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Stimulated emission-based model of fast radio bursts
Mustafa Doğan
,
Kazım Yavuz Ekşi
Department of Control and Automation Engineering
Department of Physics Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
2
Citations (Scopus)
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Keyphrases
Stimulated Emission
100%
Fast Radio Bursts
100%
Self-oscillation
40%
Cylinder Radius
40%
Weibel Instability
40%
Magnetic Field
20%
Analytical Solution
20%
Transverse Direction
20%
Neutron Stars
20%
Solitary Waves
20%
Nonlinear Saturation
20%
Nonlinear Evolution
20%
Electron Beam
20%
Millisecond Pulsars
20%
High Brightness
20%
Nonlinear Dispersion
20%
Brightness Temperature
20%
Trapped Particles
20%
Relativistic Particles
20%
Radial Electric Field
20%
Coherent Radio Emission
20%
Current Sheet
20%
Plasmoid Instability
20%
Two-stream Instability
20%
Narrow Cone
20%
Background Plasma
20%
Intense Pulsed Beam
20%
Coherent Emission
20%
Local Field
20%
Breathing Type
20%
Buneman Instability
20%
Ambient Plasma
20%
Klystron
20%
Radio Transients
20%
Electric Field (E-field)
20%
Self-focusing
20%
Local Electric Field
20%
Strong Focusing
20%
Caviton
20%
Diverse Environment
20%
Physics
Stimulated Emission
100%
Radio Burst
100%
Solitary Wave
80%
Electric Field
60%
Weibel Instability
40%
Blood Plasma
40%
Neutron Stars
20%
Millisecond Pulsars
20%
Trapped Particle
20%
Radio Emission
20%
Current Sheet
20%
Cavitons
20%
Soliton Types
20%
Klystron
20%
Magnetic Field
20%
Brightness Temperature
20%
Transients
20%
Electron Beam
20%