Zeev Luz focuses on Deuterium, Crystallography, Analytical chemistry, Liquid crystal and Molecule. His Deuterium study combines topics in areas such as Spectroscopy, Nuclear magnetic resonance spectroscopy and Physical chemistry. Crystallography is frequently linked to Equilibrium constant in his study.
His Analytical chemistry study combines topics from a wide range of disciplines, such as Relaxation, Quadrupole, Spectral line, Mixing and Proton. The various areas that he examines in his Liquid crystal study include Deuterium NMR, Phase and Magnetic field. His studies in Molecule integrate themes in fields like Inorganic chemistry, Hydrogen and Solvent.
His primary areas of study are Crystallography, Liquid crystal, Deuterium NMR, Deuterium and Nuclear magnetic resonance. The study incorporates disciplines such as Mesophase, Mesogen, Molecule and Stereochemistry in addition to Crystallography. His Molecule study deals with Spectral line intersecting with Atmospheric temperature range, Hamiltonian and Ring flip.
His Liquid crystal research includes elements of Nuclear magnetic resonance spectroscopy, Organic chemistry, Phase and NMR spectra database. His research investigates the link between Deuterium NMR and topics such as Physical chemistry that cross with problems in Kinetics. Zeev Luz combines subjects such as Two-dimensional nuclear magnetic resonance spectroscopy, Quadrupole, Solvent and Analytical chemistry with his study of Deuterium.
Zeev Luz mainly focuses on Crystallography, Liquid crystal, Nuclear magnetic resonance spectroscopy, Analytical chemistry and Molecule. He focuses mostly in the field of Crystallography, narrowing it down to matters related to Deuterium NMR and, in some cases, Lyotropic liquid crystal, Crystal structure and Single crystal. His Mesophase study in the realm of Liquid crystal interacts with subjects such as Side chain.
His study looks at the relationship between Nuclear magnetic resonance spectroscopy and topics such as Liquid crystalline, which overlap with Fluorine-19 NMR, Atomic physics, Dynamic range and Millisecond. His biological study spans a wide range of topics, including MCM-41, Carbon-13, Electron paramagnetic resonance and Spin. In his work, Slow motion, Series and Moment is strongly intertwined with Spectral line, which is a subfield of Molecule.
His primary areas of study are Crystallography, Liquid crystal, Stereochemistry, NMR spectra database and Nuclear magnetic resonance spectroscopy. His Crystallography study frequently intersects with other fields, such as Methylene. He performs multidisciplinary study on Liquid crystal and Side chain in his works.
His Stereochemistry study integrates concerns from other disciplines, such as Ring and Kinetic energy. His NMR spectra database research focuses on Lyotropic and how it connects with Computational chemistry. In his study, which falls under the umbrella issue of Deuterium NMR, Analytical chemistry is strongly linked to Molecule.
M. Rubinstein;A. Baram;Z. Luz
P. Greenzaid;Z. Luz;David. Samuel
M.V Landau;S.P Varkey;M Herskowitz;O Regev
Zeev Luz;Saul Meiboom
Z. Luz;R. G. Shulman
Jingyan Zhang;Zeev Luz;Daniella Goldfarb
Philippe Lesot;Christie Aroulanda;Herbert Zimmermann;Zeev Luz
Malka. Gorodetsky;Zeev. Luz;Yehuda. Mazur
S. Meiboom;Z. Luz;D. Gill
Shan Hsi;Herbert Zimmermann;Zeev Luz
Daniella Goldfarb;Zeev Luz;Herbert Zimmermann
A. J. Vega;Z. Luz
R. Poupko;Z. Luz
V V Gerardy-Montouillout;C Malveau;P Tekely;Z Olender
Zeev. Luz;Alexander J. Vega
Alexander J. Vega;Zeev. Luz
Z. Luz;R. C. Hewitt;S. Meiboom
A. Baram;Z. Luz;S. Alexander
Detlef Reichert;Herbert Zimmermann;P. Tekely;Raphy Poupko
Z. Luz;R. Poupko;E. T. Samulski
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