What is he best known for?
The fields of study he is best known for:
- Quantum mechanics
- Organic chemistry
- Molecule
His primary scientific interests are in Molecule, Atomic physics, Gas electron diffraction, Amplitude and Anharmonicity.
His studies deal with areas such as Molecular physics, Intramolecular force, Infrared and Nuclear magnetic resonance as well as Molecule.
Yonezo Morino studies Excited state which is a part of Atomic physics.
His Excited state study combines topics in areas such as Microwave and Inertia.
His research in Gas electron diffraction intersects with topics in Inorganic chemistry, Bond length, Vibrational spectra and Analytical chemistry.
His studies in Amplitude integrate themes in fields like Polyatomic ion, Electron diffraction, Diffraction and Vibronic spectroscopy.
His most cited work include:
- Average structures of butadiene, acrolein, and glyoxal determined by gas electron diffraction and spectroscopy (356 citations)
- Estimation of Anharmonic Potential Constants. I. Linear XY2 Molecules (266 citations)
- Calculation of inertia defect: Part I. General formulation (262 citations)
What are the main themes of his work throughout his whole career to date?
His scientific interests lie mostly in Molecule, Atomic physics, Microwave, Molecular physics and Excited state.
Yonezo Morino interconnects Vibration, Crystallography, Analytical chemistry, Computational chemistry and Gas electron diffraction in the investigation of issues within Molecule.
His work carried out in the field of Atomic physics brings together such families of science as Dipole, Amplitude, Spectral line, Anharmonicity and Coupling constant.
His study focuses on the intersection of Spectral line and fields such as Nuclear magnetic resonance with connections in the field of Resonance.
His work in Microwave covers topics such as Physical chemistry which are related to areas like Energy.
His Excited state study combines topics from a wide range of disciplines, such as Anomaly, Rotational spectroscopy, Hyperfine structure, Microwave spectra and Inertia.
He most often published in these fields:
- Molecule (33.52%)
- Atomic physics (29.67%)
- Microwave (18.68%)
What were the highlights of his more recent work (between 1969-1988)?
- Molecule (33.52%)
- Atomic physics (29.67%)
- Microwave (18.68%)
In recent papers he was focusing on the following fields of study:
Yonezo Morino mostly deals with Molecule, Atomic physics, Microwave, Excited state and Spectral line.
His work deals with themes such as Crystallography and Molecular physics, which intersect with Molecule.
His Atomic physics research is multidisciplinary, incorporating perspectives in Microwave cavity and Ammonia.
His Microwave research includes elements of Physical chemistry, Analytical chemistry, Absorption spectroscopy and Coupling constant.
His biological study spans a wide range of topics, including Anharmonicity, Hyperfine structure and Ozone.
Yonezo Morino has researched Spectral line in several fields, including Photochemistry and Nuclear magnetic resonance.
Between 1969 and 1988, his most popular works were:
- Coriolis interaction and anharmonic potential function of ozone from the microwave spectra in the excited vibrational states (207 citations)
- Band contour analysis of the ν1 and ν5 fundamentals of formaldehyde (113 citations)
- Molecular structures of phosphoryl fluoride, phosphoryl chloride, and thiophosphoryl chloride studied by gas electron diffraction (87 citations)
In his most recent research, the most cited papers focused on:
- Quantum mechanics
- Organic chemistry
- Molecule
The scientist’s investigation covers issues in Molecule, Atomic physics, Gas electron diffraction, Microwave and Molecular physics.
Yonezo Morino interconnects Amplitude, Nuclear magnetic resonance and Valence in the investigation of issues within Molecule.
Yonezo Morino has included themes like Vibration, Infrared and Carbon suboxide in his Atomic physics study.
His Gas electron diffraction study incorporates themes from Crystallography, Inorganic chemistry, Phosphoryl fluoride and Phosphoryl chloride.
His research in Microwave intersects with topics in Spectroscopy, Excited state, Hyperfine structure and Analytical chemistry.
His biological study spans a wide range of topics, including Anharmonicity, Anomaly, Ozone and Absorption spectroscopy.
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