You are recording an in-line hologram with an object inscribed on a transparent sheet. Mathematically represent the recording and reconstruction of the holograms, and draw a neatly labelled diagram. What will happen if the reconstruction wavelength is two times larger than the recording wavelength. How to record a holographic converging lens? (6 marks)

Answer

In-line Holography: Recording, Reconstruction & Holographic Lens

📌 Recording an In-line Hologram

In Gabor’s in-line holography, both the reference wave and object wave travel along the same axis. A monochromatic coherent light illuminates a transparent object.

🔢 Mathematical Representation

The interference terms hold the amplitude and phase information of the object wave and are crucial to holography.

🔁 Reconstruction of the Hologram

The recorded hologram is re-illuminated with the same reference wave to regenerate the original object wavefronts.

🔢 Reconstruction Formula

This leads to:

• Zero-order term (background)
• Real image: reconstructed object wave
• Virtual image: pseudoscopic image

🌈 Effect of Doubling the Reconstruction Wavelength

If reconstruction wavelength λ′ = 2λ (twice the recording wavelength):

• Angular deviation of diffracted light increases
• Magnification M = λ′ / λ = 2 → image enlarged 2×
• Phase mismatch → leads to blurring and distortion

This causes the reconstructed image to be larger but less accurate.

🔬 Recording a Holographic Converging Lens

To record a holographic lens, interfere two spherical waves:

• Object wave: diverging from a virtual point
• Reference wave: converging or planar

🔢 Mathematical Description

Where:

• r₁, r₂: distances from the object and reference points to the hologram
• A, B: amplitudes of the waves
• k = 2π / λ: wavenumber

The interference pattern encodes a phase profile that mimics a converging lens.

When illuminated by the reference beam, the hologram behaves like a lens focusing the light to a point.

📘 Summary Table