10 Nonlinear Optics.

Slides:

Advertisements

Similar presentations

Key CLARITY technologies II – Four-Wave Mixing wavelength conversion National and Kapodistrian University of Athens Department of Informatics and Telecommunications.

Advertisements

Classical behaviour of CW Optical Parametric Oscillators T. Coudreau Laboratoire Kastler Brossel, UMR CNRS 8552 et Université Pierre et Marie Curie, PARIS,

Multi-wave Mixing In this lecture a selection of phenomena based on the mixing of two or more waves to produce a new wave with a different frequency, direction.

Simultaneously Stokes and anti-Stokes Raman amplification in silica fiber Victor G. Bespalov Russian Research Center "S. I. Vavilov State Optical Institute"

Multiwave stimulated Raman scattering with quasi-phase matching Victor G. Bespalov Russian Research Center "S. I. Vavilov State Optical Institute" Nikolai.

Fundamentals of Photonics

Parametric Down-conversion and other single photons sources December 2009 Assaf Halevy Course # 77740, Dr. Hagai Eisenberg 1.

Quasi-phase matching SRS generation. Nikolai S. Makarov, State Institute of Fine Mechanics and Optics, Victor G. Bespalov, Russian Research Center "S.

Combined Stokes-anti-Stokes Raman amplification in fiber Victor G. Bespalov All Russian Research Center "S. I. Vavilov State Optical Institute" Nikolai.

The Sum Over States model, although exact, requires a detailed knowledge of many parameters which are not generally available. Experience has shown that.

Light and Matter Tim Freegarde School of Physics & Astronomy University of Southampton The tensor nature of susceptibility.

Physics 3210 Week 13 clicker questions. Exam 3 scores Median 52 SD 16.

Transient Four-Wave Mixing Spectroscopy on PbS Quantum Dots Kevin Blondino (Florida State University) Advisors: Dr. Denis Karaiskaj, USF (faculty) Jason.

Presented By: Gaurav C Josan Department - EE NON-LINEAR OPTICS NON LINEAR OPTICS.

Fundamentals of Photonics 1 NONLINEAR OPTICS- III.

Quasi-phase matching transient SRS generation Victor G. Bespalov Russian Research Center "S. I. Vavilov State Optical Institute" Nikolai S. Makarov Saint-Petersburg.

Optical Field Mixing. Oscillating Polarisation Optical polarisation Fundamental polarisation SH Polarisation Constant (dc) polarisation.

Janez Žabkar Advisers: dr. Marko Zgonik dr. Marko Marinček

Chem 1310: Introduction to physical chemistry Part 2: exercise 22, p658 NOBr formed from NO and Br 2.

EE 230: Optical Fiber Communication Lecture 6 From the movie Warriors of the Net Nonlinear Processes in Optical Fibers.

Non-linear photonic crystals

Robert: Motivation Principles of Optics Applications Optimization Andy: Materials Loss vs. amplification Theoretical problems Overview = 4WM.

Fiber-Optic Communications James N. Downing. Chapter 2 Principles of Optics.

Driven autoresonant three-oscillator interactions Oded Yaakobi 1,2 Lazar Friedland 2 Zohar Henis 1 1 Soreq Research Center, Yavne, Israel. 2 The Hebrew.

Pump-Probe Spectroscopy Chelsey Dorow Physics 211a.

College and Engineering Physics Quiz 9: Simple Harmonic Motion 1 Simple Harmonic Motion.

Nonlinear Optics: Phenomena, Materials and Devices -Honors senior undergraduate and graduate level course. -Approximately lecture hours + 3 seminars.

Milti-wave interaction in metamaterials

PHYS 218 sec Review Chap. 13 Periodic Motion.

Anharmonic Oscillator Derivation of Second Order Susceptibilities

Chapter 8. Second-Harmonic Generation and Parametric Oscillation

Charge Carrier Related Nonlinearities

S.O. Kasap, Optoelectronics and Photonics: Principles and Practices, Second Edition, © 2013 Pearson Education © 2013 Pearson Education, Inc., Upper Saddle.

Workshop on High-Field THz Science High Power THz Generation and THz Field Enhancement in Nanostructures Fabian Brunner 1, Salvatore Bagiante 2, Florian.

Resonant motion: amplitude and phase. What resonances to electrons in atoms have?

0 APS-Sherwood Texas 2006-April Study of nonlinear kinetic effects in Stimulated Raman Scattering using semi- Lagrangian Vlasov codes Alain Ghizzo.

Nonlinear Susceptibilities: Quantum Mechanical Treatment

Light and Matter Tim Freegarde School of Physics & Astronomy University of Southampton Controlling light with light.

Femto-second Measurements of Semiconductor Laser Diodes David Baxter

Wong group, Optical Nanostructures Laboratory, Columbia UniversityXiujian Li Phase Conjugation in Silicon waveguide.

Adiabatic approximation

Interaction of laser pulses with atoms and molecules and spectroscopic applications.

IPC Friedrich-Schiller-Universität Jena 1 ASP_MP_S2j Biophotonics Prof. Dr. Rainer Heintzmann Institut für Physikalische Chemie Friedrich-Schiller-Universität.

Spectroscopy and electromagnetic waves. Polarisability of Matter.

Fundamentals of Polarization and Polarizability Seth R. Marder Joseph W. Perry Department of Chemistry.

IPC Friedrich-Schiller-Universität Jena 1 ASP_MP_S2j Biophotonics Prof. Dr. Rainer Heintzmann Institut für Physikalische Chemie Friedrich-Schiller-Universität.

Physics 3210 Week 14 clicker questions. When expanding the potential energy about a minimum (at the origin), we have What can we say about the coefficients.

Nonlinear Optics Lab. Hanyang Univ. Chapter 4. The Intensity-Dependent Refractive Index - Third order nonlinear effect - Mathematical description of the.

Chapter 3 Lattice vibration and crystal thermal properties Shuxi Dai Department of Physics Unit 4 : Experimental measurements of Phonons.

Fluid Dynamics How does conservation of mass apply in a fluid? How does conservation of energy apply in a fluid? What is laminar flow? What is turbulence.

Optical Amplifiers By: Ryan Galloway.

Effect of nonlinearity on Head-Tail instability 3/18/04.

8. Propagation in Nonlinear Media Microscopic Description of Nonlinearity Anharmonic Oscillator. Use Lorentz model (electrons on a spring)

Introduction to materials physics #4

Nonlinear Optics Lab. Hanyang Univ. Chapter 6. Processes Resulting from the Intensity-Dependent Refractive Index - Optical phase conjugation - Self-focusing.

4. Phonons Crystal Vibrations

The influence of backward Stokes on quasi-phase matched multiwave SRS in nonlinear periodical structures Victor G. Bespalov, Russian Research Center "S.

1 1.D. Gargas et al, Imaging Single ZnO Vertical Nanowire Laser Cavities Using UV-laser Scanning Confocal Microscopy, J. Am. Chem. Soc. 131, 2125 (2009)

Introduction to Laser Spectroscopic Techniques for Condensed Matter.

§8.4 SHG Inside the Laser Resonator

Nonlinear Optics Tobias J. Kippenberg

Applications of SHM and Energy

diffraction patterns produced by a circular aperture

Nonlinear Optics Tobias J. Kippenberg

Understanding Resonant Systems

Basics Semiconductors

Coherent Nonlinear Optics

Summary of Lecture 18 导波条件图解法求波导模式边界条件波导中模式耦合的微扰理论

5.1 Oscillations Oscillation: any general movement that repeats itself

9 Nonlinear Optics.

Presentation transcript:

10 Nonlinear Optics

Nonlinear susceptibility tensor

The Physical origin of optical nonlinearities

Oscillator model:

Non-resonant nonlinearities Second-order nonlinearities ((2)) -- Nonlinear frequency mixing

  = 2 - 21= 0  k = k2 -2k 1 = 0 Phase matching Optical frequency conversion (Second Harmonic generation) Energy conservation Momentum conservation k   = 2 - 21= 0  k = k2 -2k 1 = 0 Birefringence Phase Match (BPM)

QPM Condition: k=(k2-2k )-Gm=0 Ln Lp dij Lp+Ln X Y Z X QPM Condition: k=(k2-2k )-Gm=0

Overview of third-order phenomena

The optical Kerr effect and the nonlinear rafractive index Frequency tripling Phase match problem The optical Kerr effect and the nonlinear rafractive index ( degeneate four-wave mixing) No phase match problem (K: Kerr constant)

Stimulated Raman scattering

Resonant nonlinearities

Saturable absorber Resonant nonlinerarities are third-order nonlinear

Resonant nonlinearities in semiconductors

Optical bistability