M. Zahid Hasan

Professor of Physics
Phone: 
609-258-3044
Email Address: 
mzhasan@Princeton.EDU
Office Location: 
321 Jadwin Hall

 

 

Eugene Higgins Professor of Physics

 

Publications List: 

Selected Review Articles (Invited):

“Discovery of Weyl Fermion Semimetals and Topological Fermi Arc States”

M. Z. Hasan, S.-Y. Xu, I. Belopolski, S.-M. Huang

Ann. Review Cond. Mat. Phys 8, 289-309 (2017)

Weyl Semimetal patent: United States Patent # 10214797.

 

"Topological Magnets in 2D and 3D"

https://absuploads.aps.org/presentation.cfm?pid=14503

 

“Weyl Semimetals, Fermi Arcs and Chiral Anomalies”

S. Jia, S.-Y. Xu and M. Z. Hasan

Nature Materials 15, 1140–1144 (2016)

 

“Topological Insulators, Topological Superconductors and Weyl Semimetals”

M. Z. Hasan, S.-Y. Xu and G. Bian

Phys. Scr. T164 014001 (2015)

 

“Topological Insulators, Topological Dirac semimetals, Topological Crystalline Insulators, and Topological Kondo Insulators”

M. Z. Hasan, S.-Y. Xu, M. Neupane

(Review) Book Chapter in Topological Insulators:Fundamentals and Perspectives (2015) 

Edited by F. Ortmann, S. Roche & S. Valenzuela (John Wiley & Sons)

 

“Topological Surface States - A New Type of 2D Electrons Systems”

M. Z. Hasan, D. Hsieh, S.-Y. Xu, L. Wray, Y. Xia

Book Chapter (Review) in “Topological Insulators” (2013) (Elsevier)

 

“Three-Dimensional Topological Insulators”

M. Z. Hasan and J. E. Moore

Ann. Review Cond. Mat. Phys 2, 55 (2011) 

Theoretical Prediction of Bi2Se3 family of Topo.Insulators : Y. Xia et.al., arXiv:0908.3513 (2009)

 

“Topological Quantization in Topological Insulators”

M. Zahid Hasan

Physics 3, 62 (2010) 

 

“Topological Insulators”

M. Zahid Hasan and Charles L. Kane

Review of Modern Physics 82, 3045 (2010) 

 

MERLIN - A meV Resolution Beamline at the Advanced Light Source (Berkeley Lab)

M.Z. Hasan with MERLIN collaboration: R. Reininger, Y.-D. Chuang, et al.; 

American Institute of Physics Conference Proceedings 879, 509 (2007).

 

Design of an elliptically bent refocus mirror for the MERLIN beamline at the Advanced Light Source  (Berkeley Lab)

M.Z. Hasan with MERLIN collaboration: N. Kelez, Y.-D. Chuang et al.; 

Nuclear Instruments and Methods in Physics Research A 582, 135 (2007).

 

Berkeley Lab News: 

“How X-rays Pushed Topological Matter Research Over the Top”

https://newscenter.lbl.gov/2017/04/14/how-x-rays-pushed-topological-matter-research-over-the-top/

 

Superconductivity and Magnetism in Topological or Dirac Matter

Observation of topological order in a superconducting doped topological insulator. 

L. A. Wray, Y. Xia, et al.;

Nature Physics 6, 855 (2010).

 

A topological insulator surface under strong Coulomb, magnetic and disorder perturbations.

L. A. Wray, S.-Y. Xu, Y. Xia, et al.;

Nature Physics 7, 32 (2011).

 

Hedgehog spin texture and Berry's phase tuning in a magnetic topological insulator. 

S.-Y. Xu, M. Neupane et al.; 

Nature Physics 8, 616 (2012).

 

Momentum-space imaging of Cooper pairing in a half-Dirac-gas topological superconductor. 

S.-Y. Xu, N. Alidoust, I. Belopolski et.al, 

Nature Physics 10, 943 (2014).

 

Topological Dirac surface states and superconducting pairing correlations in PbTaSe2 

T.-R. Chang, P.-J. Chen, G. Bian et.al., 

Phys. Rev. B 93, 245130 (2016).

 

Discovery of Lorentz-violating Weyl fermions

S.-Y. Xu, N. Alidoust, I. Belopolski et.al, 

Science Adv.  3, e1603266 (2017).

 

Giant and anisotropic many-body spin–orbit tunability in a correlated kagome magnet 

J.-X. Yin, S. S. Zhang et.al., 

Nature 562, 91–95 (2018).

 

Chiral Majorana Fermion Modes on the surface of superconducting topo. Insulators 

C.-K. Chiu, G. Bian et.al., 

Europhysics Letters 123, 47005 (2018).

 

Discovery of Weyl lines and drumhead surface states in a room temperature magnet 

I. Belopolski, K. Manna et.al., 

Science 365, 1278-1281 (2019).

 

Field-free platform for Majorana-like zero mode in superconductors with a topo. surface state

S. S. Zhang, J.-X. Yin et.al., 

Phys. Rev. B 101, 100507(R) (2020).

 

“Princeton scientists discover topological crystals exhibiting exotic quantum effects”

https://www.princeton.edu/news/2019/03/20/princeton-scientists-discover-chiral-crystals-exhibiting-exotic-quantum-effects

 

“Discovery of Weyl Fermion Semimetals and Topological Fermi Arc States”

M. Z. Hasan, S.-Y. Xu, I. Belopolski, S.-M. Huang

Ann. Review Cond. Mat. Phys 8, 289-309 (2017)

Weyl Semimetal patent: United States Patent # 10214797.

Theoretical Prediction of TaAs family : S.-M. Huang et.al., Nature Commun. 6:7373 subm. (2014)

 

“Topological Insulators” (and Superconductors)

M. Zahid Hasan and Charles L. Kane

Reviews of Modern Physics 82, 3045 (2010) 

Theoretical Prediction of Bi2Se3 family of Topo.Insulators : Y. Xia et.al., arXiv:0908.3513 (2009)

 

Recent Research Projects:

https://www.moore.org/investigator-detail?investigatorId=hasan

 

Topological Superconductors and Majorana platforms:

http://physics.princeton.edu/zahidhasangroup/index_TSC.html