ELECTRON EMISSION -

The libration of electrons from the surface of a substance is known as electron emission.

We know that there are a large number of free electrons in a metal that wander throughout the body of the metal. However, these electrons are not free to leave the surface of the metal. As they try to come out of the metal, the surface acquires a +ve charge and pulls the electrons back to the metal.

Minimum energy, equal to the work function ( $electron emission$ ), must be given to an electron so as to bring it out of the metal surface.

“The minimum energy, required by an electron to just escape from the metal surface is called the work function of the metal “. It is denoted by $electron emission$

The work function depends on the properties of the metal and the nature of the surface.

WORK FUNCTION OF SOME METAL

(These values are approximate as they are very sensitive to surface impurities)

Metal	Work function $\fn_jvn \Phi_0$ (eV)	Metal	Work function $\fn_jvn \Phi_0$ (eV)
Cs	2.14	Al	4.28
K	2.30	Hg	4.49
Na	2.75	Cu	4.65
Ca	3.20	Ag	4.70
Mo	4.17	Ni	5.15
Pb	4.25	Pt	5.65

The work function is generally measured in eV (electron volt). This unit of energy is commonly used in atomic and nuclear physics.

“One electron volt is the amount of energy when it is accelerated through a potential difference 1 Volt”

i.e $electron emission$

$electron emission$

The minimum energy required for the electron emission from the metal surface can be supplied to the free electron by any of the following processes:-

(1) Thermionic emission:-

By suitably heating (~ $electron emission$ ), sufficiently thermal energy can be imparted to the free electron to enable them to come out of the metal.

electron emission

(2) Field emission:-

By applying a very strong electric field ( $electron emission$ ) to a metal, the electrons can be pulled out of the metal as in a spark plug.

electron emission

(3) Photoelectric effect:-

When the light of suitable frequency falling upon the metal surface, electrons are emitted from the metal surface. These photon(light) generated electrons are called photoelectrons.

electron emission

IMPORTANT LINKS OF DUAL NATURE OF RADIATION AND MATTER
Introduction	Electron Emission
Photoelectric Effect	Experimental Study of Photoelectric Effect
Photoelectric Effect and Wave Theory of Light	Einstein’s Photoelectric Equation: Energy Quantum of Radiation
Particle Nature of Light: The Photon	Wave Nature of Matter
Davisson and Germer Experiment