Publications since 2019
The list of publications can also be found on Google Scholar or arXiv. ( *: co-first author; †: corresponding author)
The list of publications can also be found on Google Scholar or arXiv. ( *: co-first author; †: corresponding author)
A. First/corresponding author publications:
[28] Coming soon!
[27] "Robust Tripartite Entanglement Generation via Correlated Noise in Spin Qubits" (Sander's Master Thesis Project)
Sander Driessen, Ji Zou†, Even Thingstad, Jelena Klinovaja, Daniel Loss; arXiv:2506.20466
[26] "Topological Spin Textures Enabling Quantum Transmission"
Ji Zou†, Stefano Bosco, Jelena Klinovaja, Daniel Loss; arXiv:2409.14373
[25] "Tunable Ultrafast Dynamics of Antiferromagnetic Vortices in Nanoscale Dots
Ji Zou, Even Thingstad, Se Kwon Kim, Jelena Klinovaja, Daniel Loss; arXiv:2404.18306
[24] "Dissipative Spin-wave Diode and Nonreciprocal Magnonic Amplifier"
Ji Zou†, Stefano Bosco, Even Thingstad, Jelena Klinovaja, Daniel Loss; Phys. Rev. Lett. 132 (3), 036701(2024)
[23] [Editors’ Suggestion, Highlighted in Phys.org] "Topological transport of deconfined hedgehogs in magnets"
Ji Zou, S. Zhang, Y. Tserkovnyak; Phys. Rev. Lett. 125, 267201 (2020)
[22] "Spatially correlated classical and quantum noise in driven qubits"
Ji Zou†, Stefano Bosco, Daniel Loss; npj Quantum Information 10 (1), 46 (2024)
[21] "Quantum computing on magnetic racetracks with flying domain wall qubits"
Ji Zou†, S. Bosco, B. Pal, S. Parkin, J. Klinovaja, D. Loss, Phys. Rev. Research 5 (3), 033166 (2023)
[20] [Letter and Editors' Suggestion] "Bell-state generation for spin qubits via dissipative coupling"
Ji Zou, S. Zhang, Y. Tserkovnyak, Phys. Rev. B. 106, L180406 (2022)
[19] "Aspects of magnetism: topology, transport, and quantum entanglement"
Ji Zou, Ph.D. Thesis (2022)
[18] [Editors’ Suggestion] "Tuning entanglement by squeezing magnons in anisotropic magnets"
Ji Zou, S. K. Kim, Y. Tserkovnyak, Phys. Rev. B 101, 014416 (2020)
[17] [Rapid Communication] "Topological Transport of Vorticity in Heisenberg Magnets"
Ji Zou, S. K. Kim, Y. Tserkovnyak, Phys. Rev. B 99, 180402(R) (2019)
[16] [Selected as Front Cover] "Visualizing Magnetic Order in Self-Assembly of Superparamagnetic Nanoparticles"
Xingyuan Lu*, Ji Zou*, Minh Pham, Arjun Rana, Chen-Ting Liao, Emma Cating Subramanian, Xuefei Wu, Yuan Hung Lo, Charles S Bevis, Robert M Karl Jr, Serban Lepadatu, Young-Sang Yu, Yaroslav Tserkovnyak, Thomas P Russell, David A Shapiro, Henry C Kapteyn, Margaret M Murnane, Robert Streubel, Jianwei Miao; arXiv:2401.01284 (accepted in ACS Applied Nano Materials)
B. Experimental collaborations:
[15] "Three-dimensional topological magnetic monopoles and their interactions in a ferromagnetic meta-lattice"
[Highlighted in Nature Physics News & Views, and ALS Science Highlight]
A. Rana*, C. T. Liao*, E. Iacocca, Ji Zou (Main Theory Contributor), M. Pham, X. Y. Lu, Emma-Elizabeth Cating Subramanian, Yuan Hung Lo, Sinéad A. Ryan, Charles S. Bevis, Robert M. Karl Jr, Andrew J. Glaid, Jeffrey Rable, Pratibha Mahale, Joel Hirst, Thomas Ostler, William Liu, Colum M. O’Leary, Young-Sang Yu, Karen Bustillo, Hendrik Ohldag, David A. Shapiro, Sadegh Yazdi, Thomas E. Mallouk, Stanley J. Osher, Henry C. Kapteyn, Vincent H. Crespi, John V. Badding, Yaroslav Tserkovnyak, Margaret M. Murnane & Jianwei Miao; Nature Nanotechnology 18 (3), 227-232 (2023)
[14] "Pinpointing single light atoms in quantum materials with ptychographic electron tomography"
N. Kim*, H. Zhong*, J. Zhang*, C. O'Leary*, Y. Liao, Ji Zou (Main Theory Contributor), Haozhi Sha, Minh Pham, Weiyi Li, Yakun Yuan, Ji-Hoon Park, Dennis Kim, Huaidong Jiang, Jing Kong, Miaofang Chi, and Jianwei Miao; arXiv:2504.08228; Under review in Nature (second round)
[13] "Tracing Dirac points of topological surface states by ferromagnetic resonance"
L. Pietanesi, M. Marganska, T. Mayer, M. Barth, L. Chen, Ji Zou, Adrian Weindl, Alexander Liebig, Rebeca Díaz-Pardo, Dhavala Suri, Florian Schmid, Franz J. Gießibl, Klaus Richter, Yaroslav Tserkovnyak, Matthias Kronseder, and Christian H. Back; Phys. Rev. B 109, 064424 (2024)
C. Collaborative publications (Including 10 as second author)
[12] "Directional entanglement of spin-orbit locked nitrogen-vacancy centers by magnons"
Zhiping Xue, Ji Zou, Chengyuan Cai, Gerrit E. W. Bauer, Tao Yu; arXiv:2505.07325
[11] [Review Article] "Non-Hermitian Topological Magnonics"
Tao Yu, Ji Zou, Bowen Zeng, J. W. Rao, Ke Xia; Physics Reports 1062, 1-86 (2024)
[10] "High-fidelity spin qubit shuttling via large spin-orbit interaction"
S. Bosco, Ji Zou, Daniel Loss; PRX Quantum 5 (2), 020353 (2024)
[09] "Magnonic Phi Josephson Junctions and Synchronized Precession"
K. Nakata, Ji Zou, Jelena Klinovaja, Daniel Loss; Phys. Rev. Research 6, 033207 (2024)
[08] "Density Matrix Renormalization Group Study of Domain Wall Qubits"
G. Qu, Ji Zou, Daniel Loss, Tomoki Hirosawa; arXiv:2412.11585
[07] "Spin-Orbit Locked Coupling of Localized Microwaves to Magnons"
C. Cai*, Z. Zhang*, Ji Zou, Gerrit E. W. Bauer, Tao Yu; Phys. Rev. Applied 22 (3), 034042 (2024)
[06] "Topological transport of vorticity on curved magnetic membranes"
Chau Dao, Ji Zou, Eric Kleinherbers, Yaroslav Tserkovnyak; arXiv:2311.00323
[05] "Zeeman term for the Néel vector in a two sublattice antiferromagnet"
S. Dasgupta, Ji Zou, Phys. Rev. B 104, 064415 (2021)
[04] [Letter] "Biasing topological charge injection in topological matter"
M. T. Ahari*, S. Zhang*, Ji Zou, Y. Tserkovnyak, Phys. Rev. B 104, L201401 (2021)
[03] [Rapid Communication] "Energy storage in magnetic textures driven by vorticity flow"
D. Jones, Ji Zou, S. Zhang, Y. Tserkovnyak, Phys. Rev. B 102, 140411(R) (2020)
[02] "Quantum hydrodynamics of spin winding"
Y. Tserkovnyak, Ji Zou, S. K. Kim, S. Takei, Phys. Rev. B 102, 224433 (2020)
[01] [Editors’ Suggestion] "Quantum hydrodynamics of vorticity"
Y. Tserkovnyak, Ji Zou, Phys. Rev. Research 1, 033071 (2019)
D. Acknowledged contributions (mentioned in Acknowledgments of publications)
[02] "Breaking conservation law enables steady-state entanglement out of equilibrium"
Vince Hou, Eric Kleinherbers, Shane P. Kelly, and Yaroslav Tserkovnyak, arXiv:2508.18131
[01] "Non-Gaussian Noise Magnetometry Using Local Spin Qubits"
Jonathan B. Curtis, Amir Yacoby, and Eugene Demler, arXiv:2505.03877
[14] "Quantum computing and transmission with mobile topological spin textures on racetracks"
Invited talk at "Spin Summit 2025", Guiyang, China, August 4-9, 2025.
[13] "Topological spin textures enabling quantum information transmission"
Invited talk at "SPICE Workshop on Quantum Functionalities of Nanomagnets", Ingelheim, Germany, June 17th - 19th 2025.
[12] “Quantum computing and transmission with mobile topological spin textures on racetracks”
Seminar at Huazhong University of Science and Technology, China, February 2025. Host: Prof. Jianming Cai.
[11] “Quantum computing and transmission with mobile topological spin textures on racetracks”
Seminar at Delft University of Technology, Delft, Netherlands, September 2024.
[10] “Quantum computing and transmission with mobile topological spin textures on racetracks”
Invited talk at “International Conference on Skyrmionics”, Kloster Seeon, Germany, September 2024.
[09] “Dissipative Spin-wave Diode and Nonreciprocal Magnonic Amplifier”
Seminar at Huazhong University of Science and Technology, China, June 2024. Host: Prof. Tao Yu.
[08] “Tunable ultrafast antiferromagnetic vortices in nanodots”
QCQT Research seminar, University of Basel, Switzerland, April 2024.
[07] “Quantum computing on magnetic racetrack with flying domain wall qubit,”
Seminar at Paul Scherrer Institute, Switzerland, September 2023. Host: Prof. Laura Heyderman.
[06] “Dissipative Spin-wave Diode and Nonreciprocal Magnonic Amplifier”
QCQT Research seminar, University of Basel, Switzerland, November 2023.
[05] “Quantum computing on magnetic racetrack with flying domain wall qubit”
Invited talk at International Conference “Condensed Matter Solitons,” Institute for Basic Science, Korea.
[04] “Quantum computing on magnetic racetrack with flying domain wall qubit”
Seminar at KAIST, Korea, June 2023. Host: Prof. Se Kwon Kim.
[03] “Quantum computing on magnetic racetrack with flying domain wall qubit”
G.H.E. seminar at University of Freiburg, Germany, April 2023. Host: Prof. Andreas Buchleitner.
[02] “Quantum computing on magnetic racetrack with flying domain wall qubit”
Seminar at Max Planck Institute of Microstructure Physics, Germany, January 2023. Host: Prof. Stuart Parkin.
[01] “Entangling spin qubits via magnon-mediated dissipative couplings”
Seminar at Huazhong University of Science and Technology, China, December 2022. Host: Prof. Tao Yu.
A. Oral presentations
[20] "Quantum Computing on Magnetic Racetracks with Flying Domain Wall Qubits"
4th International Workshop on Quantum Designer Physics, San Sebastian, Spain (Jul 2024).
[19] "Hybrid Racetrack-Spin Qubit"
NCCR SPIN Annual Meeting, Pontresina, Switzerland (Jun 2024).
[18] "Topological Transport of Deconfined Hedgehogs in Magnets"
APS March Meeting (Virtual, Mar 2021).
[17] “Bose-Vortex Duality in Bose-Hubbard Model”
Condensed Matter Theory Journal Club at UCLA, USA (Virtual, Nov 2020)
[16] “Entanglement, concurrence, and some examples”
Condensed Matter Theory Journal Club at UCLA, USA (Virtual, Oct 2020)
[15] "Tuning Entanglement by Squeezing Magnons in Anisotropic Magnets"
APS March Meeting (Virtual, Mar 2020).
[14] "Topological Transport of Vorticity in Heisenberg Magnets"
APS March Meeting, Boston, USA (Mar 2019).
B. Poster presentations
[13] "Quantum Computing and Transmission on Magnetic Racetracks"
13th International Workshop on Spin Caloritronics, Beijing, China (May 2024).
[12] "Quantum Computing on Magnetic Racetracks"
Hybrid Correlated States Workshop, Mainz, Germany (May 2024).
[11] “Quantum computing on magnetic racetrack with flying domain wall qubit”
Quantum Computation for Young Researchers, Kandersteg, Switzerland (January 2024)
[10] "Quantum Computing on Magnetic Racetracks" (Best Poster Award)
5th Intl. Symposium on QPQI, Beijing, China (Oct 2023).
[09] "Spatially Correlated Noise in Driven Qubits"
Quantum Spinoptics Workshop, Mainz, Germany (Jun 2023).
[08] "Bell-State Generation via Dissipative Coupling"
Spin-Qubit 5, Pontresina, Switzerland (Sep 2022).
C. Summer schools and programs
[07] "Many-Body Physics in Open Quantum Systems"
Princeton Workshop (Virtual, Jan 2021).
[06] "Quantum Matter in the Age of Entanglement"
Princeton Workshop (Virtual, Dec 2020).
[05] "Magnetism in Quantum Materials"
Princeton Summer School (Virtual, Jun 2020).
[04] "KITP Program: Spin and Heat Transport in Quantum Materials"
UC Santa Barbara, USA | October–November 2019
[03] "Emergent Phenomena in 2D Materials"
Princeton Summer School (Jul–Aug 2019).
[02] "CalFront19: Frontiers of Correlated and Topological Matter"
Summer School at UC Irvine (Jun 2019).
[01] "Protein Interactions with Lipid Membranes"
Summer Internship, Carnegie Mellon University (Jul–Sep 2014).