Search

Your search keyword '"Lin, Tianyun"' showing total 19 results
Start Over Author "Lin, Tianyun"
19 results on '"Lin, Tianyun"'

1. Ultrafast Carrier Relaxation Dynamics in a Nodal-Line Semimetal PtSn$_4$

Author

Lin, Tianyun, Ju, Yongkang, Zhong, Haoyuan, Zeng, Xiangyu, Dong, Xue, Bao, Changhua, Zhang, Hongyun, Xia, Tian-Long, Tang, Peizhe, and Zhou, Shuyun

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Topological Dirac nodal-line semimetals host topologically nontrivial electronic structure with nodal-line crossings around the Fermi level, which could affect the photocarrier dynamics and lead to novel relaxation mechanisms. Herein, by using time- and angle-resolved photoemission spectroscopy, we reveal the previously-inaccessible linear dispersions of the bulk conduction bands above the Fermi level in a Dirac nodal-line semimetal PtSn$_4$, as well as the momentum and temporal evolution of the gapless nodal lines. A surprisingly ultrafast relaxation dynamics within a few hundred femtoseconds is revealed for photoexcited carriers in the nodal line. Theoretical calculations suggest that such ultrafast carrier relaxation is attributed to the multichannel scatterings among the complex metallic bands of PtSn$_4$ via electron-phonon coupling. In addition, a unique dynamic relaxation mechanism contributed by the highly anisotropic Dirac nodal-line electronic structure is also identified. Our work provides a comprehensive understanding of the ultrafast carrier dynamics in a Dirac nodal-line semimetal.

Published
2024
Full Text
View/download PDF

2. Hidden charge density wave induced shadow bands and ultrafast dynamics of CuTe investigated using time-resolved ARPES

Author

Zhong, Haoyuan, Bao, Changhua, Lin, Tianyun, Wang, Fei, Cai, Xuanxi, Yu, Pu, and Zhou, Shuyun

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Revealing the fine electronic structure is critical for understanding the underlying physics of low-dimensional materials. Angle-resolved photoemission spectroscopy (ARPES) is a powerful experimental technique for mapping out the experimental electronic structure. By reducing the photon energy (e.g. to 6 eV) using laser sources, a greatly improved momentum resolution can be achieved, thereby providing opportunities for ``zooming in'' the fine electronic structure and even revealing the previously unresolvable bands near the Brillouin zone center. Here, by using quasi-one-dimensional material CuTe as an example, we demonstrate the unique capability of laser-based ARPES in revealing the fine electronic structures of ``hidden'' charge density wave induced shadow bands near the Brillouin zone center, which are previously unresolvable using synchrotron sources. The observation of the shadow bands reveals the CDW phase from the aspect of band folding, and the unpredicted CDW band hybridization strongly modifies the electronic structure and Fermi surface, which suggests that such hybridization must be taken into account for studying the CDW transition. Moreover, the ultrafast non-equilibrium carrier dynamics are captured by time-resolved ARPES, revealing the relaxation dynamics through electron-phonon scattering. Our work demonstrates the advantages of laser-based ARPES in zooming in the fine electronic structures, as well as capturing the ultrafast dynamics of low-dimensional materials., Comment: 8 pages, 5 figures

Published
2024
Full Text
View/download PDF

3. Evolution of flat band and role of lattice relaxations in twisted bilayer graphene

Author

Li, Qian, Zhang, Hongyun, Wang, Yijie, Chen, Wanying, Bao, Changhua, Liu, Qinxin, Lin, Tianyun, Zhang, Shuai, Zhang, Haoxiong, Watanabe, Kenji, Taniguchi, Takashi, Avila, Jose, Dudin, Pavel, Li, Qunyang, Yu, Pu, Duan, Wenhui, Song, Zhida, and Zhou, Shuyun

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

Magic-angle twisted bilayer graphene (MATBG) exhibits correlated phenomena such as superconductivity and Mott insulating state related to the weakly dispersing flat band near the Fermi energy. Beyond its moir\'e period, such flat band is expected to be sensitive to lattice relaxations. Thus, clarifying the evolution of the electronic structure with twist angle is critical for understanding the physics of MATBG. Here, we combine nanospot angle-resolved photoemission spectroscopy and atomic force microscopy to resolve the fine electronic structure of the flat band and remote bands, and their evolution with twist angles from 1.07$^\circ$ to 2.60$^\circ$. Near the magic angle, dispersion is characterized by a flat band near the Fermi energy with a strongly reduced bandwidth. Moreover, near 1.07$^\circ$, we observe a spectral weight transfer between remote bands at higher binding energy and extract the modulated interlayer spacing near the magic angle. Our work provides direct spectroscopic information on flat band physics and highlights the role of lattice relaxations., Comment: 22 pages, 5 figures, Nature Materials, in press

Published
2024

5. Distinguishing and controlling Mottness in 1T-TaS$_2$ by ultrafast light

Author

Bao, Changhua, Zhong, Haoyuan, Wang, Fei, Lin, Tianyun, Zhang, Haoxiong, Sun, Zhiyuan, Duan, Wenhui, and Zhou, Shuyun

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science, Condensed Matter - Strongly Correlated Electrons
Abstract

Distinguishing and controlling the extent of Mottness is important for materials where the energy scales of the onsite Coulomb repulsion U and the bandwidth W are comparable. Here we report the ultrafast electronic dynamics of 1T-TaS$_2$ by ultrafast time- and angle-resolved photoemission spectroscopy. A comparison of the electron dynamics for the newly-discovered intermediate phase (I-phase) as well as the low-temperature commensurate charge density wave (C-CDW) phase shows distinctive dynamics. While the I-phase is characterized by an instantaneous response and nearly time-resolution-limited fast relaxation (~200 fs), the C-CDW phase shows a delayed response and a slower relaxation (a few ps). Such distinctive dynamics refect the different relaxation mechanisms and provide nonequilibrium signatures to distinguish the Mott insulating I-phase from the C-CDW band insulating phase. Moreover, a light-induced bandwidth reduction is observed in the C-CDW phase, pushing it toward the Mott insulating phase. Our work demonstrates the power of ultrafast light-matter interaction in both distinguishing and controlling the extent of Mottness on the ultrafast timescale.

Published
2023
Full Text
View/download PDF

6. Pseudospin-selective Floquet band engineering in black phosphorus

Author

Zhou, Shaohua, Bao, Changhua, Fan, Benshu, Zhou, Hui, Gao, Qixuan, Zhong, Haoyuan, Lin, Tianyun, Liu, Hang, Yu, Pu, Tang, Peizhe, Meng, Sheng, Duan, Wenhui, and Zhou, Shuyun

Subjects
Condensed Matter - Materials Science
Abstract

Time-periodic light field has emerged as a control knob for manipulating quantum states in solid-state materials, cold atoms and photonic systems via hybridization with photon-dressed Floquet states in the strong coupling limit, dubbed as Floquet engineering. Such interaction leads to tailored properties of quantum materials, for example, modifications of the topological properties of Dirac materials and modulation of the optical response. Despite extensive research interests over the past decade, there is no experimental evidence of momentum-resolved Floquet band engineering of semiconductors, which is a crucial step to extend Floquet engineering to a wide range of solid-state materials. Here, based on time- and angle-resolved photoemission spectroscopy measurements, we report experimental signatures of Floquet band engineering in a model semiconductor - black phosphorus. Upon near-resonance pumping at photon energy of 340 to 440 meV, a strong band renormalization is observed near the band edges. In particular, light-induced dynamical gap opening is resolved at the resonance points, which emerges simultaneously with the Floquet sidebands. Moreover, the band renormalization shows a strong selection rule favoring pump polarization along the armchair direction, suggesting pseudospin selectivity for the Floquet band engineering as enforced by the lattice symmetry. Our work demonstrates pseudospin-selective Floquet band engineering in black phosphorus, and provides important guiding principles for Floquet engineering of semiconductors.

Published
2023
Full Text
View/download PDF

7. A newly-designed femtosecond KBe$_2$BO$_3$F$_2$ device with pulse duration down to 55 fs for time- and angle-resolved photoemission spectroscopy

Author

Zhong, Haoyuan, Bao, Changhua, Lin, Tianyun, Zhou, Shaohua, and Zhou, Shuyun

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Developing a widely tunable vacuum ultraviolet (VUV) source with sub-100 femtoseconds (fs) pulse duration is critical for ultrafast pump-probe techniques such as time- and angle-resolved photoemission spectroscopy (TrARPES). While a tunable probe source with photon energy of 5.3 - 7.0 eV has been recently implemented for TrARPES by using a KBe$_2$BO$_3$F$_2$ (KBBF) device, the time resolution of 280 - 320 fs is still not ideal, which is mainly limited by the duration of the VUV probe pulse generated by the KBBF device. Here, by designing a new KBBF device which is specially optimized for fs applications, an optimum pulse duration of 55 fs is obtained after systematic diagnostics and optimization. More importantly, a high time resolution of 81 - 95 fs is achieved for TrARPES measurements covering the probe photon energy range of 5.3 - 7.0 eV, making it particularly useful for investigating the ultrafast dynamics of quantum materials. Our work extends the application of KBBF device to ultrafast pump-probe techniques with the advantages of both widely tunable VUV source and ultimate time resolution., Comment: 8 pages, 4 figures

Published
2023
Full Text
View/download PDF

8. Quasiparticle characteristics of the weakly ferromagnetic Hund's metal MnSi

Author

Fang, Yuan, Zhang, Huali, Wang, Ding, Yang, Guowei, Wu, Yi, Li, Peng, Xiao, Zhiguang, Lin, Tianyun, Zheng, Hao, Li, Xiao-Long, Wang, Huan-Hua, Rodolakis, Fanny, Song, Yu, Wang, Yilin, Cao, Chao, and Liu, Yang

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

Hund's metals are multi-orbital systems with $3d$ or $4d$ electrons exhibiting both itinerant character and local moments, and they feature Kondo-like screenings of local orbital and spin moments, with suppressed coherence temperature driven by Hund's coupling $J_H$. They often exhibit magnetic order at low temperature, but how the interaction between the Kondo-like screening and long-range magnetic order is manifested in the quasiparticle spectrum remains an open question. Here we present spectroscopic signature of such interaction in a Hund's metal candidate MnSi exhibiting weak ferromagnetism. Our photoemission measurements reveal renormalized quasiparticle bands near the Fermi level with strong momentum dependence: the ferromagnetism manifests through possibly exchange-split bands (Q1) below $T_C$ , while the spin/orbital screenings lead to gradual development of quasiparticles (Q2) upon cooling. Our results demonstrate how the characteristic spin/orbital coherence in a Hund's metal could coexist and compete with the magnetic order to form a weak itinerant ferromagnet, via quasiparticle bands that are well separated in momentum space and exhibit distinct temperature dependence. Our results imply that the competition between the spin/orbital screening and the magnetic order in a Hund's metal bears intriguing similarity to the Kondo lattice systems., Comment: accepted by PRB

Published
2022
Full Text
View/download PDF

11. Pseudospin-selective Floquet band engineering in black phosphorus

Author

Zhou, Shaohua, primary, Bao, Changhua, additional, Fan, Benshu, additional, Zhou, Hui, additional, Gao, Qixuan, additional, Zhong, Haoyuan, additional, Lin, Tianyun, additional, Liu, Hang, additional, Yu, Pu, additional, Tang, Peizhe, additional, Meng, Sheng, additional, Duan, Wenhui, additional, and Zhou, Shuyun, additional

Published
2023
Full Text
View/download PDF

13. Quasiparticle characteristics of the weakly ferromagnetic Hund metal MnSi

Author

Fang, Yuan, primary, Zhang, Huali, additional, Wang, Ding, additional, Yang, Guowei, additional, Wu, Yi, additional, Li, Peng, additional, Xiao, Zhiguang, additional, Lin, Tianyun, additional, Zheng, Hao, additional, Li, Xiao-Long, additional, Wang, Huan-Hua, additional, Rodolakis, Fanny, additional, Song, Yu, additional, Wang, Yilin, additional, Cao, Chao, additional, and Liu, Yang, additional

Published
2022
Full Text
View/download PDF

15. A newly designed femtosecond KBe2BO3F2 device with pulse duration down to 55 fs for time- and angle-resolved photoemission spectroscopy.

Author

Zhong, Haoyuan, Bao, Changhua, Lin, Tianyun, Zhou, Shaohua, and Zhou, Shuyun

Subjects
PHOTOELECTRON spectroscopy, PUMP probe spectroscopy, QUANTUM theory, TIME-resolved spectroscopy
Abstract

Developing a widely tunable vacuum ultraviolet (VUV) source with a sub-100 fs pulse duration is critical for ultrafast pump–probe techniques such as time- and angle-resolved photoemission spectroscopy (TrARPES). While a tunable probe source with a photon energy of 5.3–7.0 eV has been recently implemented for TrARPES by using a KBe2BO3F2 (KBBF) device, the time resolution of 280–320 fs is still not ideal, which is mainly limited by the duration of the VUV probe pulse generated by the KBBF device. Here, by designing a new KBBF device, which is specially optimized for fs applications, an optimum pulse duration of 55 fs is obtained after systematic diagnostics and optimization. More importantly, a high time resolution of 81–95 fs is achieved for TrARPES measurements covering the probe photon energy range of 5.3–7.0 eV, making it particularly useful for investigating the ultrafast dynamics of quantum materials. Our work extends the application of the KBBF device to ultrafast pump–probe techniques with the advantages of both a widely tunable VUV source and ultimate time resolution. [ABSTRACT FROM AUTHOR]

Published
2022
Full Text
View/download PDF

18. A newly designed femtosecond KBe 2 BO 3 F 2 device with pulse duration down to 55 fs for time- and angle-resolved photoemission spectroscopy.

Author

Zhong H, Bao C, Lin T, Zhou S, and Zhou S

Abstract

Developing a widely tunable vacuum ultraviolet (VUV) source with a sub-100 fs pulse duration is critical for ultrafast pump-probe techniques such as time- and angle-resolved photoemission spectroscopy (TrARPES). While a tunable probe source with a photon energy of 5.3-7.0 eV has been recently implemented for TrARPES by using a KBe 2 BO 3 F 2 (KBBF) device, the time resolution of 280-320 fs is still not ideal, which is mainly limited by the duration of the VUV probe pulse generated by the KBBF device. Here, by designing a new KBBF device, which is specially optimized for fs applications, an optimum pulse duration of 55 fs is obtained after systematic diagnostics and optimization. More importantly, a high time resolution of 81-95 fs is achieved for TrARPES measurements covering the probe photon energy range of 5.3-7.0 eV, making it particularly useful for investigating the ultrafast dynamics of quantum materials. Our work extends the application of the KBBF device to ultrafast pump-probe techniques with the advantages of both a widely tunable VUV source and ultimate time resolution.

Published
2022
Full Text
View/download PDF

19. [Intractable facial paralysis treated with different acupuncture and acupoint embedding therapies: a randomized controlled trial].

Author

Ding M, Feng H, Jin C, Xu L, and Lin T

Subjects
Adult, Catgut statistics & numerical data, Female, Humans, Male, Middle Aged, Young Adult, Acupuncture Points, Acupuncture Therapy, Facial Paralysis therapy
Abstract

Objective: To compare the clinical therapeutic effects on intractable facial paralysis among acupuncture, acupoint catgut embedding and PDS embedding., Methods: Two hundred and seventy-nine patients of intractable facial paralysis were randomized into an acupuncture group, a catgut embedding group and a PDS embedding group, 93 cases in each one. Cuanzhu (BL 2), Yuyao (EX-HN 4), Taiyang (EX-HN 5), Xuanlu (GB 5), Dicang (ST 4), Jiache (ST 6), Quanliao (SI 18), Qianzheng (Extra), Xiaguan (ST 7) and Fengchi (GB 20) on the affected side and bilateral Hegu (LI 4) and Zusanli (ST 36) were selected in the three groups. In the acupuncture group, acupuncture was applied to those acupoints, once every two days; 10 treatments made one session; the successive three sessions were required. In the catgut embedding group and the PDS embedding group, catgut and PDS were embedded separately, once every 10 days; 3 treatments made one session and the successive two sessions were required. The therapeutic cycle was 2 months in the three groups. The therapeutic results were analyzed statistically 2 months later. The scores of Sunnybrook facial nerve grading system and the facial nerve electroneurography (ENoG) were used for the efficacy assessment before and after treatment in the three groups., Results: After treatment, the score of Sunnybrook facial nerve grading system was improved apparently after treatment as compared with that before treatment in any of the three groups (all P < 0.05). The score in either of the embedding groups was better than that in the acupuncture group (both P < 0.05). The difference was not significant between the catgut embedding group and the PDS embedding group (P > 0.05). After treatment, ENoG wave ampli tude values in the frontal muscle and orbicularisoris muscle on the affected side were improved as compared with those before treatment in the three groups (all P < 0.05). Those in the catgut embedding group and the PDS embedding group were better than those in the acupuncture group (all P < 0.05), and had no significant difference as compared with those on the healthy side (P > 0.05). In the acupuncture group, ENoG wave amplitudes on the affected side were lower than those on the healthy side (both P < 0.05)., Conclusion: Acupuncture, catgut embedding and PDS embedding at acupoints all achieve the therapeutic effects on intractable facial paralysis. However, the acupoint embedding therapy presents more advantages on the recovery of facial nerve function. The efficacy is similar between the catgut embedding and the PDS embedding.

Published
2015

Catalog

Books, media, physical & digital resources
See catalog results