Yazdani Lab
@LabYazdani
Professor of Physics, Ali Yazdani, and his lab group @Princeton University visualize #quantum states of matter. Yazdani is also Director of the @pccm_mrsec
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Join @NobelPrize laureate and @PrincetonChem professor @dmac68 today and stand up for Princeton and higher education: bit.ly/436qG7R
Check out our highlight on the latest work from @LabYazdani on fractional quantum Hall states in BLG, now in @NaturePhysics: Highlight: rdcu.be/ekReg Article: nature.com/articles/s4156…
TODAY, we were thrilled to welcome a group of students from Science Park High School on lab tours; Prof. Sanfeng Wu and Prof. Ali Yazdani's & demonstrations at Frick Chemistry lab!! #PrincetonU
PMI faculty member Sanfeng Wu of @PrincetonPhys continues our #quantum tech and imaging session with his research on re-inventing 2D nanochemistry and a new path to quantum device engineering #PMISymposium
Our paper on STM spectra of fractional quantum Hall states in bilayer graphene is now available in @NaturePhysics Thanks to @LabYazdani for these beautiful experiments and to @LeverhulmeTrust for their support. nature.com/articles/s4156…
The Fritz London Memorial Prize Selection Committee is proud to announce this year's awardees: Congratulations to John Saunders, Robert Hallock & Ali Yazdani for their groundbreaking contributions to low-temperature physics. @lt30conference @IUPAP_physics duke.is/9/74nq
And the winners of 2025 R. L. Greene Dissertation Award in Experimental Condensed Matter are... Kevin Nuckolls, PhD. from @yazdanilab and Jane Park, PhD. from @Jarillo_Herrero and now Dicke/Schmidt/Presidential postdoc fellow @yazdanilab ....awarded @aps Global Physics Summit
Prof Yazdani and researchers have visualized a quantum fractal pattern known as Hofstadter's butterfly! This groundbreaking discovery opens new doors to understanding electron interactions in quantum materials. Read more here: bit.ly/41mPXda
A team of scientists from Princeton has measured the energies of electrons in a new class of quantum materials and has found them to follow a fractal pattern. Fractals are self-repeating patterns that occur on different length scales and can be seen in nature in a variety of…
Nice story about our recent Nature paper in New Scientist. newscientist.com/article/247002…
Check out our new paper just published in Nature on "Spectroscopy of the fractal Hofstadter energy spectrum." Another study made possible by moire materials. nature.com/articles/s4158…
The Princeton Quantum Initiative (PQI) is accepting applications for its Postdoctoral Fellowship Program. These highly competitive fellowships support research in quantum science and engineering. Applications are due on Oct. 20. puwebp.princeton.edu/AcadHire/apply… #PrincetonU
Beautiful day 😎 to meet up with the @LabYazdani group for the @PrincetonPhys “Welcome Back” gathering! Students, postdocs, faculty and staff relaxed by the #PrincetonU football stadium.🍕🍺🍦
Our paper on understanding STM spectra of FQH states has just appeared as a @PhysRevB Letter. Thanks to our collaborators @LabYazdani @cbajit @LeverhulmeTrust journals.aps.org/prb/abstract/1…
Wed, 7/24 - Join Ali Yazdani from @Princeton for "Peering into the Secret Life of Electrons" - 5:30pm. #physics #electrons #particlephysics #princetonquantuminitiative #quantumphenomena
Ali Yazdani and Kevin Nuckolls discuss in a Review how local-probe techniques are uniquely positioned to elucidate the microscopic mechanisms underlying the electronic phases in moiré materials: rdcu.be/dJKUM @LabYazdani
Focus Issue on moiré materials! bit.ly/45VStc9 🟣The fractional quantum anomalous Hall effect 🔵Local-probe investigations of microscopic physics 🟢Topological and Berry physics 🟡Engineering interlayer hybridization 🟠Kondo physics & flat bands Details below 👇
A Quantum crystal of frozen electrons—the Wigner crystal—is visualized for the first time. Prof. Ali Yazdani of Yazdani Labs @Princeton joins John to discuss how he and his colleagues took the first image of a Quantum frozen electron Wigner Crystal. Learn more 👇
Our latest Review, by Ali Yazdani and Kevin Nuckolls, discusses how local probe techniques are uniquely positioned to elucidate the microscopic mechanisms underlying the electronic phases in moiré materials: free to read for a month! rdcu.be/dJKUM @LabYazdani
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