Jean Jeener | Academic Influence

Jean Jeener's AcademicInfluence.com Rankings

Jean Jeener

Physics

#4723

World Rank

#6441

Historical Rank

physics Degrees

Download Badge

Physics

Jean Jeener's Degrees

PhD Physics Université libre de Bruxelles
Masters Physics Université libre de Bruxelles

Why Is Jean Jeener Influential?

(Suggest an Edit or Addition)

According to Wikipedia, Jean Louis Charles Jeener was a Belgian physical chemist and physicist, well known for his experimental and theoretical contributions to spin thermodynamics in solids and for his invention of Two-dimensional nuclear magnetic resonance spectroscopy. He was born in Brussels in 1931, son of Raymond Jeener and Hélène Massar. He was married to Françoise Henin.

(See a Problem?)

Jean Jeener's Published Works

Number of citations in a given year to any of this author's works

Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author

Published Works

Investigation of exchange processes by two‐dimensional NMR spectroscopy (1979) (3759)
Nuclear Magnetic Resonance in Solids: Thermodynamic Effects of a Pair of rf Pulses (1967) (494)
INVESTIGATION OF EXCHANGE PROCESSES BY TWO-DIMENSIONAL NMR SPECTROSCOPY (1980) (277)
Superoperators in Magnetic Resonance (1982) (149)
Unified derivation of the dipolar field and relaxation terms in the Bloch-Redfield equations of liquid NMR (1995) (137)
Temperature-dependent crystal field and hyperfine interactions (1965) (130)
Radiation damping in high resolution liquid NMR: A simulation study (1995) (92)
Thermodynamics of spin systems in solids (1964) (89)
Suppression of Radiation Damping in NMR in Liquids by Active Electronic Feedback (1995) (80)
Equivalence between the “classical” and the “Warren” approaches for the effects of long range dipolar couplings in liquid nuclear magnetic resonance (2000) (79)
Dynamical Effects of the Dipolar Field Inhomogeneities in High-Resolution NMR: Spectral Clustering and Instabilities (1999) (72)
Macroscopic and Microscopic Fields in High-Resolution Liquid NMR (1996) (46)
"Zeeman" and "Dipolar" Spin Temperatures during a Strong rf Irradiation (1965) (37)
Dynamical instabilities in liquid nuclear magnetic resonance experiments with large nuclear magnetization, with and without pulsed field gradients (2002) (30)
NMR of protons in gypsum. I. Experimental proof of the existence of four thermodynamic invariants (1978) (27)
Observation and Selective Suppression of the Dipolar-Field Effects in 2D NMR in Liquids in Homogeneous Fields (1996) (23)
Macroscopic molecular diffusion in liquid NMR, revisited (2002) (23)
A presentation of pulsed nuclear magnetic resonance with full quantization of the radio frequency magnetic field (2002) (19)
Collective Effects in Liquid NMR: Dipolar Field and Radiation Damping (2003) (19)
"Pulse pair technique in high resolution NMR" a reprint of the historical 1971 lecture notes on two-dimensional spectroscopy. (2016) (19)
T1 relaxation time of water from a molecular dynamics simulation (1993) (17)
Measurement of the nuclear spin diffusion coefficient in CaF2 (1968) (15)
Simultaneous selective detection of multiple quantum spectra. (2002) (14)
Low Temperature Mixing Calorimeter for Liquids (1957) (13)
NMR of protons in gypsum. II. Independent observation of molecular reorientations and molecular diffusion (1978) (12)
Comment on “Diffusion measurements with the pulsed gradient nonlinear spin echo method” [J. Chem. Phys. 112, 5275 (2000)] (2002) (11)
NMR in solids: Thermodynamic effects of a pair of rf pulses on a system with two spin species (1977) (9)
The dipolar interaction under all angles (2001) (8)
Confinement effects on dipole-dipole interactions in nanofluids: the role of equilibrium fluctuations. (2011) (8)
Frequency Stabilization Scheme for the Pound-Watkins Rf Spectrometer (1961) (8)
On Thermal Diffusion in the Liquid Phase (1954) (6)
Spin thermodynamics in solids: Pulse techniques in pure nuclear-quadrupole-resonance spectroscopy of NaClO3 (1984) (6)
Spin Relaxation and Saturation in Solids by Quasiadiabatic Transformations (1990) (5)
Dipolar Field and Radiation Damping: Collective Effects in Liquid‐State NMR (2007) (4)
Moving bases as an alternative to 'interaction representations' (2004) (4)
Effects of Intermolecular Interactions and Intramolecular Dynamics on Nuclear Resonance (1987) (4)
Reply to comment on Multiple quantum coherences in liquid state NMR and nonlinear optics; collective vs. local origin (Chem. Phys. Lett. 357 (2002) 327) (2003) (3)
Isotopic effects and thermodynamic properties in condensed phases, 1 (1977) (2)
Software correction for phase sensitive detector misalignments in pulsed NMR (1975) (2)
Comment on “Observation of Barnett fields in solids by nuclear magnetic resonance” [Appl. Phys. Express 7, 063004 (2014)] (2020) (2)
Velocity of Sound in the Liquid Mixture CCl4–C(CH3)4 (1956) (2)
Star-unitary transformations as a tool in single-atom pulse spectroscopy (1987) (2)
Comment on “Electric Power Generation from Earth’s Rotation Through its own Magnetic Field” (2020) (2)
Intramolecular rearrangements studied by two‐dimensional nuclear magnetic resonance line shape analysis (1989) (2)
Application of Two-Dimensional Spectroscopy to Problems of Physical, Chemical and Biological Relevance (1979) (2)
Radiation damping in High Resolution NMR (1993) (1)
Jeener, Jean: Reminiscences about the Early Days of 2D NMR (2007) (1)
Depolarization and electric-field frequency shift of He 3 by magnetic-field inhomogeneities: Local theory for short mean free path and solution in He 4 (2015) (0)
More on the demons of thermodynamics (2023) (0)
Refutation of [Chyba and Hand, Phys. Rev. Applied 6, 014017 (2016)]: No Electric Power can be Generated from Earth's Rotation through its Own Magnetic Field (2017) (0)
Thermodynamics of Spin Systems in Solids. An Elementary Introduction (1976) (0)
Study of Physiological Motions in the Human Body using Echo-Planar Magnetic Resonance Imaging : From Brain Parenchyma Motion to Coronary Blood Flow. (1995) (0)
NMR in solids: spin-spin interactions and spin-lattice relaxation in lead (1970) (0)

This paper list is powered by the following services:

Other Resources About Jean Jeener

en.wikipedia.org

What Schools Are Affiliated With Jean Jeener?

Jean Jeener is affiliated with the following schools:

Université libre de Bruxelles

Image Attributions

Image Source for Jean Jeener