How would you approach the problem of plasma stability analysis in a non-axisymmetric experimental setup?

Sample interview questions: How would you approach the problem of plasma stability analysis in a non-axisymmetric experimental setup?

Sample answer:

  1. Understand the Physics of the Plasma: Start by gaining a thorough understanding of the fundamental physics governing the plasma behavior in the non-axisymmetric experimental setup. This includes studying the equilibrium profiles, stability limits, and relevant instabilities.

  2. Choose Appropriate Stability Analysis Tools: Select the appropriate stability analysis tools that are suitable for non-axisymmetric geometries. This may involve using analytical methods, numerical simulations, or a combination of both.

  3. Develop a Comprehensive Stability Model: Develop a comprehensive stability model that accurately represents the non-axisymmetric experimental setup. This model should include all relevant plasma parameters, boundary conditions, and external fields.

  4. Perform Linear Stability Analysis: Start by performing a linear stability analysis to identify the potential instabilities that can occur in the plasma. This involves studying the growth rates and mode structures of the instabilities.

  5. Nonlinear Stability Analysis: If the linear stability analysis indicates the presence of unstable modes, conduct a nonlinear stability analysis to determine the saturation amplitudes and evolution of the instabilities. This can be done using numerical simulations o… Read full answer

    Source: https://hireabo.com/job/5_0_9/Plasma%20Physicist

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