联系方式

 邮箱：  linxiao@westlake.edu.cn

 个人主页：https://www.westlake.edu.cn/faculty/xiao-lin.html

 办公室地址：西湖大学云谷校区理学院 E5-235

个人简介

林效（1987- ），浙江温州人。2008年毕业于浙江大学，获得学士学位。2013年获得浙江大学凝聚态物理博士学位，随后在法国巴黎高科工业物理化学学院从事博士后研究。2016年得到德国洪堡基金会资助在科隆大学从事研究。2018年3月加入西湖大学理学院，担任特聘研究员，从事极低温高磁场热电输运研究。

学术成果

林效博士对极低温极磁高场的热电输运测量有着丰富经验，研究经历主要在铁基超导体、SrTiO3超导体、过渡金属氧族化合物等关联电子体系，善于利用能斯特效应、热电势，热导率，电阻率等在磁场下的量子振荡行为研究样品的费米面及量子极限行为。其关于SrTiO3相关体系的超导相及费米面研究取得了开创性成果：

1.发现载流子浓度最低的超导体，电子浓度比普通金属低6个量级，该超导体非常规超导特性十分突出；
　　2. 完善了SrTiO3超导体的全新相图，揭示了超导转变温度与能带演变的关系，发现该超导体是唯一一个在单带-双带-三带情况下均存在超导的体系；
　　3.深入研究SrTiO3体系的正常态电阻率行为，其低温电阻率呈温度的平方关系，该行为不能简单的由传统费米液体理论解释，随着温度的升高该体系过早的超过Mott-Ioffe-Regel极限，变成所谓的坏金属，并尝试利用流体动力学理论解释该体系的高温输运行为，表明SrTiO3与高温铜氧化物十分相似；
　　4. 在Ca:SrTiO3体系首次发现铁电-超导共存现象等，揭示了铁电量子涨落对该体系超导体的可能影响。

代表论文

1. T. Le, Z. Pan, Z. Xu, J Liu, J. Wang, Z. Lou, Z. Wang*, Y. Yao, C. Wu*, X. Lin*, Evidence for chiral superconductivity in Kagome superconductor CsV3Sb5, arxiv:2309.00264(2023) (Nature accepted!).

2. X. Yang, W. Hu, J. Wang, Z. Xu, T. Wang, Z. Lou and X. Lin，Clues to potential dipolar-Kondo and RKKY interactions in a polar metal，npj Quant. Mater. 8, 47 (2023).

3. B. Fauqué, C. Collignon, H. Yoon, X. Lin, I. Mazin, H. Hwang and K. Behnia, Electronic band sculpted by oxygen vacancies and indispensable for dilute superconductivity, Phys. Rev. Res. 5, 033080 (2023).

4. T. Wang, W. Hu, Z. Lou, Z. Xu, X. Yang, T. Le, J. Wang and X. Lin, Thermoelectric Properties of n-Type Bi4O4SeX2 (X = Cl, Br), Materials 16, 4329 (2023).

5. Z. Zhu, X. Yao, S. Zhao, X. Lin and W. Li, Giant Modulation of the Electron Mobility in Semiconductor Bi2O2Se via Incipient Ferroelectric Phase Transition, J. Am. Chem. Soc.  144, 4541 (2022).

6. M. Wu, Z. Lou, C. Dai, T. Wang, J. Wang, Z. Zhu, Z. Xu, T. Sun, W. Li*, X. Zheng*, and X. Lin *. Achieving Ferroelectricity in a Centrosymmetric High-Performance Semiconductor by Strain Engineering, Adv. Mater. 35, 2300450 (2023).    

7. Tao Wang, Zhuokai Xu, Ziye Zhu, Mengqi Wu, Zhefeng Lou, Jialu Wang, Wanghua Hu, Xiaohui Yang, Tulai Sun, Xiaorui Zheng, Wenbin Li*, and X. Lin *. Highly insulating phase of Bi2O2Se thin films with high electronic performance, Nano Res. 16, 3224–3230 (2023).

8. X. H. Yang. J-K. Bao, Z. F.  Lou, P. Li, C. X. Jiang, J. L. Wang, T. L. Sun. Y. B. Liu, W. Guo, S. Ramakrishnan, S. R Kotla,  M. Tolkiehn, C. Paulmann, G-H Cao, Y. F. Nie, W. B. Li, Y. Liu, S. van Smaalen *, X. Lin *, and Z-A. Xu *. Commensurate stacking phase transitions in an intercalated transition metal dichalcogenide, Adv. Mater. 34(6), 2108550 (2022).

9. J. L. Wang, W. H. Hu, Z. F. Lou, Z. K. Xu, X. H. Yang, T. Wang, X. Lin *, Thermoelectric properties of Bi2O2Se single crystals, Appl. Phys. Lett. 119, 081901 (2021).

10. K. Liang, D. Li, H. Ren, M. Zhao, H. Wang, M. Ding, G. Xu, X. Zhao, S. Long, S. Zhu, P. Sheng, W. Li, X. Lin and B. Zhu, Fully printed high-performance n-type metal oxide thin-film transistors utilizing coffee-ring effect, Nano-Micro Letters 13, 164 (2021).

11. C. Collignon, Y. Awashima, X. Lin, C. Rischau, A. Acheche, B. Vignolle, C. Proust, Y. Fuseya, K. Behnia and B. Fauqué, Quasi-isotropic orbital magnetoresistance in lightly doped SrTiO3, Phys. Rev. Materials 5, 065002 (2021).

12. P. Zhu, Y. Li, X. Yang, Y. Yang, X. Zhang, X. Lin, F. Yang, X. Li, Z. Wang, Synthesis of Superconducting InxSn1−xTe (0.04 < x < 0.1) Large Single Crystal by Liquid Transport Method, Crystals 11, 474 (2021).

13. X. H. Yang*, T. H. Yu, C. C. Xu, J. L. Wang, W. H. Hu, Z. K. Xu, T. Wang, C. Zhang, Z. Ren, Z-A. Xu, M. Hirayama, R. Arita, X. Lin *, Anisotropic superconductivity in the topological crystalline metal Pb1/3 TaS2 with multiple Dirac fermions, Phys. Rev. B 104, 035157 (2021).

14. Z. K. Xu, J. L. Wang, T. Wang, W. H. Hu, X. H. Yang, X. Lin *, Huge permittivity and premature metallicity in Bi2O2Se single crystals, Science China Physics, Mechanics & Astronomy 64, 1-8 (2021).

15. J. L. Wang, J. Wu, T. Wang, Z. K. Xu, J. F. Wu, W. H. Hu, Z. Ren, S. Liu, K. Behnia & X. Lin *, T-square resistivity without Umklapp scattering in dilute metallic Bi₂O₂Se, Nature Communications 11, 3846 (2020).

16. J. L. Wang, L. W. Yang, C. W. Rischau, Z. K. Xu, Z. Ren, T. Lorenz, J. Hemberger, X. Lin *, K. Behnia, Charge transport in a polar metal, npj Quantum Materials 4, 61 (2019).

17. C. Collignon, X. Lin, C. W. Rischau, B. Fauqué, K. Behnia, Metallicity and Superconductivity in Doped Strontium Titanate，Annual Review of Condensed Matter Physics 10, 25 (2019).

18. X. Lin, C. W. Rischau, L. Buchauer, A. Jaoui, B. Fauqué, and K. Behnia, Metallicity without quasi-particles in room-temperature strontium titanate, npj Quantum Materials 2, 41 (2017).

19. C. W. Rischau, X. Lin, C. P. Grams, D. Finck, S. Harms, J. Engelmayer, T. Lorenz, Y. Gallais, B. Fauqué, J. Hemberger and K. Behnia, A ferroelectric quantum phase transition inside the superconducting dome of Sr1–xCaxTiO3-δ, Nature Physics 13, 643–648 (2017).

20. Y. Machida, X. Lin, W. Kang, K. Izawa, and K. Behnia, Colossal Seebeck Coefficient of Hopping Electrons in (TMTSF)2 PF6, Phys. Rev. Lett. 116, 087003 (2016).

21. X. Lin, C. W. Rischau, C. J. van der Beek, B. Fauqué, and K. Behnia, s-wave superconductivity in optimally doped SrTi1−xNbxO3 unveiled by electron irradiation, Phys. Rev. B 92, 174504 (2015).

22. X. Lin, B. Fauqué, and K. Behnia, Scalable T2 resistivity in a small single-component Fermi surface, Science 349, 945 (2015).

23. Z. W. Zhu, X. Lin, K. Behnia et al., Quantum oscillations, thermoelectric coefficients and the Fermi surface of semi-metallic WTe2, Phys. Rev. Lett. 114, 176601 (2015).

24. X. Lin, A. Gourgout, et al., Multiple nodeless superconducting gaps in optimally-doped SrTi1-xNbxO3, Phys. Rev. B 90, 140508(R) (2014).

25. X. Lin, K. Behnia, et al., Critical Doping for the Onset of a Two-Band Superconducting Ground State in SrTiO3−δ, Phys. Rev. Lett. 112, 207002 (2014).

26. X. Lin, K. Behnia, et al., Fermi Surface of the Most Dilute Superconductor, Phys. Rev. X 3, 021002 (2013).