which means that the electrons inside are not free to move around and therefore do not conduct electricity. However, the electrons on the edges are free to move around, meaning they are conductive. Moreover, because of the special properties of topology, the electrons flowing along the edges are not hampered by any defects or deformations. They flow continuously and effectively circumvent the constraints such as minute imperfections in a materials surface that typically impede the movement of electrons.
During the course of the work, Yazdanis experimental group teamed up two other Princetonians Andrei Bernevig, professor of physics, and Biao Lian, assistant professor of physics to understand the underlying physical mechanism for their findings.
Our theory shows that two important ingredients interactions and topology which in nature mostly appear decoupled from each other, combine in this system, Bernevig said. This coupling creates the topological insulator states that were observed experimentally.
Although the field of quantum topology is relatively new, itcouldtransform computer science. People talk a lot about its relevance to quantum computing, where you can use these topological quantum states to make better types of quantum bits, Yazdani said. The motivation for what were trying to do is to understand how quantum information can be encoded inside a topological phase. Research in this area is producing exciting new science and can have potential impact in advancing quantum information technologies.
Yazdani and his team will continue their research into understanding how the interactions of electrons give rise to different topological states.
The interplay between the topology and superconductivity in this material system is quite fascinating and is something we will try to understand next, Yazdani said.
In addition to Yazdani, Nuckolls, Bernevig and Lian, contributors to the study included co-first authors Myungchul Oh and Dillon Wong, postdoctoral research associates, as well as Kenji Watanabe and Takashi Taniguchi of the National Institute for Material Science in Japan.
Strongly Correlated Chern Insulators in Magic-Angle Twisted Bilayer Graphene, by Kevin P. Nuckolls, Myungchul Oh, Dillon Wong, Biao Lian, Kenji Watanabe, Takashi Taniguchi, B. Andrei Bernevig and Ali Yazdani, was published Dec. 14 in the journal Nature (DOI:10.1038/s41586-020-3028-8). This work was primarily supported by the Gordon and Betty Moore Foundations EPiQS initiative (GBMF4530, GBMF9469) and the Department of Energy (DE-FG02-07ER46419 and DE-SC0016239). Other support for the experimental work was provided by the National Science Foundation (Materials Research Science and Engineering Centers through the Princeton Center for Complex Materials (NSF-DMR-1420541, NSF-DMR-1904442) and EAGER DMR-1643312), ExxonMobil through the Andlinger Center for Energy and the Environment at Princeton, the Princeton Catalysis Initiative, the Elemental Strategy Initiative conducted by Japans Ministry of Education, Culture, Sports, Science and Technology (JPMXP0112101001, JSPS KAKENHI grant JP20H0035, and CREST JPMJCR15F3), the Princeton Center for Theoretical Science at Princeton University, the Simons Foundation, the Packard Foundation, the Schmidt Fund for Innovative Research, BSF Israel US foundation (2018226), the Office of Naval Research (N00014-20-1-2303) and the Princeton Global Network Funds.
Original post:
'Magic' angle graphene and the creation of unexpected topological quantum states - Princeton University
- What does it mean to be quantum? A physicist explains the basics behind Einsteins spooky actions at a distance - The Conversation - July 16th, 2026 [July 16th, 2026]
- Q-Day is coming and it might break the entire internet - ABC News & Headlines Australian Broadcasting Corporation - July 16th, 2026 [July 16th, 2026]
- CT quantum initiative wins NSF award, unlocking millions in federal funding - CT Mirror - July 16th, 2026 [July 16th, 2026]
- Heres The First Universal Photonic Quantum Computer You Can Actually Install - Forbes - July 16th, 2026 [July 16th, 2026]
- Quantum Computing Is About to Get a Lot More Real - inc.com - July 16th, 2026 [July 16th, 2026]
- ESA brings quantum computing to Earth observation - European Space Agency - July 16th, 2026 [July 16th, 2026]
- Saving Lives with Quantum Computing and AI - Millersville University - July 16th, 2026 [July 16th, 2026]
- Trapped Ions Make Beautiful Qubits, But Will They Scale? - Communications of the ACM - July 16th, 2026 [July 16th, 2026]
- IonQ (IONQ) Among The Best Quantum Computing Stocks to Buy and Hold Forever - Yahoo Finance - July 16th, 2026 [July 16th, 2026]
- Toward the Advent of the Quantum Technology EraDeepening Global Innovation | Interview with D-Wave Quantum: The Appeal and Keys to Growth in Japan's... - July 16th, 2026 [July 16th, 2026]
- Quantinuum, Rolls-Royce, Riverlane and University of Edinburgh Sign Agreement to Explore Quantum Computing for Industrial Design and Simulation - PR... - July 16th, 2026 [July 16th, 2026]
- Quantinuum, Rolls-Royce, Riverlane and University of Edinburgh Sign Agreement to Explore Quantum Computing For Industrial Design And Simulation - The... - July 16th, 2026 [July 16th, 2026]
- Quantum computing breakthrough could accelerate tritium production for future fusion power - Innovation News Network - July 16th, 2026 [July 16th, 2026]
- Tennessee to invest $3 million in quantum computing - WATE 6 On Your Side - July 16th, 2026 [July 16th, 2026]
- Post-Quantums Algorithm - Classic McEliece - Achieves Global ISO Standardization to Protect the World From Quantum Cyber Attack - Yahoo Finance - July 16th, 2026 [July 16th, 2026]
- Rigetti Computing (RGTI) Could Be Fully Valued On Its India Quantum Contract - simplywall.st - July 16th, 2026 [July 16th, 2026]
- The University of Tokyo: Picosecond Light Pulses Boost Ultrafast Quantum Computing Potential - Quantum Zeitgeist - July 16th, 2026 [July 16th, 2026]
- Xanadu and Lockheed Martin Expand Quantum Workforce Training With PennyLane - The Quantum Insider - July 16th, 2026 [July 16th, 2026]
- D-Wave Quantum Stock Has Fallen 59% From Its Highs. Is the Selloff Overdone? - TIKR.com - July 16th, 2026 [July 16th, 2026]
- Physicists confirm 20-year-old theory that could boost quantum technology - Phys.org - July 16th, 2026 [July 16th, 2026]
- This Quantum Computing Stock Is Poised for a Sharp Selloff in the Second Half of 2026 - Yahoo Finance - July 11th, 2026 [July 11th, 2026]
- Oratomic raises $300M to build a viable quantum computer that needs only 20K qubits - TechCrunch - July 11th, 2026 [July 11th, 2026]
- Quantum computing wielded to create extremely rare material critical to nuclear fusion - Live Science - July 11th, 2026 [July 11th, 2026]
- Quantum computing is coming. It will deliver extraordinary benefits - Washington Examiner - July 11th, 2026 [July 11th, 2026]
- Quantum computers are coming for crypto. The industry is racing to prepare - CTech - July 11th, 2026 [July 11th, 2026]
- Atom Computings Kristen Pudenz: Error Correction Is Bringing Quantums Future Into Focus - MeriTalk - July 11th, 2026 [July 11th, 2026]
- SEALSQ and Quobly Execute $5M Commercial Accord to Embed Post-Quantum Cryptography in Silicon Quantum Processors - Quantum Computing Report - July 11th, 2026 [July 11th, 2026]
- 1 Incredible Quantum Computing Stock That Could Make Investors a Fortune - The Motley Fool - July 11th, 2026 [July 11th, 2026]
- 'The Quantum Revolution: A Guide for Allied Policymakers' - by CWP alum Eyck Freymann | - Columbia-Harvard China and the World Program - July 11th, 2026 [July 11th, 2026]
- How to pack a problem: Now with 90% less baggage - University of Tennessee at Chattanooga - July 11th, 2026 [July 11th, 2026]
- QUDORA Partners with QAI to Bring Ion-Trap Quantum Computing to South Korea - HPCwire - July 11th, 2026 [July 11th, 2026]
- Peter Shors algorithm could break the internet but he's not worried - New Scientist - July 11th, 2026 [July 11th, 2026]
- Fort Lewis College is making quantum computing and nanotechnology big with use of grant - Front - The Journal - July 11th, 2026 [July 11th, 2026]
- ORNL, IBM, Cleveland Clinic Use Quantum Computing to Advance Tritium Research - ExecutiveGov - July 11th, 2026 [July 11th, 2026]
- Utah's Quantum Initiative Has a Plan: Inside the Third Roundtable's Draft Strategy - TechBuzz News - July 11th, 2026 [July 11th, 2026]
- Quantum Computing Outpaces Sector in a Year: Is the Stock Still a Buy? - TradingView - July 11th, 2026 [July 11th, 2026]
- Heidelberg physicists just united two opposing quantum theories - ScienceDaily - July 11th, 2026 [July 11th, 2026]
- SEALSQ and Quobly Sign $5 Million Commercial Agreement to Integrate Post-Quantum Security into Next-Generation Silicon Quantum Computing Platforms -... - July 11th, 2026 [July 11th, 2026]
- Oak Ridge National Lab, Cleveland Clinic, and IBM Achieve First-Known Computations of Fusion Materials on a Quantum Computer - IBM Newsroom - July 7th, 2026 [July 7th, 2026]
- Oak Ridge National Lab, Cleveland Clinic, and IBM Achieve First-Known Computations of Fusion Materials on a Quantum Computer - PR Newswire - July 7th, 2026 [July 7th, 2026]
- Microsoft's claims over its quantum chip questioned in Nature article - BBC - June 26th, 2026 [June 26th, 2026]
- A new vision for quantum computing takes a big step forward, with new grant - YaleNews - June 26th, 2026 [June 26th, 2026]
- Uncertain quantum future presents existential threat to US military missions, DOD warns - DefenseScoop - June 26th, 2026 [June 26th, 2026]
- University of Maryland Grant Targets Quantum and AI Tools for Cancer Research - The Quantum Insider - June 26th, 2026 [June 26th, 2026]
- A Quantum Leap: The Technology Trying to Reinvent the Computer - marketscreener.com - June 26th, 2026 [June 26th, 2026]
- Meeting Trump's 2030 Quantum Deadline Will be Expensive, Complex - Dark Reading - June 26th, 2026 [June 26th, 2026]
- Trump Executive Orders Home in on Useful Quantum Computing - govtech.com - June 26th, 2026 [June 26th, 2026]
- Will operationalized quantum computing hit the public soon? - IT Brew - June 26th, 2026 [June 26th, 2026]
- Pentagon Sets Hard 2031 Deadline for Quantum-Resistant Encryption, Names Nuclear Command at Risk - Tech Times - June 26th, 2026 [June 26th, 2026]
- New R Street Study Warns U.S. Critical Infrastructure Is Running Out of Time to Prepare for Quantum Threats - R Street Institute - June 26th, 2026 [June 26th, 2026]
- The U.S. Government Is Betting Billions on Quantum Computing. These 3 Stocks Are the Biggest Winners. - The Motley Fool - June 26th, 2026 [June 26th, 2026]
- Quantum Computing Stocks IonQ, Rigetti Computing, and D-Wave Quantum Sent Shockwaves Through Wall Street With This $857 Million Warning - Yahoo... - June 26th, 2026 [June 26th, 2026]
- Trump Wants to Aggressively Fast Track Quantum Computing Projects - Yahoo Finance - June 26th, 2026 [June 26th, 2026]
- Trumps Orders Intended to Advance US Quantum Computing Industry - The Well News - June 26th, 2026 [June 26th, 2026]
- Quantum Computing Stocks IonQ, Rigetti Computing, and D-Wave Quantum Sent Shockwaves Through Wall Street With This $857 Million Warning - The Motley... - June 26th, 2026 [June 26th, 2026]
- The PQC Silicon Is Here Today for Tomorrows Quantum Threats - EE Times - June 26th, 2026 [June 26th, 2026]
- Texas A&M Supercomputer Named Most Powerful Among US Universities - HPCwire - June 26th, 2026 [June 26th, 2026]
- Executive orders lift Colorados quantum stocks and aspirations - Colorado Public Radio - June 24th, 2026 [June 24th, 2026]
- A new quantum computer sets a high watermark for accuracy are we on the verge of a big breakthrough? - The Conversation - June 24th, 2026 [June 24th, 2026]
- Bull and Alice & Bob Partner up to Bring Quantum Computers into HPC - The Quantum Insider - June 24th, 2026 [June 24th, 2026]
- Why Investors Are Finally Separating Quantum Computing Winners From Losers - 24/7 Wall St. - June 24th, 2026 [June 24th, 2026]
- With major conference in town, Mass. seeks to boost quantum computing efforts - The Boston Globe - June 24th, 2026 [June 24th, 2026]
- Quantum Computing Is Finally Here. But What Is It? - Bloomberg.com - June 24th, 2026 [June 24th, 2026]
- Trump signs executive orders to 'supercharge' quantum computing - ABC News - Breaking News, Latest News and Videos - June 24th, 2026 [June 24th, 2026]
- Trump Fast-Tracks Quantum Computing With New Executive Orders - Barron's - June 24th, 2026 [June 24th, 2026]
- Quantum computer furthers healthcare research at Cleveland Clinic - Spectrum News - June 24th, 2026 [June 24th, 2026]
- Chicago Missed the Tech Boom. Quantum Computing Gives It a Second Chance. - WSJ - June 24th, 2026 [June 24th, 2026]
- Quantum computing is often seen as a risk to bitcoin. Now Trump wants to develop it. - CoinDesk - June 24th, 2026 [June 24th, 2026]
- Trump Seeks to Boost Quantum Computing With New Executive Orders - WSJ - June 24th, 2026 [June 24th, 2026]
- The Mathematical Tools Trailblazing the Quantum Future - Simons Foundation - June 24th, 2026 [June 24th, 2026]
- D-Wave Quantum: Trumps Orders Make This Speculative Buy Worth Watching (NYSE:QBTS) - Seeking Alpha - June 24th, 2026 [June 24th, 2026]
- Executive orders seek to hasten quantum computingand guard against its use - Defense One - June 24th, 2026 [June 24th, 2026]
- Physicist reacts to Trump executive order calling for a quantum computer - NBC News - June 24th, 2026 [June 24th, 2026]
- 3 Quantum Computing Stocks With More Upside Than SpaceX - Yahoo Finance - June 24th, 2026 [June 24th, 2026]
- Quantum Computing Stocks Mixed Amid Trump Executive Orders, 2028 Target - Investor's Business Daily - June 24th, 2026 [June 24th, 2026]
- The US government wants a working quantum computer by 2028 and quantum-resistant encryption by 2031 - TechSpot - June 24th, 2026 [June 24th, 2026]
- Donald Trump Signs Quantum Computing Orders What Could It Mean for Bitcoin and XRP? - Yahoo Finance - June 24th, 2026 [June 24th, 2026]
- QuantWare and Maybell Partner to Maximize Compute-Per-Watt Performance of VIO-40K systems - The Quantum Insider - June 24th, 2026 [June 24th, 2026]
- Quantum computing is finally here. But what is it? - BusinessWorld Online - June 24th, 2026 [June 24th, 2026]
- White House Looks to Speed Up Transition to Quantum Computing with Pair of Executive Orders - PYMNTS.com - June 24th, 2026 [June 24th, 2026]