Publications of S. M. Shaaban

A list of publications authored or co-authored by S. M. Shaaban, 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: 0000-0003-0465-598X

List of publications ordered by citations
Number of papers: 45 (refereed: 43)
No. of citations: 770
First author papers: 21 (refereed: 21)

2026

  1. Regulation of temperature anisotropy for solar wind protons and alpha particles by collisions and instabilities [0]
    Yoon, Peter H., Salem, Chadi S., Lazar, Marian, Martinović, Mihailo M., Klein, Kristopher G., López, Rodrigo A., Shaaban, Shaaban M., Seough, Jungjoon, Huang, Jia, Sarfraz, Muhammad & Poedts, Stefaan, A&A, 705, A14

2025

  1. Extended Scenarios for Solar Radio Emissions With Downshifted Electron Beam Plasma Excitations [2]
    Lazar, M., López, R. A., Shaaban, S. M., Poedts, S. & Fichtner, H., Journal of Geophysical Research (Space Physics), 130, e2024JA033597
  2. Core-Halo Correlations of Solar Wind Electrons and Temperature Anisotropy Instabilities [1]
    Shaaban, S. M., Kennis, S., Lazar, M., Pierrard, V. & Poedts, S., Journal of Geophysical Research (Space Physics), 130, e2025JA033838
  3. Cumulative Proton Right-handed Instabilities in the Young Solar Wind Observed by PSP [1]
    Shaaban, Shaaban M., Lazar, M., Fichtner, H., López, R. A. & Poedts, S., ApJ, 993, 1

2024

  1. Numerical simulations of temperature anisotropy instabilities stimulated by suprathermal protons [2]
    Shaaban, S. M., López, R. A., Lazar, M. & Poedts, S., A&A, 691, A86
  2. Decoding the formation of hammerhead ion populations observed by Parker Solar Probe [5]
    Shaaban, Shaaban M., Lazar, M., López, R. A., Yoon, P. H. & Poedts, S., A&A, 692, L6
  3. Quasi-linear Analysis of Proton-cyclotron Instability [1]
    Yoon, Peter H., López, Rodrigo A., Seough, Jungjoon, Rashid, Muhammad, Salem, Chadi S., Sarfraz, Muhammad, Lazar, Marian & Shaaban, Shaaban M., ApJ, 976, 173
  4. Regulation of Solar Wind Electron Temperature Anisotropy by Collisions and Instabilities [5]
    Yoon, Peter H., Salem, Chadi S., Klein, Kristopher G., Martinović, Mihailo M., López, Rodrigo A., Seough, Jungjoon, Sarfraz, Muhammad, Lazar, Marian & Shaaban, Shaaban M., ApJ, 975, 105

2023

  1. Instability of Langmuir-beam waves: Kappa-distributed electrons [14]
    Lazar, M., López, R. A., Poedts, S. & Shaaban, S. M., Physics of Plasmas, 30, 082106
  2. The aperiodic firehose instability of counter-beaming electrons in space plasmas [5]
    Lazar, M., López, R. A., Moya, P. S., Poedts, S. & Shaaban, S. M., A&A, 670, A85

2022

  1. About the effects of solar wind suprathermal electrons on electrostatic waves [9]
    Lazar, M., Shaaban, S. M., López, R. A. & Poedts, S., Astrophysics and Space Science, 367, 104
  2. Mixing the Solar Wind Proton and Electron Scales. Theory and 2D-PIC Simulations of Firehose Instability [11]
    López, R. A., Micera, A., Lazar, M., Poedts, S., Lapenta, G., Zhukov, A. N., Boella, E. & Shaaban, S. M., ApJ, 930, 158
  3. Comparing the Counter-beaming and Temperature Anisotropy Driven Aperiodic Electron Firehose Instabilities in Collisionless Plasma Environments [3]
    Moya, Pablo S., López, Rodrigo A., Lazar, Marian, Poedts, Stefaan & Shaaban, Shaaban M., ApJ, 937, 49

2021

  1. Electromagnetic ion cyclotron instability stimulated by the suprathermal ions in space plasmas: A quasi-linear approach [16]
    Shaaban, S. M., Lazar, M. & Schlickeiser, R., Physics of Plasmas, 28, 022103
  2. On the interplay of solar wind proton and electron instabilities: linear and quasi-linear approaches [7]
    Shaaban, S. M., Lazar, M., López, R. A. & Wimmer-Schweingruber, R. F., MNRAS, 503, 3134
  3. A New Low-beta Regime for Unstable Proton Firehose Modes in Bi-kappa-distributed Plasmas [15]
    Shaaban, S. M., Lazar, M., Wimmer-Schweingruber, R. F. & Fichtner, H., ApJ, 918, 37
  4. Proton-Alpha Drift Instability of Electromagnetic Ion-Cyclotron Modes: Quasilinear Development [2]
    Shaaban, Shaaban M., Lazar, Marian, Yoon, Peter H., Poedts, Stefaan & López, Rodrigo A., Physics, 3, 1175

2020

  1. A firehose-like aperiodic instability of counter-beaming electron plasmas [3]
    López, R. A., Lazar, M., Shaaban, S. M., Poedts, S. & Moya, P. S., Plasma Physics and Controlled Fusion, 62, 075006
  2. Alternative High-plasma Beta Regimes of Electron Heat-flux Instabilities in the Solar Wind [47]
    López, R. A., Lazar, M., Shaaban, S. M., Poedts, S. & Moya, P. S., ApJ, 900, L25
  3. Particle-in-cell Simulations of the Parallel Proton Firehose Instability Influenced by the Electron Temperature Anisotropy in Solar Wind Conditions [17]
    Micera, A., Boella, E., Zhukov, A. N., Shaaban, S. M., López, R. A., Lazar, M. & Lapenta, G., ApJ, 893, 130
  4. Whistler instabilities from the interplay of electron anisotropies in space plasmas: a quasi-linear approach [16]
    Shaaban, S. M. & Lazar, M., MNRAS, 492, 3529
  5. Electromagnetic Ion-Ion Instabilities in Space Plasmas: Effects of Suprathermal Populations [17]
    Shaaban, S. M., Lazar, M., López, R. A. & Poedts, S., ApJ, 899, 20

2019

  1. Whistler instability stimulated by the suprathermal electrons present in space plasmas [28]
    Lazar, M., López, R. A., Shaaban, S. M., Poedts, S. & Fichtner, H., Astrophysics and Space Science, 364, 171
  2. Particle-in-cell Simulations of the Whistler Heat-flux Instability in Solar Wind Conditions [27]
    López, R. A., Shaaban, S. M., Lazar, M., Poedts, S., Yoon, P. H., Micera, A. & Lapenta, G., ApJ, 882, L8
  3. Particle-in-cell Simulations of Firehose Instability Driven by Bi-Kappa Electrons [41]
    López, R. A., Lazar, M., Shaaban, S. M., Poedts, S., Yoon, P. H., Viñas, A. F. & Moya, P. S., ApJ, 873, L20
  4. Quasi-linear approach of the whistler heat-flux instability in the solar wind [31]
    Shaaban, S. M., Lazar, M., Yoon, P. H., Poedts, S. & López, R. A., MNRAS, 486, 4498
  5. Firehose instabilities triggered by the solar wind suprathermal electrons [40]
    Shaaban, S. M., Lazar, M., López, R. A., Fichtner, H. & Poedts, S., MNRAS, 483, 5642
  6. The Interplay of the Solar Wind Core and Suprathermal Electrons: A Quasilinear Approach for Firehose Instability [23]
    Shaaban, S. M., Lazar, M., Yoon, P. H. & Poedts, S., ApJ, 871, 237
  7. Quasilinear approach of the cumulative whistler instability in fast solar wind: Constraints of electron temperature anisotropy [19]
    Shaaban, S. M., Lazar, M., Yoon, P. H. & Poedts, S., A&A, 627, A76

2018

  1. Temperature anisotropy instabilities stimulated by the interplay of the core and halo electrons in space plasmas [27]
    Lazar, M., Shaaban, S. M., Fichtner, H. & Poedts, S., Physics of Plasmas, 25, 022902
  2. Beaming electromagnetic (or heat-flux) instabilities from the interplay with the electron temperature anisotropies [37]
    Shaaban, S. M., Lazar, M., Yoon, P. H. & Poedts, S., Physics of Plasmas, 25, 082105
  3. Clarifying the solar wind heat flux instabilities [55]
    Shaaban, S. M., Lazar, M. & Poedts, S., MNRAS, 480, 310
  4. Stimulated Mirror Instability From the Interplay of Anisotropic Protons and Electrons, and their Suprathermal Populations [20]
    Shaaban, S. M., Lazar, M., Astfalk, P. & Poedts, S., Journal of Geophysical Research (Space Physics), 123, 1754

2017

  1. Instability constraints for the electron temperature anisotropy in the slow solar wind. Thermal core vs. suprathermal halo [1]
    Lazar, M., Shaaban, S. M., Pierrard, V., Fichtner, H. & Poedts, S., arXiv:1704.05311
  2. Firehose constraints of the bi-Kappa-distributed electrons: a zero-order approach for the suprathermal electrons in the solar wind [41]
    Lazar, M., Shaaban, S. M., Poedts, S. & Štverák, Š., MNRAS, 464, 564
  3. Dual Maxwellian-Kappa modeling of the solar wind electrons: new clues on the temperature of Kappa populations [72]
    Lazar, M., Pierrard, V., Shaaban, S. M., Fichtner, H. & Poedts, S., A&A, 602, A44
  4. Shaping the solar wind temperature anisotropy by the interplay of electron and proton instabilities [31]
    Shaaban, S. M., Lazar, M., Poedts, S. & Elhanbaly, A., Astrophysics and Space Science, 362, 13

2016

  1. Firehose constraints for the solar wind suprathermal electrons [0]
    Lazar, M., Shaaban, S. M., Poedts, S. & Štverák, Š., arXiv:1604.05628
  2. The interplay of the solar wind proton core and halo populations: EMIC instability [29]
    Shaaban, S. M., Lazar, M., Poedts, S. & Elhanbaly, A., Journal of Geophysical Research (Space Physics), 121, 6031
  3. Effects of suprathermal electrons on the proton temperature anisotropy in space plasmas: Electromagnetic ion-cyclotron instability [17]
    Shaaban, S. M., Lazar, M., Poedts, S. & Elhanbaly, A., Astrophysics and Space Science, 361, 193

2015

  1. Radiative transfer in finite volcanic eruption clouds [0]
    Degheidy, A. R., Madkour, M. A., Elgarayhi, A., Shaaban, S. M. & Sallah, M., Waves in Random and Complex Media, 25, 31
  2. Optical and radiative-transfer properties of mixed atmospheric aerosols [0]
    Degheidy, A. R., Sallah, M., Elgarayhi, A. & Shaaban, S. M., Advances in Space Research, 55, 1832
  3. Effects of Electrons on the Electromagnetic Ion Cyclotron Instability: Solar Wind Implications [28]
    Shaaban, S. M., Lazar, M., Poedts, S. & Elhanbaly, A., ApJ, 814, 34

2014

  1. Radiative transfer in finite participating atmospheric aerosol media [1]
    Degheidy, A. R., Elgarayhi, A., Sallah, M. & Shaaban, S. M., Waves in Random and Complex Media, 24, 55
  2. Radiation transfer through atmospheric aerosol media with anisotropic scattering [3]
    Degheidy, A. R., Sallah, M., Elgarayhi, A. & Shaaban, S. M., Astrophysics and Space Science, 349, 329

Created on Wed Apr 22 04:32:09 2026.