Your search keyword '"Liu, Canhua"' showing total 11 results

1. Quantum phase transition in magnetic nanographenes on a lead superconductor

Author

Liu, Yu, Li, Can, Xue, Fu-Hua, Wang, Ying, Huang, Haili, Yang, Hao, Chen, Jiayi, Guan, Dan-Dan, Li, Yao-Yi, Zheng, Hao, Liu, Canhua, Qin, Mingpu, Wang, Xiaoqun, Li, Deng-Yuan, Liu, Pei-Nian, Wang, Shiyong, and Jia, Jinfeng

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Superconductivity, Quantum Physics

Abstract

Quantum spins, referred to the spin operator preserved by full SU(2) symmetry in the absence of the magnetic anistropy, have been proposed to host exotic interactions with superconductivity4. However, spin orbit coupling and crystal field splitting normally cause a significant magnetic anisotropy for d/f-shell spins on surfaces6,9, breaking SU(2) symmetry and fabricating the spins with Ising properties10. Recently, magnetic nanographenes have been proven to host intrinsic quantum magnetism due to their negligible spin orbital coupling and crystal field splitting. Here, we fabricate three atomically precise nanographenes with the same magnetic ground state of spin S=1/2 on Pb(111) through engineering sublattice imbalance in graphene honeycomb lattice. Scanning tunneling spectroscopy reveals the coexistence of magnetic bound states and Kondo screening in such hybridized system. Through engineering the magnetic exchange strength between the unpaired spin in nanographenes and cooper pairs, quantum phase transition from the singlet to the doublet state has been observed, in consistent with quantum models of spins on superconductors. Our work demonstrates delocalized graphene magnetism host highly tunable magnetic bound states with cooper pairs, which can be further developed to study the Majorana bound states and other rich quantum physics of low-dimensional quantum spins on superconductors., Comment: 13 pages, 4figures

Published

2022

2. Braiding Majorana Zero Mode in An Electrically Controllable Way

Author

Ma, Hai-Yang, Guan, Dandan, Wang, Shiyong, Li, Yaoyi, Liu, Canhua, Zheng, Hao, and Jia, Jin-Feng

Subjects

Condensed Matter - Other Condensed Matter, Condensed Matter - Superconductivity

Abstract

To realize the braiding operations of Majorana zero mode in the vortex cores of a topological superconductor (TSC), a novel approach is proposed in this letter to replace the common tip (or tip-like) method. Instead of on top of the TSC thin film, arrays of electrically controllable pining centers are built beneath the film, hence detecting can proceed along with braiding. It does not only increase the braiding rate, but also enables the braiding to be performed in an electrically controllable way and to be integrated into large scale. Our work paves the way towards large-scale topological quantum computation., Comment: 5 pages, 2 figures

Published

2020

3. Discovery of segmented Fermi surface induced by Cooper pair momentum

Author

Zhu, Zhen, Papaj, Michał, Nie, Xiao-Ang, Xu, Hao-Ke, Gu, Yi-Sheng, Yang, Xu, Guan, Dandan, Wang, Shiyong, Li, Yaoyi, Liu, Canhua, Luo, Jianlin, Xu, Zhu-An, Zheng, Hao, Fu, Liang, and Jia, Jin-Feng

Subjects

Condensed Matter - Superconductivity

Abstract

Since the early days of Bardeen-Cooper-Schrieffer theory, it has been predicted that a sufficiently large supercurrent can close the energy gap in a superconductor and creates gapless Bogoliubov quasiparticles through the Doppler shift of quasiparticle energy due to the Cooper pair momentum. In this gapless superconducting state, zero-energy quasiparticles reside on a segment of the normal state Fermi surface, while its remaining part is still gapped. The finite density of states of field-induced quasiparticles, known as the Volovik effect, has been observed in tunneling and specific heat measurements on d- and s-wave superconductors. However, the segmented Fermi surface of a finite-momentum state carrying a supercurrent has never been detected directly. Here we use quasiparticle interference (QPI) technique to image field-controlled Fermi surface of Bi$_2$Te$_3$ thin films proximitized by the superconductor NbSe$_2$. By applying a small in-plane magnetic field, a screening supercurrent is induced which leads to finite-momentum pairing on topological surface states of Bi$_2$Te$_3$. Our measurements and analysis reveal the strong impact of finite Cooper pair momentum on the quasiparticle spectrum, and thus pave the way for STM study of pair density wave and FFLO states in unconventional superconductors., Comment: 25 pages, 14 figures

Published

2020

4. Anisotropic gapping of topological Weyl rings in the charge-density-wave superconductor InxTaSe2

Author

Li, Yupeng, Wu, Yi, Xu, Chenchao, Liu, Ningning, Ma, Jiang, Lv, Baijiang, Yao, Gang, Liu, Yan, Bai, Hua, Yang, Xiaohui, Qiao, Lei, Li, Miaocong, Li, Linjun, Xing, Hui, Huang, Yaobo, Ma, Junzhang, Shi, Ming, Cao, Chao, Liu, Yang, Liu, Canhua, Jia, Jinfeng, and Xu, Zhu-An

Subjects

Condensed Matter - Superconductivity

Abstract

Topological materials and topological phases have recently become a hot topic in condensed matter physics. In this work, we report a topological nodal-line semimetal InxTaSe2, in the presence of both charge density wave (CDW) and superconductivity. In the x = 0.58 samples, the 2 * /3 commensurate CDW (CCDW) and the 2 * 2 CCDW are observed below 116 K and 77 K, respectively. Consistent with theoretical calculations, the spin-orbital coupling gives rise to two two-fold-degenerate nodal rings (Weyl rings) connected by drumhead surface states, confirmed by angle-resolved photoemission spectroscopy. Our results suggest that the 2 * 2 CCDW ordering gaps out one Weyl ring in accordance with the CDW band folding, while the other Weyl ring remains gapless with intact surface states. In addition, superconductivity emerges at 0.91 K, with the upper critical field deviating from the s-wave behavior at low temperature, implying possibly unconventional superconductivity. Therefore, InxTaSe2 represents an interesting material system to study the interplay between CDW, nontrivial band topology and superconductivity.

Published

2020

5. Observation of Majorana fermions with spin selective Andreev reflection in the vortex of topological superconductor

Author

Sun, Hao-Hua, Zhang, Kai-Wen, Hu, Lun-Hui, Li, Chuang, Wang, Guan-Yong, Ma, Hai-Yang, Xu, Zhu-An, Gao, Chun-Lei, Guan, Dan-Dan, Li, Yao-Yi, Liu, Canhua, Qian, Dong, Zhou, Yi, Fu, Liang, Li, Shao-Chun, Zhang, Fu-Chun, and Jia, Jin-Feng

Subjects

Condensed Matter - Superconductivity

Abstract

Majorana fermion (MF) whose antiparticle is itself has been predicted in condensed matter systems. Signatures of the MFs have been reported as zero energy modes in various systems. More definitive evidences are highly desired to verify the existence of the MF. Very recently, theory has predicted MFs to induce spin selective Andreev reflection (SSAR), a novel magnetic property which can be used to detect the MFs. Here we report the first observation of the SSAR from MFs inside vortices in Bi2Te3/NbSe2 hetero-structure, in which topological superconductivity was previously established. By using spin-polarized scanning tunneling microscopy/spectroscopy (STM/STS), we show that the zero-bias peak of the tunneling differential conductance at the vortex center is substantially higher when the tip polarization and the external magnetic field are parallel than anti-parallel to each other. Such strong spin dependence of the tunneling is absent away from the vortex center, or in a conventional superconductor. The observed spin dependent tunneling effect is a direct evidence for the SSAR from MFs, fully consistent with theoretical analyses. Our work provides definitive evidences of MFs and will stimulate the MFs research on their novel physical properties, hence a step towards their statistics and application in quantum computing., Comment: 4 figures 15 pages

Published

2016

6. Electronic structure of a superconducting topological insulator Sr-doped Bi2Se3

Author

Han, C. Q., Li, H., Chen, W. J., Zhu, Fengfeng, Yao, Meng-Yu, Li, Z. J., Wang, M., Gao, Bo F., Guan, D. D., Liu, Canhua, Gao, C. L., Qian, Dong, and Jia, Jin-Feng

Subjects

Condensed Matter - Superconductivity

Abstract

Using high-resolution angle-resolved photoemission spectroscopy and scanning tunneling microscopy/spectroscopy, the atomic and low energy electronic structure of the Sr-doped superconducting topological insulators (SrxBi2Se3) was studied. Scanning tunneling microscopy shows that most of the Sr atoms are not in the van der Waals gap. After Sr doping, the Fermi level was found to move further upwards when compared with the parent compound Bi2Se3, which is consistent with the low carrier density in this system. The topological surface state was clearly observed, and the position of the Dirac point was determined in all doped samples. The surface state is well separated from the bulk conduction bands in the momentum space. The persistence of separated topological surface state combined with small Fermi energy makes this superconducting material a very promising candidate for the time reversal invariant topological superconductor

Published

2015

7. Superconductivity in single-layer films of FeSe with a transition temperature above 100 K

Author

Ge, Jian-Feng, Liu, Zhi-Long, Liu, Canhua, Gao, Chun-Lei, Qian, Dong, Xue, Qi-Kun, Liu, Ying, and Jia, Jin-Feng

Subjects

Condensed Matter - Superconductivity

Abstract

Recently, interface has been employed to enhance superconductivity in the single-layer FeSe films grown on SrTiO3(001)(STO) with a possible Tc of ~ 80 K, which is nearly ten times of the Tc of bulk FeSe and is above the Tc record of 56 K for the bulk Fe-based superconductors. This work together with those on superconducting oxides interfaces revives the long-standing idea that electron pairing at a two-dimensional (2D) interface between two different materials is a potential path to high transition temperature (Tc) superconductivity. Subsequent angle-resolved photoemission spectroscopy (ARPES) measurements revealed different electronic structure from those of bulk FeSe with a superconducting-like energy gap closing at around 65K. However, previous ex situ electrical transport measurements could only detect the zero-resistance below ~30 K. Here we report the observation of high Tc superconductivity in the FeSe/STO system. By in situ 4-point probe (4PP) electrical transport measurement that can be conducted at an arbitrary position of the FeSe film on STO, we detected superconductivity above 100 K. Our finding makes FeSe/STO the exciting and ideal research platform for higher Tc superconductivity., Comment: 10 pages, 3 figures, 7 pages supplementary materials

Published

2014

8. Fully Gapped s-wave-like Superconducting State and Electronic Structures in the Ir0.95Pd0.05Te2 Single Crystals with Strong Spin-orbital Coupling

Author

Yu, D. J., Yang, F., Miao, Lin, Han, C. Q., Yao, Meng-Yu, Zhu, Fengfeng, Song, Y. R., Zhang, K. F., Ge, J. F., Yao, X., Zou, Z. Q., Li, Z. J., Gao, B., Guan, D. D., Liu, Canhua, Gao, C. L., Qian, Dong, and Jia, Jin-feng

Subjects

Condensed Matter - Superconductivity

Abstract

Due to the large spin-orbital coupling in the layered 5d-transition metal chalcogenides compound, the occurrence of superconductivity in Ir2-xPdxTe2 offers a good chance to search for possible topological superconducting states in this system. We did comprehensive studies on the superconducting properties and electronic structures of single crystalline Ir0.95Pd0.05Te2 samples. The superconducting gap size, critical fields and coherence length along different directions were experimentally determined. Macroscopic bulk measurements and microscopic low temperature scanning tunneling spectroscopy results suggest that Ir0.95Pd0.05Te2 possesses a BCS-like s-wave state. No sign of zero bias conductance peak were found in the vortex core at 0.4K.

Published

2014

9. Majorana mode in vortex core of Bi2Te3/NbSe2 topological insulator-superconductor heterostructure

Author

Xu, Jin-Peng, Wang, Mei-Xiao, Liu, Zhi Long, Ge, Jian-Feng, Yang, Xiaojun, Liu, Canhua, Xu, Zhu An, Guan, Dandan, Gao, Chun Lei, Qian, Dong, Liu, Ying, Wang, Qiang-Hua, Zhang, Fu-Chun, Xue, Qi-Kun, and Jia, Jin-Feng

Subjects

Condensed Matter - Superconductivity, Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

Majorana fermions have been intensively studied in recent years for their importance to both fundamental science and potential applications in topological quantum computing1,2. Majorana fermions are predicted to exist in a vortex core of superconducting topological insulators3. However, they are extremely difficult to be distinguished experimentally from other quasiparticle states for the tiny energy difference between Majorana fermions and these states, which is beyond the energy resolution of most available techniques. Here, we overcome the problem by systematically investigating the spatial profile of the Majorana mode and the bound quasiparticle states within a vortex in Bi2Te3/NbSe2. While the zero bias peak in local conductance splits right off the vortex center in conventional superconductors, it splits off at a finite distance ~20nm away from the vortex center in Bi2Te3/NbSe2, primarily due to the Majorana fermion zero mode. While the Majorana mode is destroyed by reducing the distance between vortices, the zero bias peak splits as a conventional superconductor again. This work provides strong evidences of Majorana fermions and also suggests a possible route to manipulating them., Comment: 16 pages, 4 figures

Published

2013

10. Topological Superconductor Bi2Te3/NbSe2 heterostructures

Author

Xu, Jin-Peng, Liu, Canhua, Wang, Mei-Xiao, Ge, Jianfeng, Liu, Zhi-Long, Yang, Xiaojun, Chen, Yan, Liu, Ying, Xu, Zhu-An, Gao, Chun-Lei, Qian, Dong, Zhang, Fu-Chun, Xue, Qi-Kun, and Jia, Jin-Feng

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Superconductivity

Abstract

Topological superconductors (TSCs) have a full gap in the bulk and gapless surface states consisting of Majorana fermions, which have potential applications in fault-tolerant topological quantum computation. Because TSCs are very rare in nature, an alternative way to study the TSC is to artificially introduce superconductivity into the surface states of a topological insulator (TI) through proximity effect (PE)1-4. Here we report the first experimental realization of the PE induced TSC in Bi2Te3/NbSe2 thin films as demonstrated by the density of states probed using scanning tunneling microscope. We observe Abrikosov vortices and lower energy bound states on the surface of topological insulator and the dependence of superconducting coherence length on the film thickness and magnetic field, which are attributed to the superconductivity in the topological surface states. This work demonstrates the practical feasibility of fabricating a TSC with individual Majorana fermions inside superconducting vortex as predicted in theory and accomplishes the pre-requisite step towards searching for Majorana fermions in the PE induced TSCs., Comment: 15 pages, 4 figures

Published

2013

11. The Coexistence of Superconductivity and Topological Order in the Bi2Se3 Thin Films

Author

Wang, Mei-Xiao, Liu, Canhua, Xu, Jin-Peng, Yang, Fang, Miao, Lin, Yao, Meng-Yu, Gao, C. L., Shen, Chenyi, Ma, Xucun, Chen, X., Xu, Zhu-An, Liu, Ying, Zhang, Shou-Cheng, Qian, Dong, Jia, Jin-Feng, and Xue, Qi-Kun

Subjects

Condensed Matter - Superconductivity, Condensed Matter - Materials Science

Abstract

This paper has been withdrawn by the author due to journal requirement., Comment: This paper has been withdrawn by the author due to journal requirement

Published

2011