betatron ppt

BETATRON

Betatron is a device for speeding up electron to extremely high energies with the help of expending magnetic field.

It was constructed in 1941 by D.W.Kerst.

K.W. Kerst with BETATRON

Betatron Differs from cyclotron

The electrons are accelerated by expending magnetic field.

The circular orbit has a constant radius.

Different Betatrons According to their Generations

Constant Radius of Betatron

ConstructionBetatron consists of highly evacuated angular tube D known as doughnut chamber.

The chamber is placed between the poles of an electromagnet excited by an alternating current (frequency of 60 or 180 Hz)

Electrons are produced by electron gun and are injected into doughnut at the beginning of each cycle of alternate current.

The increasing magnetic flux gives rise to a voltage gradient(electric field) round the doughnut which accelerates the orbiting electrons

PRINCIPLE The principle of the betatron is the same as that of a transformer in which an Alternating current applied to the primary coil induces an alternating current In the secondary. In betatron secondary coil is replaced by a doughnut shaped vaccum chamber. When the electron is injected in doughnut, the alternating magnetic field has two effects :

An electromotive force is produced in the electron orbit by changing magnetic flux that gives an additional energy to the electrons.

A radial force is produced by the reaction of magnetic field whose direction is perpendicular to the electron velocity which keeps the electrons moving in the circular part.

OPERATIONElectrons from the electron gun are injected into doughnut shaped vacuum chamber when the magnetic field is just rising from its zero value in the first quarter cycle.

The electrons now make several thousand revolution and gain energy.

When the magnetic field has reached its maximum value, the electrons are pulled out from their orbit.

Either they strike a target and produce X-rays or emerge from the apparatus through a window

BETATRON CONDITION Consider an electron is moving in a circular orbit of radius ’r’ in the magnetic field.Let at any instant, B be the magnetic field at this orbit and the total magnetic flux through the orbit is ΦB. The flux ΦB increases at the rate of d/dt (ΦB) and the induced e.m.f. In the orbit is given by

Induced e.m.f. = d /dt (ΦB) .....(i)

work done on the electron in one revolution = induced e.m.f. X Charge

= - d/dt (ΦB) x e

Thus work done must be equal to the tangential force F acting on the electron multiplied by the length of the orbit path i.e., work done = Force x Distance

= F x 2 π rTherefore, F x 2 π r = - d/dt (ΦB) x e

F =- e/ 2 π r x {d/dt (ΦB)} ....(ii)

The force F will increase the electron energy and which in turn would tend to increase the orbit of large radius. In order to maintain the radius of the orbit, The force experienced by the electron must be counteracted. Suppose the velocityOf the electron is v and its mass is m. When the electron moves in an orbit of Radius r under the action of field of magnetic induction B, the inward radial force B e v is to be equal to the upwards centrifugal force mv2/r .

Therefore, B e v = m v2 / r m v = B e r ....(iii)

According to Newton’s law, the force is defined at the rate of change of momentum (p=m v) i.e., F = d/dt (B e r)

= er dB/dt ....(iv)

To maintain the radius constant, the value of F given in equation (ii) andEquation (iv), should numerically, hence e/ 2 π r x {d/dt (ΦB)} = e r dB/dt d/dt (ΦB) = 2 π r2 dB/dt Integrating, we get

ΦB = 2 π r2 B

This is known as Betatron condition