Heinrich is a world-leading researcher in the field of quantum measurements on the atomic-scale in solids. He pioneered spin excitation and single-atom spin resonance spectroscopy with scanning tunneling microscopes – methods that have provided high-resolution access to the quantum states of atoms and nanostructures on surfaces. He has a track record of outstanding publications and invited talks and has established a strong network of global collaborations. As a consequence, Heinrich’s work has received extensive media coverage worldwide. Heinrich spent 18 years in IBM Research, which uniquely positioned him to bridge the needs of industrial research and the academic world. This unique environment gave Heinrich extensive experience in presenting to corporate and political leaders, including the president of Israel and the IBM Board of Directors. Heinrich became a distinguished professor of Ewha Womans University in August 2016 and started the Center for Quantum Nanoscience (QNS) of the Institute for Basic Science (IBS) in January 2017. Under his leadership, QNS focuses on exploring the quantum properties of atoms and molecules on clean surfaces and interfaces with a long-term goal of quantum sensing and quantum computation in such systems.
Defect Identification of Nitrogen-Doped Graphene on Pt (111) Using Atomic Force Microscopy and Scanning Tunneling MicroscopyJournal of Physical Chemistry C, 2023, v.127 no.42, 20742-20748
Influence of the Magnetic Tip on Heterodimers in Electron Spin Resonance Combined with Scanning Tunneling MicroscopyACS NANO, 2023, v.17 no.17, 16935-16942
Development of a scanning tunneling microscope for variable temperature electron spin resonanceReview of Scientific Instruments, 2022, v.93 no.9, 93703
Electron spin resonance of single iron phthalocyanine molecules and role of their non-localized spins in magnetic interactionsNATURE CHEMISTRY, 2022, v.14 no.1, 59-
[학술지논문] Electron spin resonance of single iron phthalocyanine molecules and role of their non-localized spins in magnetic interactions
NATURE CHEMISTRY, 2022, v.14
no.1
, 59-59
SCI
[학술지논문] A perspective on surface-adsorbed single atom magnets as atomic-scale magnetic memory
APPLIED PHYSICS LETTERS, 2021, v.119
no.16
, 160503-160503
SCI
[학술지논문] Atomic manipulation of in-gap states in the beta-Bi2Pd superconductor
PHYSICAL REVIEW B, 2021, v.104
no.4
, 045406-045406
SCI
[학술지논문] Atomic-scale intermolecular interaction of hydrogen with a single VOPc molecule on the Au(111) surface
RSC ADVANCES, 2021, v.11
no.11
, 6240-6245
SCIE
[학술지논문] Engineering atomic-scale magnetic fields by dysprosium single atom magnets
NATURE COMMUNICATIONS, 2021, v.12
no.1
, 4179-4179
SCI
[학술지논문] Mapping Orbital-Resolved Magnetism in Single Lanthanide Atoms
ACS NANO, 2021, v.15
no.10
, 16162-16171
[학술지논문] Spin-Selective Hole-Exciton Coupling in a V-Doped WSe2 Ferromagnetic Semiconductor at Room Temperature
ACS NANO, 2021, v.15
no.12
, 20267-20277
SCI
[학술지논문] Coherent spin manipulation of individual atoms on a surface
SCIENCE, 2019, v.366
no.6464
, 509-512
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[학술지논문] Colloquium: Atomic spin chains on surfaces
REVIEWS OF MODERN PHYSICS, 2019, v.91
no.4
, 041001-1-041001-24
SCI
[학술지논문] Magnetic resonance imaging of single atoms on a surface
NATURE PHYSICS, 2019, v.15
no.10
, 1005-1010
SCI
[학술지논문] Tuning Single-Atom Electron Spin Resonance in a Vector Magnetic Field
NANO LETTERS, 2019, v.19
no.11
, 8201-8206
SCI
[학술지논문] Tuning the Exchange Bias on a Single Atom from 1 mT to 10 T
PHYSICAL REVIEW LETTERS, 2019, v.122
no.22
, 227203-1-227203-6