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Introduction to Nonlinear Optics
H. R. Khalesifard Institute for Advanced Studies in Basic Sciences
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Contents Introduction The essence of nonlinear optics
Second order nonlinear phenomena Third order nonlinear phenomena Nonlinear optical materials Applications of nonlinear optics
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Introduction Question:
Is it possible to change the color of a monochromatic light? Answer: Not without a laser light output NLO sample input
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Stimulated emission, The MASER and The LASER
(1916) The concept of stimulated emission Albert Einstein (1928) Observation of negative absorption or stimulated emission near to resonant wavelengths, Rudolf Walther Ladenburg (1930) There is no need for a physical system to always be in thermal equilibrium, Artur L. Schawlow
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E1 E2 Absorption E1 E2 Spontaneous Emission E1 E2 Stimulated Emission
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Light (Microwave) Amplification
by Stimulated Emission of Radiation LASER (MASER)
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The Maser Two groups were working on Maser in 50s
Alexander M. Prokhorov and Nikolai G. Bassov (Lebedev institute of Moscow) Charles H. Townes, James P. Gordon and Herbert J. Zeiger (Colombia University)
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Left to right: Prokhorov, Townes and Basov at the Lebede institute (1964 Nobel prize in Physics for developing the “Maser-Laser principle”)
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Townes (left) and Gordon (right) and the ammonia maser they had built at Colombia University
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The LASER (1951) V. A. Fabrikant “A method for the application of electromagnetic radiation (ultraviolet, visible, infrared, and radio waves)” patented in Soviet Union. (1958) Townes and Arthur L. Schawlow, “Infrared and Optical Masers,” Physical Review (1958) Gordon Gould definition of “Laser” as “Light Amplification by Stimulated Emission of Radiation” (1960) Schawlow and Townes U. S. Patent No. 2,929,922 (1960) Theodore Maiman Invention of the first Ruby Laser (1960) Ali Javan The first He-Ne Laser
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Maiman and the first ruby laser
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Ali Javan and the first He-Ne Laser
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Properties of Laser Beam
A laser beam Is intense Is Coherent Has a very low divergence Can be compressed in time up to few femto second
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Applications of Laser (1960s) “A solution looking for a problem”
(Present time) Medicine, Research, Supermarkets, Entertainment, Industry, Military, Communication, Art, Information technology, …
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Start of Nonlinear Optics
Nonlinear optics started by the discovery of Second Harmonic generation shortly after demonstration of the first laser. (Peter Franken et al 1961)
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2. The Essence of Nonlinear Optics
When the intensity of the incident light to a material system increases the response of medium is no longer linear Input intensity Output
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Response of an optical Medium
The response of an optical medium to the incident electro magnetic field is the induced dipole moments inside the medium
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Nonlinear Susceptibility
Dipole moment per unit volume or polarization The general form of polarization
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Nonlinear Polarization
Permanent Polarization First order polarization: Second order Polarization Third Order Polarization
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How does optical nonlinearity appear
The strength of the electric field of the light wave should be in the range of atomic fields N a0 e
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Nonlinear Optical Interactions
The E-field of a laser beam 2nd order nonlinear polarization
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2nd Order Nonlinearities
The incident optical field Nonlinear polarization contains the following terms
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Sum Frequency Generation
Application: Tunable radiation in the UV Spectral region.
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Difference Frequency Generation
Application: The low frequency photon, amplifies in the presence of high frequency beam This is known as parametric amplification.
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Phase Matching Since the optical (NLO) media are dispersive,
The fundamental and the harmonic signals have different propagation speeds inside the media. The harmonic signals generated at different points interfere destructively with each other.
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SHG Experiments We can use a resonator to increase the efficiency of SHG.
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What is the phase conjugation
The signal wave The phase conjugated wave
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