Publications of Nahuel Andres

A list of publications authored or co-authored by Nahuel Andres, 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: 0000-0002-1272-2778

List of publications ordered by citations
Number of papers: 30 (refereed: 30)
No. of citations: 656
First author papers: 18 (refereed: 18)

2025

  1. The Energy Cascade Rate in Supersonic Magnetohydrodynamic Turbulence [0]
    Alvarez, Gonzalo Javier, Dmitruk, Pablo, Rabatin, Branislav, Collins, David C. & Andrés, Nahuel, ApJ, 991, 8
  2. Foreshock Ultralow Frequency Waves at Mars: Consequence on the Particle Acceleration Mechanisms at the Martian Bow Shock [1]
    Andrés, Nahuel, Romanelli, Norberto, Mazelle, Christian, Chen, Li-Jen, Gruesbeck, Jacob R. & Espley, Jared R., ApJ, 979, 77

2024

  1. The Incompressible Magnetohydrodynamic Energy Cascade Rate Upstream of Mars: Effects of the Total Energy and the Cross-helicity on Solar Wind Turbulence [3]
    Romanelli, Norberto, Andrés, Nahuel, DiBraccio, Gina A., Verniero, Jaye L., Gruesbeck, Jacob R., Szabo, Adam, Espley, Jared R. & Halekas, Jasper S., ApJ, 971, 10

2023

  1. Observation of Turbulent Magnetohydrodynamic Cascade in the Jovian Magnetosheath [4]
    Andrés, N., Bandyopadhyay, R., McComas, D. J., Szalay, J. R., Allegrini, F., Ebert, R. W., Gershman, D. J., Connerney, J. E. P. & Bolton, S. J., ApJ, 945, 8
  2. A statistical study of the compressible energy cascade rate in solar wind turbulence: Parker solar probe observations [13]
    Brodiano, M., Dmitruk, P. & Andrés, N., Physics of Plasmas, 30, 032903
  3. Energization of Charged Test Particles in Magnetohydrodynamic Fields: Waves versus Turbulence Picture [7]
    Pugliese, F., Brodiano, M., Andrés, N. & Dmitruk, P., ApJ, 959, 28

2022

  1. The incompressible energy cascade rate in anisotropic solar wind turbulence [24]
    Andrés, N., Sahraoui, F., Huang, S., Hadid, L. Z. & Galtier, S., A&A, 661, A116
  2. An In-depth Numerical Study of Exact Laws for Compressible Hall Magnetohydrodynamic Turbulence [13]
    Ferrand, R., Sahraoui, F., Galtier, S., Andrés, N., Mininni, P. & Dmitruk, P., ApJ, 927, 205
  3. Anisotropy of Magnetic Field Spectra at Kinetic Scales of Solar Wind Turbulence as Revealed by the Parker Solar Probe in the Inner Heliosphere [19]
    Huang, S. Y., Xu, S. B., Zhang, J., Sahraoui, F., Andrés, N., He, J. S., Yuan, Z. G., Deng, X. H., Jiang, K., Wei, Y. Y., Xiong, Q. Y., Wang, Z., Yu, L. & Lin, R. T., ApJ, 929, L6
  4. Variability of the Incompressible Energy Cascade Rate in Solar Wind Turbulence around Mars [8]
    Romanelli, Norberto, Andrés, Nahuel & DiBraccio, Gina A., ApJ, 929, 145

2021

  1. The Evolution of Compressible Solar Wind Turbulence in the Inner Heliosphere: PSP, THEMIS, and MAVEN Observations [34]
    Andrés, N., Sahraoui, F., Hadid, L. Z., Huang, S. Y., Romanelli, N., Galtier, S., DiBraccio, G. & Halekas, J., ApJ, 919, 19
  2. Spatiotemporal Analysis of Waves in Compressively Driven Magnetohydrodynamics Turbulence [11]
    Brodiano, M., Andrés, N. & Dmitruk, P., ApJ, 922, 240
  3. The Ion Transition Range of Solar Wind Turbulence in the Inner Heliosphere: Parker Solar Probe Observations [36]
    Huang, S. Y., Sahraoui, F., Andrés, N., Hadid, L. Z., Yuan, Z. G., He, J. S., Zhao, J. S., Galtier, S., Zhang, J., Deng, X. H., Jiang, K., Yu, L., Xu, S. B., Xiong, Q. Y., Wei, Y. Y., Dudok de Wit, T., Bale, S. D. & Kasper, J. C., ApJ, 909, L7

2020

  1. Solar Wind Turbulence Around Mars: Relation between the Energy Cascade Rate and the Proton Cyclotron Waves Activity [26]
    Andrés, Nahuel, Romanelli, Norberto, Hadid, Lina Z., Sahraoui, Fouad, DiBraccio, Gina & Halekas, Jasper, ApJ, 902, 134
  2. Scale-to-scale energy transfer rate in compressible two-fluid plasma turbulence [19]
    Banerjee, Supratik & Andrés, Nahuel, Physical Review E, 101, 043212
  3. Kinetic Scale Slow Solar Wind Turbulence in the Inner Heliosphere: Coexistence of Kinetic Alfvén Waves and Alfvén Ion Cyclotron Waves [45]
    Huang, S. Y., Zhang, J., Sahraoui, F., He, J. S., Yuan, Z. G., Andrés, N., Hadid, L. Z., Deng, X. H., Jiang, K., Yu, L., Xiong, Q. Y., Wei, Y. Y., Xu, S. B., Bale, S. D. & Kasper, J. C., ApJ, 897, L3

2019

  1. Energy Cascade Rate Measured in a Collisionless Space Plasma with MMS Data and Compressible Hall Magnetohydrodynamic Turbulence Theory [64]
    Andrés, N., Sahraoui, F., Galtier, S., Hadid, L. Z., Ferrand, R. & Huang, S. Y., Physical Review Letters, 123, 245101
  2. Statistics of incompressible hydrodynamic turbulence: An alternative approach [14]
    Andrés, Nahuel & Banerjee, Supratik, Physical Review Fluids, 4, 024603
  3. On Exact Laws in Incompressible Hall Magnetohydrodynamic Turbulence [40]
    Ferrand, R., Galtier, S., Sahraoui, F., Meyrand, R., Andrés, N. & Banerjee, S., ApJ, 881, 50

2018

  1. Exact law for homogeneous compressible Hall magnetohydrodynamics turbulence [48]
    Andrés, N., Galtier, S. & Sahraoui, F., Physical Review E, 97, 013204
  2. Energy cascade rate in isothermal compressible magnetohydrodynamic turbulence [35]
    Andrés, N., Sahraoui, F., Galtier, S., Hadid, L. Z., Dmitruk, P. & Mininni, P. D., Journal of Plasma Physics, 84, 905840404

2017

  1. Alternative derivation of exact law for compressible and isothermal magnetohydrodynamics turbulence [37]
    Andrés, N. & Sahraoui, F., Physical Review E, 96, 053205
  2. Interplay between Alfvén and magnetosonic waves in compressible magnetohydrodynamics turbulence [31]
    Andrés, N., Clark di Leoni, P., Mininni, P. D., Dmitruk, P., Sahraoui, F. & Matthaeus, W. H., Physics of Plasmas, 24, 102314

2016

  1. Exact scaling laws for helical three-dimensional two-fluid turbulent plasmas [17]
    Andrés, N., Galtier, S. & Sahraoui, F., Physical Review E, 94, 063206
  2. von Kármán-Howarth equation for three-dimensional two-fluid plasmas [21]
    Andrés, N., Mininni, P. D., Dmitruk, P. & Gómez, D. O., Physical Review E, 93, 063202
  3. Influence of the Hall effect and electron inertia in collisionless magnetic reconnection [12]
    Andrés, Nahuel, Dmitruk, Pablo & Gómez, Daniel, Physics of Plasmas, 23, 022903

2015

  1. The ULF wave foreshock boundary: Cluster observations [17]
    Andrés, Nahuel, Meziane, Karim, Mazelle, Christian, Bertucci, Cesar & Gómez, Daniel, Journal of Geophysical Research (Space Physics), 120, 4181

2014

  1. Two-fluid turbulence including electron inertia [18]
    Andrés, Nahuel, Gonzalez, Carlos, Martin, Luis, Dmitruk, Pablo & Gómez, Daniel, Physics of Plasmas, 21, 122305
  2. Effects of electron inertia in collisionless magnetic reconnection [20]
    Andrés, Nahuel, Martin, Luis, Dmitruk, Pablo & Gómez, Daniel, Physics of Plasmas, 21, 072904

2013

  1. Saturn's ULF wave foreshock boundary: Cassini observations [19]
    Andrés, N., Gómez, D. O., Bertucci, C., Mazelle, C. & Dougherty, M. K., Planetary and Space Science, 79, 64

Created on Thu Jan 22 04:30:10 2026.