Modulators & SHG (a) Longitudinal field; (b) Transverse field; (c) Travelling-wave field.

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Modulators & SHG (a) Longitudinal field; (b) Transverse field; (c) Travelling-wave field.

Pockels Effect in ADP

The index ellipsoid

The Longitudinal Modulator Input field Output field

Amplitude modulation (Transverse) Inserting a quarter-wave Plate provides a static bias to point B providing a near linear response

Application: Q-switching

Phase modulation

Mach-Zehnder Interferometer with a phase modulator In one arm Optical fibre version of the same interferometer

Phase modulation: the maths 1 The input & output light fields And the voltage on the crystal is:

Phase modulation: the maths 2 And using the Bessel function identity: Expanding the cosine: Gives for the output field – a series of side-bands

Amplitude Spectrum of the Output The output of the phase modulator consists of a series of sidebands spaced by the modulation frequency Ω and whose relative magnitude is given appropriate Bessel function ratio.

Pound-Drever-Hall Locking

The detected signal The ratio of the reflected beam to the incident beam gives F. For a lossless symmetric cavity we get the following result where Φ represents the phase after one round trip, i.e. The error signal is obtained by picking out the term going at

The Lock Signal

Electro-optic deflection - 1

Electro-optic deflection - 2 With a given maximum voltage V to scan N spots requires 2N times the half-wave voltage

Electro-optic deflection - 3

Acousto-optic effects The sound waves modulate the reflector which in turn Doppler shifts the optical wave.

Acousto-optic applications

Acousto-optic deflection

Acousto-optic applications The key feature is to scan the frequency without moving the beam. The double pass through the phase plate rotates the plane of polarisation by 90° allowing the PBS deflect the return beam.

SHG – the susceptibility tensor For ADP or KDP, the crystal symmetry gives only the following non-zero for SHG. Furthermore, Or if Kleinman’s conjecture is invoked all are equal

Symmetry & Kleinman

Second Harmonic Generation

SHG: more maths Now insert the following and take a 1D plane wave: where and similarly for 2ω

SHG: and yet more.. Now assuming a small variation of A with z, and using

SHG: so finally…

Phase-matching