Crossref Citations
This article has been cited by the following publications. This list is generated based on data provided by
Crossref.
Liu, Yu
Cao, Jinxiang
Xu, Liang
Zhang, Xiao
Wang, Pi
Wang, Jian
Du, Yinchang
and
Zheng, Zhe
2014.
Laboratory investigation of the boundary layer processes of artificially created ionospheric depletion.
Journal of Geophysical Research: Space Physics,
Vol. 119,
Issue. 5,
p.
4134.
Barman, Arnab
and
Misra, A. P.
2014.
Landau damping effects on dust-acoustic solitary waves in a dusty negative-ion plasma.
Physics of Plasmas,
Vol. 21,
Issue. 7,
Misra, A. P.
and
Barman, Arnab
2015.
Landau damping of Gardner solitons in a dusty bi-ion plasma.
Physics of Plasmas,
Vol. 22,
Issue. 7,
Maity, Biplab
Ghosh, Samiran
and
Bharuthram, R
2015.
Nonlinear ion acoustic wave in a pair-ion plasma in a uniform weak magnetic field.
Physica Scripta,
Vol. 90,
Issue. 4,
p.
045604.
Zhang, Xiao
Cao, Jin-xiang
Liu, Yu
Yu, Peng-cheng
and
Zhang, Zhong-kai
2016.
Laboratory experiments in the argon plasma perturbed by injections of the electronegative gases.
AIP Advances,
Vol. 6,
Issue. 7,
Shan, Shaukat Ali
Saleem, H.
Shahzad, K.
and
Rehman, A.
2019.
Excitation of IAWs by ions shear flow and electron parallel current in positive-negative ion plasma.
Physics of Plasmas,
Vol. 26,
Issue. 11,
Oohara, W.
Fujii, M.
Watai, M.
Hiraoka, Y.
Egawa, M.
Morinaga, Y.
Takamori, S.
and
Yoshida, M.
2019.
Generation of hydrogen ionic plasma superimposed with positive ion beam.
AIP Advances,
Vol. 9,
Issue. 8,
Segwal, Kavita Rani
and
Sharma, Suresh C.
2019.
A Nonlocal Theory of Current-Driven Low-Frequency Modes in a Magnetized Strongly Coupled Collisional Dusty Plasma.
IEEE Transactions on Plasma Science,
Vol. 47,
Issue. 7,
p.
3087.
Oohara, W.
Kaji, T.
Hirose, K.
Fujii, M.
Watano, R.
Watai, M.
Hiraoka, Y.
and
Yoshida, M.
2020.
Role of deflection magnetic field in hydrogen ionic plasma formation.
AIP Advances,
Vol. 10,
Issue. 9,
Saleem, H.
and
Shan, S. Ali
2020.
Theoretical models for unstable IAWs and nonlinear structures in the upper ionosphere.
Reviews of Modern Plasma Physics,
Vol. 4,
Issue. 1,
Shan, Shaukat Ali
and
Haque, Q.
2020.
Solitary waves and double layers in an inhomogeneous electronegative plasma with heavier negative ions.
Physics of Plasmas,
Vol. 27,
Issue. 2,
Ghosh, Samiran
Maity, Biplab
and
Poria, Swarup
2020.
Chaos in positive ion–negative ion magnetized plasmas.
Journal of Plasma Physics,
Vol. 86,
Issue. 6,
Jana, Sayanee
and
Khan, Manoranjan
2021.
Nonlinear Alfvén wave dynamics in positive ion -negative ion plasmas.
Physica Scripta,
Vol. 96,
Issue. 12,
p.
125612.
Baruah, Swati
Prajapati, Vishal K.
and
Ganesh, R.
2021.
Lane dynamics in pair-ion plasmas: effect of obstacle and geometric aspect ratio.
Journal of Plasma Physics,
Vol. 87,
Issue. 6,
Saleem, H.
Urooj, Shanza
and
Shan, Shaukat Ali
2022.
Fundamental electrostatic modes of PI and NPI plasmas with and without electrons.
The European Physical Journal Plus,
Vol. 137,
Issue. 2,
Saleem, H.
Shan, Shaukat Ali
and
Poedts, S.
2023.
Reductive perturbation method in magnetized plasma and role of negative ions.
Physics of Plasmas,
Vol. 30,
Issue. 12,
Saleem, H.
and
Ali, Muddasir
2023.
Role of electron temperature at extremely low density in negative positive ion plasma.
AIP Advances,
Vol. 13,
Issue. 7,
Barman, Arnab
2024.
Landau damping effects on dust ion-acoustic solitary waves in a nonthermal pair-ion plasma.
Waves in Random and Complex Media,
p.
1.
Liu, Yu
Jin, Rong
Li, Minchi
Huang, Wenlong
Huang, Kexin
Jiang, Junnan
Yu, Pengcheng
and
Lei, Jiuhou
2024.
Existence of Electrostatic Ion Cyclotron Waves in a Laboratory Created E Region Ionospheric‐Like Plasma.
Geophysical Research Letters,
Vol. 51,
Issue. 10,