Theoretical details for two stream instability

The two-stream instability is a fundamental concept in plasma physics that describes an instability arising from the interaction between two counter-propagating beams or streams of charged particles. Let's delve into the theoretical details of the two-stream instability.

ELI5: Imagine you have two groups of friends standing in a line facing each other. They start moving towards each other really fast. As they get closer, they start pushing each other because they are moving in opposite directions.

In a similar way, in a plasma (which is like a group of charged particles), there can be two streams of particles moving in opposite directions. When these streams get close to each other and are moving really fast, they start pushing and pulling each other because of their electric charges.

This pushing and pulling create waves in the plasma, just like ripples in water. These waves can grow and get bigger, causing the streams to become more unstable and wobbly.

Scientists study the two-stream instability by using equations that describe how the particles move and interact in the plasma. They can calculate the conditions under which this instability happens and how fast it grows.

This instability arises due to relative motion between ion and an electron. For the derivation of dispersion relation, we consider that the observer is in the frame of reference of ions and electron have a relative velocity vo with respect to ions (vei -> ve). Let us consider plasma is cold ie KTi = KTe =0 (i.e Ti = Te = 0) and magnetic field is absent i.e B=0. The motion is considered only along x axis. The equation of motion for ions can be written as

Similarly the equation of motion for electron is

Continuity equation for ions is

Similarly for electron,

The Poisson equation can be expressed as

Putting the values of ni1 and ne1 from equation 3 and 4, we get

Hence, this is the dispersion relation. This leads to the development of a linear dispersion relation that characterizes the growth rate and wave properties of the instability.

The dispersion relation depends on various factors, such as the density and velocities of the beams, the temperature of the plasma, and the wave vector of the perturbation. By solving the dispersion relation, we can determine the conditions under which the instability occurs and obtain insights into the growth rate and properties of the unstable waves.

The two-stream instability gives rise to the growth of electrostatic waves known as plasma waves or Langmuir waves. These waves can exchange energy with the beams, leading to the transfer of momentum and causing the beams to become modulated or experience oscillations.

If Im(w)>0

thus representing stable state.

If Im(w)<0,

Thus, field is exponentially damping . To analyse 5, let us define

By solving equation 5 for w, considering we can find 𝛼 as a complex quantity whose imaginary part is also imaginary part of w. The positive imaginary part gives the growth rate of instability which is the order of (m/M)^1/3.

The two-stream instability has important implications in various plasma systems, such as laboratory experiments and astrophysical scenarios. It can affect the behaviour of charged particle beams, particle accelerators, and even play a role in astrophysical phenomena like radio emissions from space plasmas.

Understanding the theoretical aspects of the two-stream instability helps scientists predict and control the behaviour of charged particle beams and provides insights into the fundamental physics of plasma waves and instabilities.

This note is a part of the Physics Repository.