OSE 6334 Nonlinear Optics
Transcript of OSE 6334 Nonlinear Optics
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Nonlinear OpticsOSE 6334
Konstantin Vodopyanov
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Introduction to nonlinear optics.
Logistics.
Lecture 1
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What this course is about
This course gives a broad introduction to the field of Nonlinear Optics (NLO). The goal is to get you acquainted with the main effects of nonlinear optics and also introduce main equations that govern nonlinear-optical interactions.
Beginning with a simple electron on a spring model—the course gives comprehensive explanations of second-order and third-order nonlinear effects and their physical origins.
The corse covers nonlinear optics from a combined: physics, optics, materials science, and devices perspective.
Examples will be given on solving practical problems such as design of nonlinear frequency converters, and also devices using ultrafast and high intensity lasers.
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Newton’s superposition principle
f(A+B) = f(A) + f(B)
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Newton: Light cannot interact with light. Two beams of light can have no effect on each other.
Isaac Newton 1642 –1726
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Nonlinear optics
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f(A+B) ≠ f(A) + f(B)Beams A and B can create beam C
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Nicolaas Bloembergen1920–2017
Nobel Prize in Physics (1981)
NLO: photons do interact
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Linear Optics• The optical properties such as the refractive index and the absorption coefficient
are independent of light intensity.• The Newton’s principle of superposition: light cannot interact with light. Two beams
of light in the same region of a linear optical medium can have no effect on each other. Thus light cannot control light.
• The frequency of light cannot be altered by its passage through the medium.
Nonlinear Optics• The refractive index, and consequently the speed of light in an optical medium
does change with the light intensity.• The absorption coefficient does change with the light intensity.• The principle of superposition is violated. Light can control light; photons do
interact.• Light can alter its frequency as it passes through a nonlinear optical crystal, e.g.
from red to blue and vice versa.
NLO - many fascinating phenomena !
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What is the outcome of this course
You will be able to:
Understand modern literature on lasers and their nonlinear optical applications
Distinguish between 2-nd-order and 3-rd-order nonlinear-optical effects
Do back-of-the-envelope NLO calculations
Explore NLO effects on your own
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Topics to be studied• Refreshing math basics. Linear electrodynamics. • Slowly varying envelope approximation• Nonlinear susceptibility of a classical anharmonic oscillator • Quantum-mechanical perturbation theory for the nonlinear optical susceptibility • Coupled-wave equations in nonlinear optics• Sum-frequency and second-harmonic generation• Second-order (χ(2)) nonlinear optical materials • Phase matching in nonlinear optics• Quasi-phase-matching (QPM)• Second-harmonic generation inside a resonator cavity• Difference-frequency generation • Optical parametric oscillators (OPO) and amplifiers (OPA)• OPO tuning curves and bandwidth• Conversion efficiency of nonlinear optical processes• Frequency conversion using femtosecond optical pulses• Third-order (χ(3)) nonlinear effects• Kerr effect. Intensity-dependent refractive index• Self-focusing. Self-phase modulation• Third harmonic generation. Parametric processes due to the 4-wave mixing• Phase conjugation, optical limiting, all-optical switching• Techniques for measuring second- and third-order nonlinearities; Z-scan• Nonlinear phase shift due to cascaded χ(2) effects• Stimulated Raman and Brillouin scattering• Modern examples: Two- and three-photon microscopy, high-field interactions
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Schedule
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Schedule
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Home works
Assignment: Once a week (on Wednesday)
Home work report: submit via Webcourses before Sunday night (11:59pm)
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Mid-term exam
Oct 21 2019, Monday, 1:30–2:45 pm
Open book, ~ 10 problems
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Final exam
Dec 9 2019, Monday, 1:00–3:50 pm
In the form of 10-min students’ presentation (~ 10 slides)
§ Articles from different journals: Scientific American, Nature, Science, Optica, Optics Letters, New York Times, etc .... ...
§ Can also be an original (experimental or theoretical) project of your choice
Sources:
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Grades
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Texbooks
1. R. W. Boyd, Nonlinear Optics, 3rd Edition, (Academic Press, 2008).
2. G. I. Stegeman, R. A. Stegeman, Nonlinear Optics: Phenomena, Materials and Devices, (Wiley 2012)
3. Y. R. Shen, The Principles of Nonlinear Optics (Wiley 2003)
4. B. E. A. Saleh and M. C. Teich, Fundamentals of Photonics (Wiley 2007)
5. A. Yariv, Quantum Electronics (Wiley 1989)
nice book, but heavier formalism than in other books
NLO chapter – very clearly written
nice chapters on quantum mechanics for NLO
These are two main textbooks. Boyd is easier to read than Stegeman, although Boyd has some unconventional definitions; Stegeman has more formalism, but gives nice physical models for different NLO effects
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- these are books that I used
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Lecture notes
The lecture notes will be placed on Webcourses as the course progresses.
For example, notes for a coming lecture will be placed no later than the night before.
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Lecture Capture. Panopto
Lecture Capture – all classes will be video recorded.
Panopto – a software that does lecture recording, screencasting, video streaming, and video content management.
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You can interrupt me any time during a lecture if you have questions
Any questions right now ?
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