Publications of Huseyin Cavus

A list of publications authored or co-authored by Huseyin Cavus, 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: 0000-0003-4224-7039

List of publications ordered by citations
Number of papers: 22 (refereed: 21)
No. of citations: 91
First author papers: 14 (refereed: 13)

2025

  1. Statistical examination of the correlations among active regions, flares, coronal mass ejections and interplanetary shocks [1]
    Cavus, Huseyin, Coban, Gani Caglar, Wang, Haimin, Raheem, Abd-ur, Wang, Jason T. L. & Asgari-Targhi, Mahboubeh, Advances in Space Research, 76, 3726

2024

  1. Prediction of the SYM-H Index Using a Bayesian Deep Learning Method With Uncertainty Quantification [3]
    Abduallah, Yasser, Alobaid, Khalid A., Wang, Jason T. L., Wang, Haimin, Jordanova, Vania K., Yurchyshyn, Vasyl, Cavus, Huseyin & Jing, Ju, Space Weather, 22, e2023SW003824

2023

  1. Estimating Coronal Mass Ejection Mass and Kinetic Energy by Fusion of Multiple Deep-learning Models [5]
    Alobaid, Khalid A., Abduallah, Yasser, Wang, Jason T. L., Wang, Haimin, Fan, Shen, Li, Jialiang, Cavus, Huseyin & Yurchyshyn, Vasyl, ApJ, 958, L34

2022

  1. Predicting CME arrival time through data integration and ensemble learning [16]
    Alobaid, Khalid A., Abduallah, Yasser, Wang, Jason T. L., Wang, Haimin, Jiang, Haodi, Xu, Yan, Yurchyshyn, Vasyl, Zhang, Hongyang, Cavus, Huseyin & Jing, Ju, Frontiers in Astronomy and Space Sciences, 9, 1013345

2021

  1. Can Solar Cycle 25 Be a New Dalton Minimum? [6]
    Coban, Gani Caglar, Raheem, Abd-ur, Cavus, Huseyin & Asghari-Targhi, Mahboubeh, Solar Physics, 296, 156
  2. An investigation of the causal relationship between sunspot groups and coronal mass ejections by determining source active regions [4]
    Raheem, Abd-ur, Cavus, Huseyin, Coban, Gani Caglar, Kinaci, Ahmet Cumhur, Wang, Haimin & Wang, Jason T. L., MNRAS, 506, 1916

2020

  1. Correlation between sunspots and interplanetary shocks measured by ACE during 1998-2014 and some estimations for the 22nd solar cycle and the years between 2015 and 2018 with artificial neural network using the Cavus 2013 model [5]
    Cavus, Huseyin, Araz, Gokhan, Coban, Gani Caglar, Raheem, Abd-ur & Karafistan, Aysel I., Advances in Space Research, 65, 1035

2019

  1. A viscous magnetohydrodynamic Kelvin–Helmholtz instability in the interface of two fluid layer: Part II. An application to the atmosphere of the Sun [2]
    Cavus, Huseyin & Hoshoudy, G. A., Astrophysics and Space Science, 364, 115
  2. A viscous magnetohydrodynamic Kelvin–Helmholtz instability in the interface of two fluid layers: Part I. Basic mechanism [3]
    Hoshoudy, G. A., Cavus, Huseyin & Mahdy, A., Astrophysics and Space Science, 364, 89

2018

  1. Kelvin–Helmholtz instability of two finite-thickness fluid layers with continuous density and velocity profiles [7]
    Hoshoudy, G. A. & Cavus, Huseyin, Journal of Astrophysics and Astronomy, 39, 39

2017

  1. Effect of Viscosity on Shock Waves Observed After Two Different Coronal Mass Ejection Activities CME20/11/2003 and CME11/04/2010 [2]
    Cavus, H. & Zeybek, G., Astrophysics, 60, 100

2016

  1. Treatment of Viscosity in the Shock Waves Observed After Two Consecutive Coronal Mass Ejection Activities CME08/03/2012 and CME15/03/2012 [2]
    Cavus, Huseyin, Earth Moon and Planets, 118, 91
  2. On the variations of some physical quantities above the sunspot bands near the equatorial plane [0]
    Çavuṣ, H. & İlbikçi, N., Astrophysical Bulletin, 71, 241

2015

  1. Effects of viscosity on the behavior of entropy change in the shock wave that occurred after the December 13, 2006 coronal mass ejection [4]
    Çavuş, H. & Kurt, A., Astrophysical Bulletin, 70, 220
  2. On the viscosity effects in the shock wave observed in the solar wind after the December 13, 2006 coronal mass ejection [5]
    Çavuş, H., Astrophysical Bulletin, 70, 117

2013

  1. Magnetic Kelvin-Helmholtz instability in the solar atmosphere [12]
    Cavus, Huseyin & Kazkapan, Derya, New Astronomy, 25, 89
  2. On the Effects of Viscosity on the Shock Waves for a Hydrodynamical Case—Part I: Basic Mechanism [8]
    Cavus, Huseyin, Advances in Astronomy, 2013, 582965

2010

  1. On the effect of magnetic field on the low- l solar p-mode oscillations [0]
    Cavus, H. & Karafistan, A. I., New Astronomy, 15, 569

2009

  1. A magnetohydrodynamic model applied to the lower convective region in the Sun including the radial components of magnetic field and flow [1]
    Cavus, Huseyin, New Astronomy, 14, 700
  2. Modelling the magnetic field and differential rotation effects for the vicinity of the base of convective zone in the Sun [2]
    Cavus, Huseyin, New Astronomy, 14, 349

2007

  1. A magnetohydrodynamic model applied to the lower convective region in the Sun [3]
    Cavus, H. & Karafistan, A. I., MNRAS, 380, 142

2006

  1. Nonlinear Magneto-Hydrodynamical Modeling Of Solar Envelope [0]
    Cavus, Huseyin & Karafistan, Aysel I., Recent Advances in Astronomy and Astrophysics (Editors: Solomos, Nikolaos), American Institute of Physics Conference Series, 848, p. 207

Created on Wed Apr 8 04:40:10 2026.