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Title
CERTIFICATE
DECLARATION
ACKNOWLEDGEMENT
CONTENTS
Preface
1. Introduction
1.1 Dusty plasmas
1.2 Characteristics and Properties of Dusty Plasmas
1.2.1 Charge of dust particles in a plasma
1.2.2 The motion of charged dust charged
Dynamics of charged grains in planetary magnetospheres
1.3 Waves and Instabilities in Dusty plasmas
1.4 Waves in Dusty plasmas.
1.4.1 Instabilities in a plasma plasma
Longitudinal and Transverse Instabilities
1.4.2 Instabilities in a Dusty plasma plasma
1.5 Review of work on instabilities in dusty plasmas
1.6 References
2. The influence of dust particles on electromagnetic ion cyclotron waves in a bi-Lorentzian plasma
2.1 Introduction
2.2 The general dispersion relation.
2.3 Low- β case
2.3.1 Dispersion relation
2.3.2 Discussion
2.4 High β case
2.4.1 Dispersion relation
2.4.2 Discussion
2.5 Results
2.6 Conclusions
2.7 References:
3. A dust influenced zero frequency instability in a bi Lorentzian
3.1 Introduction
3.2 Tile general dispersion relation
3.3 Purely growing mode in high β plasmas
3.3.1 Discussion
3.4 Extention to low β plasma
3.5 Results
3.6 Conclusions
3.7 References
4. Influence of dust on ion cyclotron waves in a two ion plasma
4.1 Introduction
4.2 The Dispersion relation
4.3 Low - β case
4.3.1 Dispersion relation
4.4 High β case
4.4.1 The Dispersion relation
4.5 Results
4.6 Conclusions
4.7 References
5. Convective instability of ion cyclotron waves in a dusty plasma
5.1 Introduction
5.2 The distribution function and dispersion function
5.3 Low-β plasmas
5.4 High -β plasmas
5.5 Results
5.6 Conclusions
5.7 References.
6. A temperature anisotropic instability in a two component bi-Lorentzian plasma
6.1 Introduction
6.2 The dispersion relation
6.3 High-β plasmas
6.3.1 Kappa distribution function
6.3.2 Anisotropic Maxwellian distribution
6.4 Low-β plasmas
6.5 Results
6.6 Conclusions
6.7 References