Your search keyword '"Pokharel, Ganesh"' showing total 21 results

1. Spin Berry curvature-enhanced orbital Zeeman effect in a kagome metal

Author

Li, Hong, Cheng, Siyu, Pokharel, Ganesh, Eck, Philipp, Bigi, Chiara, Mazzola, Federico, Sangiovanni, Giorgio, Wilson, Stephen D., Di Sante, Domenico, Wang, Ziqiang, and Zeljkovic, Ilija

Published

2024

2. Nanoscale visualization and spectral fingerprints of the charge order in ScV6Sn6 distinct from other kagome metals

Author

Cheng, Siyu, Ren, Zheng, Li, Hong, Oh, Ji Seop, Tan, Hengxin, Pokharel, Ganesh, DeStefano, Jonathan M., Rosenberg, Elliott, Guo, Yucheng, Zhang, Yichen, Yue, Ziqin, Lee, Yongbin, Gorovikov, Sergey, Zonno, Marta, Hashimoto, Makoto, Lu, Donghui, Ke, Liqin, Mazzola, Federico, Kono, Junichiro, Birgeneau, R. J., Chu, Jiun-Haw, Wilson, Stephen D., Wang, Ziqiang, Yan, Binghai, Yi, Ming, and Zeljkovic, Ilija

Published

2024

3. Flat band separation and robust spin Berry curvature in bilayer kagome metals

Author

Di Sante, Domenico, Bigi, Chiara, Eck, Philipp, Enzner, Stefan, Consiglio, Armando, Pokharel, Ganesh, Carrara, Pietro, Orgiani, Pasquale, Polewczyk, Vincent, Fujii, Jun, King, Phil D. C., Vobornik, Ivana, Rossi, Giorgio, Zeljkovic, Ilija, Wilson, Stephen D., Thomale, Ronny, Sangiovanni, Giorgio, Panaccione, Giancarlo, and Mazzola, Federico

Published

2023

4. Dynamics and resilience of the unconventional charge density wave in ScV6Sn6 bilayer kagome metal

Author

Tuniz, Manuel, Consiglio, Armando, Puntel, Denny, Bigi, Chiara, Enzner, Stefan, Pokharel, Ganesh, Orgiani, Pasquale, Bronsch, Wibke, Parmigiani, Fulvio, Polewczyk, Vincent, King, Phil D. C., Wells, Justin W., Zeljkovic, Ilija, Carrara, Pietro, Rossi, Giorgio, Fujii, Jun, Vobornik, Ivana, Wilson, Stephen D., Thomale, Ronny, Wehling, Tim, Sangiovanni, Giorgio, Panaccione, Giancarlo, Cilento, Federico, Di Sante, Domenico, and Mazzola, Federico

Published

2023

5. Incommensurate charge-stripe correlations in the kagome superconductor CsV3Sb5−xSnx

Author

Kautzsch, Linus, Oey, Yuzki M., Li, Hong, Ren, Zheng, Ortiz, Brenden R., Pokharel, Ganesh, Seshadri, Ram, Ruff, Jacob, Kongruengkit, Terawit, Harter, John W., Wang, Ziqiang, Zeljkovic, Ilija, and Wilson, Stephen D.

Published

2023

6. Author Correction: Flat band separation and robust spin Berry curvature in bilayer kagome metals

Author

Di Sante, Domenico, Bigi, Chiara, Eck, Philipp, Enzner, Stefan, Consiglio, Armando, Pokharel, Ganesh, Carrara, Pietro, Orgiani, Pasquale, Polewczyk, Vincent, Fujii, Jun, King, Phil D. C., Vobornik, Ivana, Rossi, Giorgio, Zeljkovic, Ilija, Wilson, Stephen D., Thomale, Ronny, Sangiovanni, Giorgio, Panaccione, Giancarlo, and Mazzola, Federico

Published

2023

7. Advances in high-pressure laser floating zone growth: The Laser Optical Kristallmacher II (LOKII).

Author

Gomez Alvarado, Steven J., Zoghlin, Eli, Jackson, Azzedin, Kautzsch, Linus, Plumb, Jayden, Aling, Michael, Capa Salinas, Andrea N., Pokharel, Ganesh, Pang, Yiming, Gomez, Reina M., Daly, Samantha, and Wilson, Stephen D.

Subjects

LASERS, CRYSTAL growth, HEATING control, SINGLE crystals, DIAMOND anvil cell, FURNACES

Abstract

The optical floating zone crystal growth technique is a well-established method for obtaining large, high-purity single crystals. While the floating zone method has been constantly evolving for over six decades, the development of high-pressure (up to 1000 bar) growth systems has only recently been realized via the combination of laser-based heating sources with an all-metal chamber. While our inaugural high-pressure laser floating zone furnace design demonstrated the successful growth of new volatile and metastable phases, the furnace design faces several limitations with imaging quality, heating profile control, and chamber cooling power. Here, we present a second-generation design of the high-pressure laser floating zone furnace, "Laser Optical Kristallmacher II" (LOKII), and demonstrate that this redesign facilitates new advances in crystal growth by highlighting several exemplar materials: α-Fe2O3, β-Ga2O3, and La2CuO4+δ. Notably, for La2CuO4+δ, we demonstrate the feasibility and long-term stability of traveling solvent floating zone growth under a record pressure of 700 bar. [ABSTRACT FROM AUTHOR]

Published

2024

8. Nanoscale visualization and spectral fingerprints of the charge order in ScV6Sn6 distinct from other kagome metals.

Author

Cheng, Siyu, Ren, Zheng, Li, Hong, Oh, Ji Seop, Tan, Hengxin, Pokharel, Ganesh, DeStefano, Jonathan M., Rosenberg, Elliott, Guo, Yucheng, Zhang, Yichen, Yue, Ziqin, Lee, Yongbin, Gorovikov, Sergey, Zonno, Marta, Hashimoto, Makoto, Lu, Donghui, Ke, Liqin, Mazzola, Federico, Kono, Junichiro, and Birgeneau, R. J.

Subjects

CHEMICAL fingerprinting, CHARGE density waves, SCANNING tunneling microscopy, PHOTOELECTRON spectroscopy, ELECTRONIC band structure, FERMI surfaces

Abstract

Charge density waves (CDWs) in kagome metals have been tied to many exotic phenomena. Here, using spectroscopic-imaging scanning tunneling microscopy and angle-resolved photoemission spectroscopy, we study the charge order in kagome metal ScV6Sn6. The similarity of electronic band structures of ScV6Sn6 and TbV6Sn6 (where charge ordering is absent) suggests that charge ordering in ScV6Sn6 is unlikely to be primarily driven by Fermi surface nesting of the Van Hove singularities. In contrast to the CDW state of cousin kagome metals, we find no evidence supporting rotation symmetry breaking. Differential conductance dI/dV spectra show a partial gap Δ1CO ≈ 20 meV at the Fermi level. Interestingly, dI/dV maps reveal that charge modulations exhibit an abrupt phase shift as a function of energy at energy much higher than Δ1CO, which we attribute to another spectral gap. Our experiments reveal a distinctive nature of the charge order in ScV6Sn6 with fundamental differences compared to other kagome metals. [ABSTRACT FROM AUTHOR]

Published

2024

9. Angular‐Momentum Transfer Mediated by a Vibronic‐Bound‐State.

Author

Pai, Yun‐Yi, Marvinney, Claire E., Pokharel, Ganesh, Xing, Jie, Li, Haoxiang, Li, Xun, Chilcote, Michael, Brahlek, Matthew, Lindsay, Lucas, Miao, Hu, Sefat, Athena S., Parker, David, Wilson, Stephen D., Gardner, Jason S., Liang, Liangbo, and Lawrie, Benjamin J.

Subjects

QUANTUM spin liquid, CRYSTALLINE electric field, BOUND states, RAMAN microscopy, ANGULAR momentum (Mechanics), RAMAN scattering

Abstract

The notion that phonons can carry pseudo‐angular momentum has many major consequences, including topologically protected phonon chirality, Berry curvature of phonon band structure, and the phonon Hall effect. When a phonon is resonantly coupled to an orbital state split by its crystal field environment, a so‐called vibronic bound state forms. Here, a vibronic bound state is observed in NaYbSe2, a quantum spin liquid candidate. In addition, field and polarization dependent Raman microscopy is used to probe an angular momentum transfer of ΔJz = ±ℏ between phonons and the crystalline electric field mediated by the vibronic bound stat. This angular momentum transfer between electronic and lattice subsystems provides new pathways for selective optical addressability of phononic angular momentum via electronic ancillary states. [ABSTRACT FROM AUTHOR]

Published

2024

10. Frustrated charge order and cooperative distortions in ScV6Sn6

Author

Pokharel, Ganesh, Ortiz, Brenden R., Kautzsch, Linus, Alvarado, S. J. Gomez, Mallayya, Krishnanand, Wu, Guang, Kim, Eun-Ah, Ruff, Jacob P. C., Sarker, Suchismita, and Wilson, Stephen D.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

Here we study the stability of charge order in the kagome metal ScV6Sn6. Synchrotron x-ray diffraction measurements reveal high-temperature, short-range charge correlations at the wave vectors along q=(1/3,1/3,1/2) whose inter-layer correlation lengths diverge upon cooling. At the charge order transition, this divergence is interrupted and long-range order freezes in along q=(1/3,1/3,1/3), as previously reported, while disorder enables the charge correlations to persist at the q=(1/3,1/3,1/2) wave vector down to the lowest temperatures measured. Both short-range and long-range charge correlations seemingly arise from the same instability and both are rapidly quenched upon the introduction of larger Y ions onto the Sc sites. Our results validate the theoretical prediction of the primary lattice instability at q=(1/3,1/3,1/2), and we present a heuristic picture for viewing the frustration of charge order in this compound.

Published

2023

11. Incommensurate Magnetic Order in the $\mathbb{Z}_2$ Kagome Metal GdV$_6$Sn$_6$

Author

Porter, Zach, Pokharel, Ganesh, Kim, Jong-Woo, Ryan, Phillip J., and Wilson, Stephen D.

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science, Strongly Correlated Electrons (cond-mat.str-el), Materials Science (cond-mat.mtrl-sci), FOS: Physical sciences

Abstract

We characterize the magnetic ground state of the topological kagome metal GdV$_6$Sn$_6$ via resonant X-ray diffraction. Previous magnetoentropic studies of GdV$_6$Sn$_6$ suggested the presence of a modulated magnetic order distinct from the ferromagnetism that is easily polarized by the application of a magnetic field. Diffraction data near the Gd-$L_2$ edge directly resolve a $c$-axis modulated spin structure order on the Gd sublattice with an incommensurate wave vector that evolves upon cooling toward a partial lock-in transition. While equal moment (spiral) and amplitude (sine) modulated spin states can not be unambiguously discerned from the scattering data, the overall phenomenology suggests an amplitude modulated state with moments predominantly oriented in the $ab$-plane. Comparisons to the ``double-flat" spiral state observed in Mn-based $R$Mn$_6$Sn$_6$ kagome compounds of the same structure type are discussed., 5 pages, 4 figures

Published

2023

12. Incommensurate charge-stripe correlations in the kagome superconductor CsV3Sb5−xSnx.

Author

Kautzsch, Linus, Oey, Yuzki M., Li, Hong, Ren, Zheng, Ortiz, Brenden R., Pokharel, Ganesh, Seshadri, Ram, Ruff, Jacob, Kongruengkit, Terawit, Harter, John W., Wang, Ziqiang, Zeljkovic, Ilija, and Wilson, Stephen D.

Subjects

SUPERCONDUCTORS, DENSITY of states, ROTATIONAL symmetry, SUPERCONDUCTING transition temperature, SYMMETRY breaking, PHASE diagrams, CUPRATES, CHARGE density waves

Abstract

The class of AV3Sb5 (A=K, Rb, Cs) kagome metals hosts unconventional charge density wave states seemingly intertwined with their low temperature superconducting phases. The nature of the coupling between these two states and the potential presence of nearby, competing charge instabilities however remain open questions. This phenomenology is strikingly highlighted by the formation of two 'domes' in the superconducting transition temperature upon hole-doping CsV3Sb5. Here we track the evolution of charge correlations upon the suppression of long-range charge density wave order in the first dome and into the second of the hole-doped kagome superconductor CsV3Sb5−xSnx. Initially, hole-doping drives interlayer charge correlations to become short-ranged with their periodicity diminished along the interlayer direction. Beyond the peak of the first superconducting dome, the parent charge density wave state vanishes and incommensurate, quasi-1D charge correlations are stabilized in its place. These competing, unidirectional charge correlations demonstrate an inherent electronic rotational symmetry breaking in CsV3Sb5, and reveal a complex landscape of charge correlations within its electronic phase diagram. Our data suggest an inherent 2kf charge instability and competing charge orders in the AV3Sb5 class of kagome superconductors. [ABSTRACT FROM AUTHOR]

Published

2023

13. Electrochemical Control of Magnetism on the Breathing Kagome Network of LixScMo3O8.

Author

Wyckoff, Kira E., Kautzsch, Linus, Kaufman, Jonas L., Ortiz, Brenden R., Kallistova, Anna, Pokharel, Ganesh, Liu, Jue, Taddei, Keith M., Wiaderek, Kamila M., Lapidus, Saul H., Wilson, Stephen D., Van der Ven, Anton, and Seshadri, Ram

Published

2023

14. Phonon Chirality Induced by Vibronic-Orbital Coupling

Author

Pai, Yun-Yi, Marvinney, Claire E., Liang, Liangbo, Pokharel, Ganesh, Xing, Jie, Li, Haoxiang, Li, Xun, Chilcote, Michael, Brahlek, Matthew, Lindsay, Lucas, Miao, Hu, Sefat, Athena S., Parker, David, Wilson, Stephen D., and Lawrie, Benjamin J.

Subjects

Condensed Matter - Other Condensed Matter, Condensed Matter::Materials Science, Quantum Physics, Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter::Superconductivity, Mesoscale and Nanoscale Physics (cond-mat.mes-hall), FOS: Physical sciences, Condensed Matter::Strongly Correlated Electrons, Quantum Physics (quant-ph), Condensed Matter::Mesoscopic Systems and Quantum Hall Effect, Other Condensed Matter (cond-mat.other)

Abstract

The notion that phonons can carry pseudo-angular momentum has become popular in the last decade, with recent research efforts highlighting phonon chirality, Berry curvature of phonon band structure, and the phonon Hall effect. When a phonon is resonantly coupled to a crystal electric field excitation, a so-called vibronic bound state forms. Here, we observe angular momentum transfer of $\delta$Jz = $\pm$1$\hbar$ between phonons and an orbital state in a vibronic bound state of a candidate quantum spin liquid. This observation has profound implications for the engineering of phonon band structure topology through chiral quasiparticle interactions., Comment: 29 pages, 10 figures

Published

2022

15. Cluster Frustration in the Breathing Pyrochlore Magnet LiGaCr4S8

Author

Pokharel, Ganesh, Arachchige, Hasitha Suriya, Williams, Travis J., May, Andrew F., Fishman, Randy S., Sala, Gabriele, Calder, Stuart, Ehlers, Georg, Parker, David S., Hong, Tao, Wildes, Andrew, Mandrus, David, Paddison, Joseph A. M., and Christianson, Andrew D.

Subjects

Condensed Matter - Strongly Correlated Electrons, Strongly Correlated Electrons (cond-mat.str-el), FOS: Physical sciences, Condensed Matter::Strongly Correlated Electrons

Abstract

We present a comprehensive neutron scattering study of the breathing pyrochlore magnet LiGaCr4S8. We observe an unconventional magnetic excitation spectrum with a separation of high and low-energy spin dynamics in the correlated paramagnetic regime above a spin-freezing transition at 12(2) K. By fitting to magnetic diffuse-scattering data, we parameterize the spin Hamiltonian. We find that interactions are ferromagnetic within the large and small tetrahedra of the breathing pyrochlore lattice, but antiferromagnetic further-neighbor interactions are also essential to explain our data, in qualitative agreement with density-functional theory predictions [Ghoshet al.,npj Quantum Mater.4, 63 (2019)]. We explain the origin of geometrical frustration in LiGaCr4S8 interms of net antiferromagnetic coupling between emergent tetrahedral spin clusters that occupy a face-centered lattice. Our results provide insight into the emergence of frustration in the presence of strong further-neighbor couplings, and a blueprint for the determination of magnetic interactions in classical spin liquids., Supplemental information available upon request

Published

2020

16. Magneto-elastic coupling in multiferroic metal-organic framework [(CH3)2NH2]Co(HCOO)3.

Author

Thirunavukkuarasu, Komalavalli, Richardson, Rachael, Lu, Zhengguang, Smirnov, Dmitry, Huang, Nan, Combs, Nicholas, Pokharel, Ganesh, and Mandrus, David

Subjects

MAGNETIC transitions, MAGNETIC anomalies, METAL-organic frameworks, MAGNETIC fields

Abstract

Metal-organic frameworks based on metal-formates have emerged as a intriguing class of multiferroics with wide range of applications. In this work, we present magneto-Raman spectroscopic investigations on [(CH3)2NH2]Co(HCOO)3 belonging to this family. The spectroscopic studies were performed at magnetic fields up to 31 T at the temperature of 2.3 K. It was observed that the formate bending mode at around 798 cm−1 shifts to higher energies with increasing magnetic field. The magneto-response of the phonon also exhibits anomalies at magnetic fields of 14.5 T and 23.5 T corresponding to magnetic phase transitions. Based on our results, we conclude that the formate bending mode does play a role in facilitating the saturation of magnetic states similar to its Mn and Ni analogs. [ABSTRACT FROM AUTHOR]

Published

2021

17. Cluster Frustration in the Breathing Pyrochlore Magnet LiGaCr4S8.

Author

Pokharel, Ganesh, Arachchige, Hasitha Suriya, Williams, Travis J., May, Andrew F., Fishman, Randy S., Sala, Gabriele, Calder, Stuart, Ehlers, Georg, Parker, David S., Tao Hong, Wildes, Andrew, Mandrus, David, Paddison, Joseph A. M., and Christianson, Andrew D.

Subjects

*PYROCHLORE, *FRUSTRATION, *EXCITATION spectrum, *MAGNETS, *NEUTRON scattering, *SPIN-orbit interactions

Abstract

We present a comprehensive neutron scattering study of the breathing pyrochlore magnet LiGaCr4S8. We observe an unconventional magnetic excitation spectrum with a separation of high- and low-energy spin dynamics in the correlated paramagnetic regime above a spin-freezing transition at 12(2) K. By fitting to magnetic diffuse-scattering data, we parametrize the spin Hamiltonian. We find that interactions are ferromagnetic within the large and small tetrahedra of the breathing pyrochlore lattice, but antiferromagnetic further-neighbor interactions are also essential to explain our data, in qualitative agreement with density-functional-theory predictions [Ghosh et al., npj Quantum Mater. 4, 63 (2019)]. We explain the origin of geometrical frustration in LiGaCr4S8 in terms of net antiferromagnetic coupling between emergent tetrahedral spin clusters that occupy a face-centered-cubic lattice. Our results provide insight into the emergence of frustration in the presence of strong further-neighbor couplings, and a blueprint for the determination of magnetic interactions in classical spin liquids. [ABSTRACT FROM AUTHOR]

Published

2020

18. Realizing Kagome Band Structure in Two-Dimensional Kagome Surface States of RV6Sn6 (R=Gd, Ho).

Author

Shuting Peng, Yulei Han, Pokharel, Ganesh, Jianchang Shen, Zeyu Li, Makoto Hashimoto, Donghui Lu, Ortiz, Brenden R., Yang Luo, Houchen Li, Mingyao Guo, Bingqian Wang, Shengtao Cui, Zhe Sun, Zhenhua Qiao, Wilson, Stephen D., and Junfeng He

Subjects

*SURFACE states, *HOLMIUM, *PHOTOEMISSION, *VANADIUM

Abstract

We report angle resolved photoemission experiments on a newly discovered family of kagome metals RV6Sn6 (R=Gd, Ho). Intrinsic bulk states and surface states of the vanadium kagome layer are differentiated from those of other atomic sublattices by the real-space resolution of the measurements with a small beam spot. Characteristic Dirac cone, saddle point, and flat bands of the kagome lattice are observed. Our results establish the two-dimensional (2D) kagome surface states as a new platform to investigate the intrinsic kagome physics. [ABSTRACT FROM AUTHOR]

Published

2021

19. Line-Graph Approach to Spiral Spin Liquids.

Author

Gao S, Pokharel G, May AF, Paddison JAM, Pasco C, Liu Y, Taddei KM, Calder S, Mandrus DG, Stone MB, and Christianson AD

Abstract

Competition among exchange interactions is able to induce novel spin correlations on a bipartite lattice without geometrical frustration. A prototype example is the spiral spin liquid, which is a correlated paramagnetic state characterized by subdimensional degenerate propagation vectors. Here, using spectral graph theory, we show that spiral spin liquids on a bipartite lattice can be approximated by a further-neighbor model on the corresponding line-graph lattice that is nonbipartite, thus broadening the space of candidate materials that may support the spiral spin liquid phases. As illustrations, we examine neutron scattering experiments performed on two spinel compounds, ZnCr_{2}Se_{4} and CuInCr_{4}Se_{8}, to demonstrate the feasibility of this new approach and expose its possible limitations in experimental realizations.

Published

2022

20. Realizing Kagome Band Structure in Two-Dimensional Kagome Surface States of RV_{6}Sn_{6} (R=Gd, Ho).

Author

Peng S, Han Y, Pokharel G, Shen J, Li Z, Hashimoto M, Lu D, Ortiz BR, Luo Y, Li H, Guo M, Wang B, Cui S, Sun Z, Qiao Z, Wilson SD, and He J

Abstract

We report angle resolved photoemission experiments on a newly discovered family of kagome metals RV_{6}Sn_{6} (R=Gd, Ho). Intrinsic bulk states and surface states of the vanadium kagome layer are differentiated from those of other atomic sublattices by the real-space resolution of the measurements with a small beam spot. Characteristic Dirac cone, saddle point, and flat bands of the kagome lattice are observed. Our results establish the two-dimensional (2D) kagome surface states as a new platform to investigate the intrinsic kagome physics.

Published

2021

21. Cluster Frustration in the Breathing Pyrochlore Magnet LiGaCr_{4}S_{8}.

Author

Pokharel G, Arachchige HS, Williams TJ, May AF, Fishman RS, Sala G, Calder S, Ehlers G, Parker DS, Hong T, Wildes A, Mandrus D, Paddison JAM, and Christianson AD

Abstract

We present a comprehensive neutron scattering study of the breathing pyrochlore magnet LiGaCr_{4}S_{8}. We observe an unconventional magnetic excitation spectrum with a separation of high- and low-energy spin dynamics in the correlated paramagnetic regime above a spin-freezing transition at 12(2) K. By fitting to magnetic diffuse-scattering data, we parametrize the spin Hamiltonian. We find that interactions are ferromagnetic within the large and small tetrahedra of the breathing pyrochlore lattice, but antiferromagnetic further-neighbor interactions are also essential to explain our data, in qualitative agreement with density-functional-theory predictions [Ghosh et al., npj Quantum Mater. 4, 63 (2019)2397-464810.1038/s41535-019-0202-z]. We explain the origin of geometrical frustration in LiGaCr_{4}S_{8} in terms of net antiferromagnetic coupling between emergent tetrahedral spin clusters that occupy a face-centered-cubic lattice. Our results provide insight into the emergence of frustration in the presence of strong further-neighbor couplings, and a blueprint for the determination of magnetic interactions in classical spin liquids.

Published

2020