International Journal of Engineering Research

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Magnetic Moment Fields in Dense Relativistic Plasma Interacting with Laser Radiations


Affiliations
1 Department of Physics, Jadavpur University, Kolkata-700032, India
2 Department of Electronics, Vidyasagar College (Day), Kolkata, India
3 Department of Physics, Uluberia College, Howrah, West Bengal, India
 

Theory of the generation of magnetic moment field from resonant interaction of three high frequency electromagnetic waves in un-magnetized dense electron plasma is developed including the relativistic change of electron mass. It is shown that the inclusion of relativistic effect enhances the magnetic moment field. For high intensity laser beams this moment field may be of the order of a few mega gauss. Such a high magnetic field can considerably affect the transport of electrons in fusion plasma.

Keywords

Inverse Faraday Effect, Resonant Excitation, Relativistic Effect.
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  • Magnetic Moment Fields in Dense Relativistic Plasma Interacting with Laser Radiations

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Authors

B. Ghosh
Department of Physics, Jadavpur University, Kolkata-700032, India
S. N. Paul
Department of Physics, Jadavpur University, Kolkata-700032, India
S. Bannerjee
Department of Electronics, Vidyasagar College (Day), Kolkata, India
C. Das
Department of Physics, Uluberia College, Howrah, West Bengal, India

Abstract


Theory of the generation of magnetic moment field from resonant interaction of three high frequency electromagnetic waves in un-magnetized dense electron plasma is developed including the relativistic change of electron mass. It is shown that the inclusion of relativistic effect enhances the magnetic moment field. For high intensity laser beams this moment field may be of the order of a few mega gauss. Such a high magnetic field can considerably affect the transport of electrons in fusion plasma.

Keywords


Inverse Faraday Effect, Resonant Excitation, Relativistic Effect.