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Wave nature of lightWave nature of light• Light is an
electromagnetic wave.
• EM waves are those waves in which there are sinusoidal variation of electric and magnetic fields at right angles to each other as well as to the direction of propagation of wave.
WAVE OPTICS
• WAVEFRONT
The locus of all the points where the waves from a given source reach at given instant of time.
Diffraction and
Interference
• Two phenomenon explaining wave nature of light.
• Diffraction and interference are similar phenomena.
• Interference is the effect of superposition of 2 coherent waves.
• Diffraction is the superposition of many coherent waves
Huygens’ principle
• Every point on the given wave front acts a fresh source of new disturbance called secondary wavelets which travel in all directions.
• The new wavefront at any instant will be the envelope of the secondary wavelets at that instant
Huygen’s Picture of a Plane wave
Huygen’s Explanation of Reflection
Huygen’s Explanation of Refraction
Young’s double slit experiment: classic wave effect
Young’s double slit experiment
Interference of light is the phenomenon of redistribution of light energy in a medium on account of superposition of light waves from two coherent sources
Formation of crests n troughs
Double slit experiment with particles (e.g. electrons)
Interference pattern with one slit blocked
Double slit experiment with particles (e.g. electrons)
Interference pattern observed on the screen
When both the slits are open
Diffraction
When light waves hit an obstacle it bends around the edges of the obstacle.
• This property of bending of light is called diffraction.
• For example, if light of red wavelength from a laser source hits a small hole, it bends around the edges of the hole and forms a pattern called an Airy disc pattern.
Single slit diffraction
• Diffraction occurs on account of mutual interference of secondary wavelets starting from the portions of wave front which are allowed to pass from the aperture.
The pattern spreads out due toDiffraction.
Wave pictureLight spreads out when passedthrough small aperture.
Position of minima:
a sin θ n= nλPosition of maxima
a sin θ n= (2n+1)λ/2
If unpolarized light is incident on1 polarizer, the intensity of thelight passing through is I= ½ I0.
Polarization
• Light scattered at90 degrees is 100% polarized.
Polarization &Scattering
A polarizer will transmit linear polarized waves in the samedirection independent of the incoming wave.
