First-authored, refereed papers of N. Meyer-Vernet

A list of first-authored, refereed publications of N. Meyer-Vernet, derived from the SAO/NASA Astrophysics Data System (ADS). The number in brackets after each title indicates the number of citations that the paper has received.

Orcid ID: 0000-0001-6449-5274

List of publications ordered by citations
Number of papers: 50
No. of citations: 1745

2023

  1. Plasma line detected by Voyager 1 in the interstellar medium: Tips and traps for quasi-thermal noise spectroscopy [6]
    Meyer-Vernet, N., Lecacheux, A., Moncuquet, M., Issautier, K. & Kurth, W. S., A&A, 679, A146

2022

  1. Weak line discovered by Voyager 1 in the interstellar medium: Quasi-thermal noise produced by very few fast electrons [16]
    Meyer-Vernet, N., Lecacheux, A., Issautier, K. & Moncuquet, M., A&A, 658, L12

2017

  1. Quasi-thermal noise spectroscopy: The art and the practice [61]
    Meyer-Vernet, N., Issautier, K. & Moncuquet, M., Journal of Geophysical Research (Space Physics), 122, 7925
  2. Frequency range of dust detection in space with radio and plasma wave receivers: Theory and application to interplanetary nanodust impacts on Cassini [38]
    Meyer-Vernet, N., Moncuquet, M., Issautier, K. & Schippers, P., Journal of Geophysical Research (Space Physics), 122, 8

2016

  1. Maximum relative speeds of living organisms: Why do bacteria perform as fast as ostriches? [15]
    Meyer-Vernet, Nicole & Rospars, Jean-Pierre, Physical Biology, 13, 066006

2015

  1. The physics and detection of nanodust in the solar system [9]
    Meyer-Vernet, N., Mann, I., Le Chat, G., Schippers, P., Belheouane, S., Issautier, K., Lecacheux, A., Maksimovic, M., Pantellini, F. & Zaslavsky, A., Plasma Physics and Controlled Fusion, 57, 014015
  2. How fast do living organisms move: Maximum speeds from bacteria to elephants and whales [10]
    Meyer-Vernet, Nicole & Rospars, Jean-Pierre, American Journal of Physics, 83, 719

2014

  1. The importance of monopole antennas for dust observations: Why Wind/WAVES does not detect nanodust [40]
    Meyer-Vernet, N., Moncuquet, M., Issautier, K. & Lecacheux, A., Geophysical Research Letters, 41, 2716

2013

  1. On the charge of nanograins in cold environments and Enceladus dust [15]
    Meyer-Vernet, N., Icarus, 226, 583

2010

  1. Detection of fast nanoparticles in the solar wind [6]
    Meyer-Vernet, N., Czechowski, A., Mann, I., Maksimovic, M., Lecacheux, A., Goetz, K., Kaiser, M. L., Cyr, O. C. St., Bale, S. D. & Le Chat, G., Twelfth International Solar Wind Conference (Editors: Maksimovic, M., Issautier, K., Meyer-Vernet, N., Moncuquet, M. & Pantellini, F.), American Institute of Physics Conference Series, 1216, p. 502

2009

  1. Dust Detection by the Wave Instrument on STEREO: Nanoparticles Picked up by the Solar Wind? [141]
    Meyer-Vernet, N., Maksimovic, M., Czechowski, A., Mann, I., Zouganelis, I., Goetz, K., Kaiser, M. L., St. Cyr, O. C., Bougeret, J.-L. & Bale, S. D., Solar Physics, 256, 463
  2. Detecting nanoparticles at radio frequencies: Jovian dust stream impacts on Cassini/RPWS [57]
    Meyer-Vernet, N., Lecacheux, A., Kaiser, M. L. & Gurnett, D. A., Geophysical Research Letters, 36, L03103

2008

  1. Radio pulses from cosmic ray air showers. Boosted Coulomb and Čerenkov fields [15]
    Meyer-Vernet, N., Lecacheux, A. & Ardouin, D., A&A, 480, 15

2001

  1. Large scale structure of planetary environments: the importance of not being Maxwellian [34]
    Meyer-Vernet, Nicole, Planetary and Space Science, 49, 247

2000

  1. Plasma Thermal Noise: The Long Wavelength Radio Limit [13]
    Meyer-Vernet, Nicole, Hoang, Sang, Issautier, Karine, Moncuquet, Michel & Marcos, Gregory, Geophysical Monograph Series, 119, 67

1999

  1. How does the solar wind blow? A simple kinetic model [34]
    Meyer-Vernet, Nicole, European Journal of Physics, 20, 167

1998

  1. Electron temperature in the solar wind: Generic radial variation from kinetic collisionless models [58]
    Meyer-Vernet, Nicole & Issautier, Karine, Journal of Geophysical Research, 103, 29705
  2. Constraints on Saturn's G Ring from the Voyager 2 Radio Astronomy Instrument [10]
    Meyer-Vernet, Nicole, Lecacheux, Alain & Pedersen, Bent M., Icarus, 132, 311
  3. Measuring Plasma Parameters With Thermal Noise Spectroscopy [52]
    Meyer-Vernet, Nicole, Hoang, Sang, Issautier, Karine, Maksimovic, Milan, Manning, Robert, Moncuquet, Michel & Stone, Robert G., Geophysical Monograph Series, 103, 205

1996

  1. Constraints on Saturn's E Ring from the Voyager 1 Radio Astronomy Instrument [43]
    Meyer-Vernet, Nicole, Lecacheux, Alain & Pedersen, Bent M., Icarus, 123, 113

1995

  1. Temperature inversion in the Io plasma torus. [93]
    Meyer-Vernet, Nicole, Moncuquet, Michel & Hoang, Sang, Icarus, 116, 202

1994

  1. On the thermal noise “temperature” in an anisotropic plasma [20]
    Meyer-Vernet, Nicole, Geophysical Research Letters, 21, 397

1993

  1. Bernstein waves in the Io plasma torus: A novel kind of electron temperature sensor [57]
    Meyer-Vernet, Nicole, Hoang, Sang & Moncuquet, Michel, Journal of Geophysical Research, 98, 21163
  2. Aspects of Debye shielding [29]
    Meyer-Vernet, Nicole, American Journal of Physics, 61, 249

1992

  1. Comment on ``Electrostatic noise measurement with a pair of spherical probes near interplanetary shocks'' by Jacques Solomon and Frederic Touzin [1]
    Meyer-Vernet, Nicole, Journal of Geophysical Research, 97, 185

1989

  1. Tool kit for antennae and thermal noise near the plasma frequency [255]
    Meyer-Vernet, Nicole & Perche, Claude, Journal of Geophysical Research, 94, 2405
  2. Nonradiating sources: The subtle art of changing light into black [10]
    Meyer-Vernet, Nicole, American Journal of Physics, 57, 1084

1988

  1. Cometary plasma wave observations. [0]
    Meyer-Vernet, N., Computer Physics Communications, 49, 9

1987

  1. On the physics of resonant disk-satellite interaction [122]
    Meyer-Vernet, N. & Sicardy, B., Icarus, 69, 157
  2. Comet P/Giacobini-Zinner electron and H2O(+) column densities from ICE and ground-based observations [9]
    Meyer-Vernet, N., Steinberg, J. L., Strauss, Michael A., Spinrad, H. & McCarthy, Patrick J., The Astronomical Journal, 93, 474

1986

  1. Plasma Diagnosis from Thermal Noise and Limits on Dust Flux or Mass in Comet Giacobini-Zinner [84]
    Meyer-Vernet, N., Couturier, P., Hoang, S., Perche, C., Steinberg, J. L., Fainberg, J. & Meetre, C., Science, 232, 370
  2. Ion thermal noise in the solar wind : Interpretation of the ``Excess'' electric noise on ISEE 3 [37]
    Meyer-Vernet, N., Couturier, P., Hoang, S., Steinberg, J. L. & Zwickl, R. D., Journal of Geophysical Research, 91, 3294
  3. Voyager 2 at Uranus: Grain impacts in the ring plane [61]
    Meyer-Vernet, N., Aubier, M. G. & Pedersen, B. M., Geophysical Research Letters, 13, 617
  4. Physical parameters for hot and cold electron populations in comet Giacobini-Zinner with the ICE Radio Experiment [40]
    Meyer-Vernet, N., Couturier, P., Hoang, S., Perche, C. & Steinberg, J. L., Geophysical Research Letters, 13, 279
  5. Ghost's shadows and superluminal occultations [1]
    Meyer-Vernet, N., American Journal of Physics, 54, 916

1985

  1. Energy loss by slow magnetic monopoles in a thermal plasma [14]
    Meyer-Vernet, N., ApJ, 290, 21
  2. Comet Giacobini-Zinner diagnosis from radio measurements [30]
    Meyer-Vernet, N., Advances in Space Research, 5, 37

1984

  1. Some constraints on particles in Saturn's spokes [11]
    Meyer-Vernet, N., Icarus, 57, 422
  2. Surprises in classical physics: radiation problems in stable and linear plasmas [1]
    Meyer-Vernet, N., European Journal of Physics, 5, 150

1983

  1. Quasi-thermal noise corrections due to particle impacts or emission [19]
    Meyer-Vernet, N., Journal of Geophysical Research, 88, 8081

1982

  1. Electromagnetic waves in a plasma containing both electric charges and magnetic monopoles [4]
    Meyer-Vernet, N., American Journal of Physics, 50, 1042
  2. Electromagnetic waves in a plasma containing both electric charges and magnetic monopoles [6]
    Meyer-Vernet, N., American Journal of Physics, 50, 846
  3. Strange bound states in the Schrödinger wave equation: When usual tunneling does not occur [16]
    Meyer-Vernet, N., American Journal of Physics, 50, 354

1980

  1. High-frequency transverse Fresnel drag in a moving magneto-active plasma. [4]
    Meyer-Vernet, N., Astrophysics and Space Science, 73, 207

1979

  1. Comments on ‘A boundary value problem treatment of an electric dipole in a warm isotropic plasma using the multiple water bag model’ by N. Singh [1]
    Meyer-Vernet, N., Radio Science, 14, 1183
  2. On natural noises detected by antennas in plasmas [117]
    Meyer-Vernet, N., Journal of Geophysical Research, 84, 5373

1978

  1. Impedance of a short antenna in a warm magnetoplasma: Experiment and comparison with theory [8]
    Meyer-Vernet, N., Radio Science, 13, 1059
  2. Losses due to the inhomogeneous sheath surrounding an antenna in a plasma [11]
    Meyer-Vernet, N., Meyer, P. & Perche, C., Radio Science, 13, 69

1977

  1. Noncollisional losses in an inhomogeneous plasma [9]
    Meyer-Vernet, N., Meyer, P. & Perche, C., Physics of Fluids, 20, 536

1976

  1. Rocket spin effects on the current collected by a cylindrical probe in the ionosphere [2]
    Meyer-Vernet, N., Journal of Geophysical Research, 81, 450

Created on Wed Apr 22 04:29:52 2026.