D-Index & Metrics Best Publications
Hong Ding

Hong Ding

Chinese Academy of Sciences
China

D-Index & Metrics D-index (Discipline H-index) only includes papers and citation values for an examined discipline in contrast to General H-index which accounts for publications across all disciplines.

Discipline name D-index D-index (Discipline H-index) only includes papers and citation values for an examined discipline in contrast to General H-index which accounts for publications across all disciplines. Citations Publications World Ranking National Ranking
Physics D-index 89 Citations 32,814 447 World Ranking 1657 National Ranking 20

Overview

What is he best known for?

The fields of study he is best known for:

  • Quantum mechanics
  • Electron
  • Condensed matter physics

Hong Ding spends much of his time researching Condensed matter physics, Superconductivity, Fermi surface, Pseudogap and Fermi level. His work carried out in the field of Condensed matter physics brings together such families of science as Photoemission spectroscopy and Atomic physics. His study in Superconductivity is interdisciplinary in nature, drawing from both Isotropy, Electron and Doping.

His Fermi surface research is multidisciplinary, incorporating elements of Superlattice, Anisotropy, Electronic band structure and Pairing. His Pseudogap study incorporates themes from Fermi Gamma-ray Space Telescope and Fermi gas. His Fermi level study combines topics in areas such as Brillouin zone, Heterojunction, Position and momentum space and Quantum oscillations.

His most cited work include:

  • Experimental Discovery of Weyl Semimetal TaAs (1245 citations)
  • Spectroscopic evidence for a pseudogap in the normal state of underdoped high- T c superconductors (886 citations)
  • Spectroscopic evidence for a pseudogap in the normal state of underdoped high- T c superconductors (886 citations)

What are the main themes of his work throughout his whole career to date?

Hong Ding mainly focuses on Condensed matter physics, Superconductivity, Angle-resolved photoemission spectroscopy, Fermi surface and Photoemission spectroscopy. His work deals with themes such as Fermi level and Electron, which intersect with Condensed matter physics. His Superconductivity research is multidisciplinary, incorporating perspectives in Band gap, Atomic physics and Anisotropy.

The Angle-resolved photoemission spectroscopy study combines topics in areas such as Quasiparticle and High-temperature superconductivity. Hong Ding has researched Fermi surface in several fields, including Fermi Gamma-ray Space Telescope, Antiferromagnetism and Electronic band structure. Hong Ding interconnects Topological insulator, Brillouin zone, Position and momentum space and Topology in the investigation of issues within Photoemission spectroscopy.

He most often published in these fields:

  • Condensed matter physics (93.57%)
  • Superconductivity (63.90%)
  • Angle-resolved photoemission spectroscopy (39.00%)

What were the highlights of his more recent work (between 2018-2021)?

  • Condensed matter physics (93.57%)
  • Superconductivity (63.90%)
  • Angle-resolved photoemission spectroscopy (39.00%)

In recent papers he was focusing on the following fields of study:

Hong Ding focuses on Condensed matter physics, Superconductivity, Angle-resolved photoemission spectroscopy, Vortex and Photoemission spectroscopy. His Condensed matter physics study frequently links to other fields, such as Fermi level. His study looks at the relationship between Fermi level and topics such as Position and momentum space, which overlap with Space and Berry connection and curvature.

The study incorporates disciplines such as Bound state, Spectroscopy, Topological quantum computer and Scanning tunneling spectroscopy in addition to Superconductivity. His Angle-resolved photoemission spectroscopy study combines topics from a wide range of disciplines, such as Weyl semimetal, Phase, Heavy fermion and Dirac. His research investigates the connection between Scanning tunneling microscope and topics such as Density functional theory that intersect with issues in Semimetal and Fermi Gamma-ray Space Telescope.

Between 2018 and 2021, his most popular works were:

  • Observation of unconventional chiral fermions with long Fermi arcs in CoSi (133 citations)
  • Dirac Surface States in Intrinsic Magnetic Topological Insulators EuSn2As2 and MnBi2nTe3n+1 (110 citations)
  • New classes of chiral topological nodes with non-contractible surface Fermi arcs in CoSi (110 citations)

In his most recent research, the most cited papers focused on:

  • Quantum mechanics
  • Electron
  • Condensed matter physics

The scientist’s investigation covers issues in Condensed matter physics, Superconductivity, Topology, Angle-resolved photoemission spectroscopy and Topological insulator. The study of Condensed matter physics is intertwined with the study of Fermi level in a number of ways. He has included themes like Bound state, Wave vector and Electron in his Superconductivity study.

His Topology research also works with subjects such as

  • Single crystal which connect with Thin film, First principle, Molecular beam epitaxy and Pairing,
  • Semimetal most often made with reference to Density functional theory. His Angle-resolved photoemission spectroscopy research incorporates themes from Molecular physics, Weyl semimetal and Heavy fermion. His Electronic structure research is multidisciplinary, incorporating perspectives in Electronic correlation, Scattering, Plasmon, Doping and Fermi surface.

This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.

Best Publications

Experimental Discovery of Weyl Semimetal TaAs

Baiqing Lv;Hongming Weng;Binbin Fu;Xiaoping Wang;Xiaoping Wang.
Physical Review X (2015)

2394 Citations

Spectroscopic evidence for a pseudogap in the normal state of underdoped high- T c superconductors

H. Ding;H. Ding;T. Yokoya;J. C. Campuzano;J. C. Campuzano;T. Takahashi.
Nature (1996)

1838 Citations

Destruction of the Fermi surface in underdoped high- T c superconductors

M. R. Norman;H. Ding;H. Ding;M. Randeria;J. C. Campuzano;J. C. Campuzano.
Nature (1998)

1347 Citations

Observation of Fermi-surface–dependent nodeless superconducting gaps in Ba0.6K0.4Fe2As2

Hong Ding;Pierre Luc Richard;Kosuke Nakayama;Katsuaki Sugawara.
EPL (2008)

1298 Citations

Microscopic electronic inhomogeneity in the high-Tc superconductor Bi2Sr2CaCu2O8+x.

S. H. Pan;J. P. O'Neal;R. L. Badzey;C. Chamon.
Nature (2001)

1095 Citations

Observation of Weyl nodes in TaAs

B. Q. Lv;B. Q. Lv;N. Xu;N. Xu;H. M. Weng;J. Z. Ma;J. Z. Ma.
Nature Physics (2015)

971 Citations

Observation of Fermi-surface-dependent nodeless superconducting gaps in Ba0.6K0.4Fe2As2

H. Ding;P. Richard;K. Nakayama;T. Sugawara.
arXiv: Superconductivity (2008)

947 Citations

Destruction of the Fermi Surface in Underdoped High Tc Superconductors

M. R. Norman;H. Ding;M. Randeria;J. C. Campuzano.
arXiv: Superconductivity (1997)

932 Citations

Discovery of microscopic electronic inhomogeneity in the high-Tc superconductor Bi2Sr2CaCu2O8+x

S. H. Pan;J. P. ONeal;R. L. Badzey;C. Chamon.
arXiv: Superconductivity (2001)

887 Citations

Evidence for Majorana bound state in an iron-based superconductor

Dongfei Wang;Lingyuan Kong;Peng Fan;Hui Chen.
arXiv: Superconductivity (2017)

525 Citations

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Frequent Co-Authors

Takashi Takahashi

Takashi Takahashi

Tohoku University

Jiangping Hu

Jiangping Hu

University of Electronic Science and Technology of China

Mohit Randeria

Mohit Randeria

The Ohio State University

Xi Dai

Xi Dai

Hong Kong University of Science and Technology

Pengcheng Dai

Pengcheng Dai

Rice University

Hong-Jun Gao

Hong-Jun Gao

Chinese Academy of Sciences

Shixuan Du

Shixuan Du

Chinese Academy of Sciences

Xun Shi

Xun Shi

Chinese Academy of Sciences

Hai-Hu Wen

Hai-Hu Wen

Nanjing University

Zhong Fang

Zhong Fang

Chinese Academy of Sciences

External Links

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