Class 12PhysicsWave OpticsFresnel distance, Diffraction through circular slit, concept of Airy Disc, Rayleigh Criterion of Resolution , Fraunhofer diffraction
MediumExplain that for a greater distance,the spreading due to diffraction dominates over that due to ray optics. $OR$ Explain the importance of Fresnel distance.
(N/A) An aperture of size $a$ illuminated by a parallel beam sends diffracted light into an angle $\theta$,where the angular width is $\theta \approx \frac{\lambda}{a}$.
In travelling a distance $z$,the diffracted beam acquires a width $w = z \theta = \frac{z \lambda}{a}$ due to diffraction.
The Fresnel distance $z_F$ is defined as the distance at which the spreading due to diffraction becomes equal to the size of the aperture $a$.
Setting $a = \frac{z_F \lambda}{a}$,we get $z_F = \frac{a^2}{\lambda}$.
For distances $z \ll z_F$,the spreading due to diffraction is negligible compared to the size of the aperture,and the beam travels in a straight line,which is consistent with ray optics.
For distances $z > z_F$,the spreading due to diffraction dominates over the spreading due to ray optics. Thus,ray optics is an approximation valid only when the wavelength $\lambda \to 0$ or for distances $z \ll z_F$.
In travelling a distance $z$,the diffracted beam acquires a width $w = z \theta = \frac{z \lambda}{a}$ due to diffraction.
The Fresnel distance $z_F$ is defined as the distance at which the spreading due to diffraction becomes equal to the size of the aperture $a$.
Setting $a = \frac{z_F \lambda}{a}$,we get $z_F = \frac{a^2}{\lambda}$.
For distances $z \ll z_F$,the spreading due to diffraction is negligible compared to the size of the aperture,and the beam travels in a straight line,which is consistent with ray optics.
For distances $z > z_F$,the spreading due to diffraction dominates over the spreading due to ray optics. Thus,ray optics is an approximation valid only when the wavelength $\lambda \to 0$ or for distances $z \ll z_F$.
Explore More
Similar Questions
In a Fraunhofer diffraction,light of wavelength $\lambda$ is incident on a slit of width $d$. The diffraction pattern is observed on a screen placed at a distance $D$. If the linear width of the central maximum is equal to two times the width of the slit,then the value of $D$ is:
Consider the following statements $A$ and $B$ and identify the correct answer:
$A$. Fresnel's diffraction pattern occurs when the source of light or the screen on which the diffraction pattern is seen,or when both are at a finite distance from the aperture.
$B$. Diffracted light can be used to estimate the helical structure of nucleic acids.
$A$. Fresnel's diffraction pattern occurs when the source of light or the screen on which the diffraction pattern is seen,or when both are at a finite distance from the aperture.
$B$. Diffracted light can be used to estimate the helical structure of nucleic acids.
Two towers on top of two hills are $40 \, km$ apart. The line joining them passes $50 \, m$ above a hill halfway between the towers. What is the longest wavelength of radio waves (in $cm$),which can be sent between the towers without appreciable diffraction effects?
Medium
View SolutionThe cause of Fraunhofer lines is
Easy
View Solution$A$ light beam of wavelength $800 \,nm$ passes through a single slit and is projected on a screen kept at $5 \,m$ away from the slit. What should be the slit width for the ray optics approximation to be valid (in $\,mm$)?
Vedclass Products
For Students
Vedclass Test Series
Mock tests in real JEE/NEET style with performance analysis. 5-day free trial.
Start Free TrialFor Teachers
Exam Paper Generator
Generate Set A/B/C/D exam papers from 7.5L+ questions in 2 minutes. 3 chapters free.
Try FreeFor Institutes
Online Exam Module
Live online exams with unlimited students, 360° analytics & white-label branding.
See Demo