Professors

Material Science

Material Science

郝林.jpg
HAO Lin
Professor
Condensed matter physics

 

Professional Appointment

2020.12-present    Scientist        High Magnetic Field Laboratory, CAS

2016.11-2020.11  Postdoctoral Research Associate       Department of Physics & Astronomy, University of Tennessee

 

Education

2011.9-2016.6       Ph.D., University of Science and Technology of China, China

 

Talks and seminars

1. The 64th Annual Conference on Magnetism and Magnetic Materials, Las Vegas, USA (Invited talk)

2. The 86th Annual Meeting of the APS Southeastern Section, Wilmington, USA (Invited talk)

3. March meeting 2017-2019, USA (oral)

4. The 85th Annual Meeting of the APS Southeastern Section, Knoxville, USA (oral)

5. International Union of Materials Research Societies–International Conference on Electronic Materials 2014, Taipei, China (oral)

6. Condensed matter physics seminar of Pusan national university, Online, 2022

 

Research
I am an experimental condensed matter physicist. My interest includes designing, synthesizing and exploring emergent phenomena in quantum material based artificial systems. I’m also interested in developing new growth strategies and new characterization protocols on user facilities, like X-ray synchrotron station and high steady magnetic field cell. My current research focuses on heavy transition metal (e.g., Iridium) oxide artificial systems that display low-dimensional magnetism, nontrivial Berry-phase physics, extreme spin-charge fluctuations and multiferroicity.

 

Selected Publications as the first/corresponding author

1.     Giant magnetic response of a two-dimensional antiferromagnet, Lin Hao, D. Meyers, H. Suwa, J. Yang, C. Frederick, T. R. Dasa, G. Fabbris, L. Horak, D. Kriegner, Y. Choi, J.-W. Kim, D. Haskel, P. J. Ryan, H. Xu*, C. D. Batista*, M.P.M. Dean*, and Jian Liu*, Nat. Phys. 14, 806 (2018).

2.     Anomalous Magnetoresistance due to Longitudinal Spin Fluctuations in a Jeff = 1/2 Mott Semiconductor, Lin Hao#, Zhentao Wang#, Junyi Yang, D. Meyers, Joshua Sanchez, Gilberto Fabbris, Yongseong Choi, Jong-Woo Kim, Daniel Haskel, Philip J. Ryan, Kipton Barros, Jiun-Haw Chu, M. P. M. Dean, Cristian D. Batista, and Jian Liu*, Nat. Commun. 10, 5301 (2019)

3.     Two-dimensional Jeff = 1/2 antiferromagnetic insulator unraveled from interlayer exchange coupling in artificial perovskite iridate superlattices, Lin Hao, D. Meyers, C. Frederick, G. Fabbris, J. Yang, N. Traynor, L. Horak, D. Kriegner, Y. Choi, J.-W. Kim, D. Haskel, P. J. Ryan, M. P. M. Dean*, and Jian Liu*, Phys. Rev. Lett.119, 027204 (2017).

4.     Strain-modulated Slater-Mott crossover of pseudospin-half square-lattice in [(SrIrO3)1, (SrTiO3)1] superlattices, Junyi Yang*, Lin Hao*, Derek Meyers, Tamene Dasa, Lukas Horak, Padraic Shafer, Elke Arenholz, Gilberto Fabbris, Yongseong Choi, Daniel Haskel, Jenia Karapetrova, Jong-Woo Kim, Phil J. Ryan, Haixuan Xu, Cristian D. Batista, Mark P. M. Dean, and Jian Liu*, Phys. Rev. Lett. 124, 177601 (2020).

5.     Manipulate the Electronic State of Mott Iridate Superlattice through Protonation Induced Electron-Filling, Meng Wang#, Lin Hao#, Fang Yin#, Xin Yang, Shengchun Shen, Hui Cao, Junyi Yang, Nianpeng Lu, Yongshun Wu, Jianbing Zhang, Hua Zhou, Jia Li*, Jian Liu*, and Pu Yu*, Adv. Funct. Mater. 2100261 (2021).

6.     Epitaxial stabilization of Sr3Ir2O7 thin films, Junyi Yang*, Lin Hao*, Peyton Nanney, Kyle Noordhoek, Derek Meyers, Lukas Horak, Joshua Sanchez, Jiun-Haw Chu, Christie Nelson, Mark. P. M. Dean, and Jian Liu*, Appl. Phys. Lett. 114, 182401 (2019).

7.     Multiferroicity in half-Cr-doped YMnO3 epitaxial films with compressive strain, Lin Hao, H. B. Cai, X. N. Xie, H. R. Wang, G. K. Lin, X. P. Wang, and H. Zhu, Appl. Phys. Lett. 108, 172904 (2016).

8.     Novel spin-orbit coupling driven emergent states in iridate-based heterostructures, Lin Hao, D. Meyers, M.P.M. Dean, and Jian Liu, J. Phys. Chem. Solids 128, 39 (2019)

9.     First principles study of c-axis strain effect on the magnetic structure and ferroelectricity in double perovskite Y2MnCrO6, Lin Hao, D. Y. Yong, X. N. Xie, H. R. Wang, G. K. Lin, B. C. Pan, and H. Zhu, J. Alloys Compd. 695, 1362 (2017).

10.  Evolution of electric polarization and magnetic properties in half-Cr-doped YMnO3 films in response to epitaxial strain. Lin Hao, H. B. Cai, X. N. Xie, H. R. Wang, G. K. Lin, X. P. Wang, and H. Zhu, J. Alloys Compd. 687, 1-6 (2016).

11. L ayered B-site cation ordering: a key factor in ferrimagnetism of Y2MnCrO6, Lin Hao, L. Yang, M.-H. Lee, T.-H. Lin, Z.F. Zhang, X.N. Xie, and H. Zhu, J. Alloys Compd. 601, 14 (2014).

12.  Preparation of SrCoOx thin films on LaAlO3 substrate and their reversible redox process at moderate temperatures, Lin Hao, Z.F. Zhang, X.N. Xie, H.R. Wang, Q.X. Yu, and H. Zhu, J. Cryst. Growth 427, 36 (2015).

13.  Evolution of film orientation in Y2MnCrO6 epitaxial films prepared by a two-step growth method, Lin Hao, Z.F. Zhang, L. Yang, X.N. Xie, Q.X. Yu, and H. Zhu, Thin Solid Films 580, 94 (2015).

14.  Epitaxial growth and antiferromagnetism of Sn-substituted perovskite iridate SrIr0.8Sn0.2O3, Junyi Yang*, Lin Hao*, Qi Cui, Jiaqi Lin, Lukas Horak, Xuerong Liu, Huaixin Yang, Jenia Karapetrova, Jong-Woo Kim, Phil J. Ryan, Mark P. M. Dean, Jinguang Cheng, and Jian Liu*, Phys. Rev. Mater. 3, 124411 (2019).

 

Others

15.  Decoupling Carrier Concentration and Electron-Phonon Coupling in Oxide Heterostructures Observed with Resonant Inelastic X-Ray Scattering, D. Meyers, Ken Nakatsukasa, Sai Mu, Lin Hao, Junyi Yang, Yue Cao, G. Fabbris, Hu Miao, J. Pelliciari, D. McNally, M. Dantz, E. Paris, E. Karapetrova, Yongseong Choi, D. Haskel, P. Shafer, E. Arenholz, Thorsten Schmitt, Tom Berlijn, S. Johnston, Jian Liu, and M. P. M. Dean, Phys. Rev. Lett. 121, 236802 (2018). 

16.  Magnetism in iridate heterostructures leveraged by structural distortions,      D. Meyers, Yue Cao, G. Fabbris, Neil J. Robinson, Lin Hao, C. Frederick, N. Traynor, J. Yang, Jiaqi Lin, M. H. Upton, D. Casa, Jong-Woo Kim, T. Gog, E. Karapetrova, Yongseong Choi, D. Haskel, P. J. Ryan, Lukas Horak, X. Liu, Jian Liu, and M. P. M. Dean, Sci. Rep. 9, 4263 (2019). 

17.  Designing iridate-based superlattice with large magnetoelectric coupling T. R. Dasa, Lin Hao, Jian Liu, and H. Xu, J. Mater. Chem. C 7, 13294 (2019). 

18. Strain effects on structural and magnetic properties of SrIrO3/SrTiO3 superlattice, T. R. Dasa, Lin Hao, J. Yang, Jian Liu, and H. Xu, Materials Today Physics 4, 43 (2018).  

19.  Eu-doping effects on the structural and multiferroic properties of YMn0.5Cr0.5O3, Xiangnan Xie, Lin Hao, Haoru Wang, Guankai Lin, and Hong Zhu, J. Appl. Phys. 121, 123904 (2017). 

20.  Effects of La-doping on the ferrimagnetism in double perovskite Y2MnCrO6, Z. F. Zhang, Lin Hao, X.N. Xie, H.R. Wang, Q.X. Yu, and H. Zhu, J. Alloys Compd. 646, 580 (2015) 

21.  Ferrimagnetism and possible double perovskite structure in half Cr-doped YMn0.5Cr0.5O3, L. Yang, Q.Y. Duanmu, Lin Hao, Z.F. Zhang, X.P. Wang, Y.Y. Wei, and H. Zhu, J. Alloys Compd. 570, 41 (2013). 

22.  Structural, magnetic and electrical properties of double-doped manganites Y0.5+ySr0.5?yMn1?yCryO3(0≤y≤0.5), L. Yang, Q.Y. Duanmu, Lin Hao, X.P. Wang, Y.Y. Wei, Z.F. Zhang, and H. Zhu, J. Magn. Magn. Mater. 341, 30 (2013).

 
Appendix:
    Copyright @ 2011 - High Magnetic Field Laboratory, Chinese Academy of Sciences