Presentation is loading. Please wait.

Presentation is loading. Please wait.

Lez. 6 - Fisica At. Mol. Spec. 2013-2014 1 Carlo Altucci Consorzio Nazionale Interuniversitario di Struttura della Materia – CNISM Dipartimento di Scienze.

Published byPenelope Miller Modified over 8 years ago

Similar presentations

Presentation on theme: "Lez. 6 - Fisica At. Mol. Spec. 2013-2014 1 Carlo Altucci Consorzio Nazionale Interuniversitario di Struttura della Materia – CNISM Dipartimento di Scienze."— Presentation transcript:

1 Lez. 6 - Fisica At. Mol. Spec. 2013-2014 1 Carlo Altucci Consorzio Nazionale Interuniversitario di Struttura della Materia – CNISM Dipartimento di Scienze Fisiche, Università “Federico II”, Napoli, Italy UNIVERSITA’ DI NAPOLI “FEDERICO II” Brief introduction to Nonlinear Optics

2 Lez. 6 - Fisica At. Mol. Spec. 2013-2014 2 1.Nonlinear susceptibility 2.  (2) phenomena 3.  (3) phenomena 4.Brief mention to highly nonlinear optics OUTLINE

3 Lez. 6 - Fisica At. Mol. Spec. 2013-2014 3 Linear and nonlinear susceptibility In this case it is assumed that the polarization is an instantaneous response to the electric field. This, through the Kramers-Kronig relations, implies that the medium must be lossless and dispersionless. The theory is generalized to account for both losses and dispersion.

4 Lez. 6 - Fisica At. Mol. Spec. 2013-2014 4  (2) occurs only in media that o not display inversion symmetry. Thus, liquids, gases, amorphous materials in general (glasses), some crystals, etc. etc. having inversion symmetry exhibit a  (2) which identically vanishes.  (3), instead, is not vanishing for both centrosymmetric and non-centrosymmetric media.

5 Lez. 6 - Fisica At. Mol. Spec. 2013-2014 5 This argument is quite accurate, despite its simplicity!

6 Lez. 6 - Fisica At. Mol. Spec. 2013-2014 6

7 7

8 8 Field progation through a nonlinear medium

9 Lez. 6 - Fisica At. Mol. Spec. 2013-2014 9 Even in non-resonant conditions an external field can strongly affect the response of the medium if its strength is approaching or even comparable with that of the atomic field! Nonlinear optics is typically triggerd at a much lower threshold..!

10 Lez. 6 - Fisica At. Mol. Spec. 2013-2014 10 Second order processes: SHG

11 Lez. 6 - Fisica At. Mol. Spec. 2013-2014 11

12 Lez. 6 - Fisica At. Mol. Spec. 2013-2014 12 Types of SHG in crystals SHG occurs in three types, denoted 0, I and II. In Type 0 SHG two photons having extraordinary polarization with respect to the crystal will combine to form a single photon with double the frequency/energy and extraordinary polarization. In Type I SHG two photons having ordinary polarization with respect to the crystal will combine to form one photon with double the frequency and extraordinary polarization. In Type II SHG, two photons having orthogonal polarizations will combine to form one photon with double the frequency and extraordinary polarization. For a given crystal orientation, only one of these types of SHG occurs. In general to utilise Type 0 interactions a quasi-phase-matching crystal type will be required, for example periodically poled lithium niobate (PPLN).

13 Lez. 6 - Fisica At. Mol. Spec. 2013-2014 13 SHG from planar surfaces Early experiments in the field demonstrated second harmonic generation from metal surfaces. Eventually, SHG was used to probe the air-water interface, allowing for detailed information about molecular orientation and ordering at one of the most ubiquitous of surfaces. It can be shown that the specific elements of  (2) : where N s is the adsorbate density, θ is the angle that the molecular axis z makes with the surface normal Z, and  (2) zzz is the dominating element of the nonlinear polarizability of a molecule at an interface, allow one to determine θ, given laboratory coordinates (x, y, z).

14 Lez. 6 - Fisica At. Mol. Spec. 2013-2014 14 Using an interference SHG method to determine these elements of  (2), the first molecular orientation measurement showed that the hydroxyl group of phenol pointed downwards into the water at the air-water interface (as expected due to the potential of hydroxyl groups to form hydrogen bonds). Additionally SHG at planar surfaces has revealed differences in pKa (dissociation constant) and rotational motions of molecules at interfaces.

15 Lez. 6 - Fisica At. Mol. Spec. 2013-2014 15 Applications of SHG from surfaces Second harmonic light can also be generated from surfaces that are ‘locally’ planar, but may have inversion symmetry (centrosymmetric) on a larger scale. Specifically, recent theory has demonstrated that SHG from small spherical particles (micro- and nanometer scale) is allowed by proper treatment of Rayleigh scattering. At a the surface of a small sphere, inversion symmetry is broken, allowing for SHG and other even order harmonics to occur. Cartoon depicting ordered molecules at a small spherical surface. An ultrafast pump laser pumps light with frequency ω which generates light at 2ω from the locally non- centrosymmetric media.

16 Lez. 6 - Fisica At. Mol. Spec. 2013-2014 16 SH generation: microscopic sources and formation/propagation of a macroscopic field

17 Lez. 6 - Fisica At. Mol. Spec. 2013-2014 17 SUM and DIFFERENCE frequency generation da “Nonlinear Optics”, R. W. Boyd

18 Lez. 6 - Fisica At. Mol. Spec. 2013-2014 18

19 Lez. 6 - Fisica At. Mol. Spec. 2013-2014 19 SUM frequency generation

20 Lez. 6 - Fisica At. Mol. Spec. 2013-2014 20 DIFFERENCE frequency generation fluorescence

21 Lez. 6 - Fisica At. Mol. Spec. 2013-2014 21 Optical parametric oscillation

22 Lez. 6 - Fisica At. Mol. Spec. 2013-2014 22 Third order processes When the input field has several spectral components the expression of the third order polarization becomes very complicated. Thus, let us consider a monochromatic input field.

23 Lez. 6 - Fisica At. Mol. Spec. 2013-2014 23 Parametric vs non-parametric processes

24 Lez. 6 - Fisica At. Mol. Spec. 2013-2014 24 Other examples

25 Lez. 6 - Fisica At. Mol. Spec. 2013-2014 25

26 Lez. 6 - Fisica At. Mol. Spec. 2013-2014 26

27 Lez. 6 - Fisica At. Mol. Spec. 2013-2014 27 Remind: spontaneous Raman scattering

28 Lez. 6 - Fisica At. Mol. Spec. 2013-2014 28 Spontaneous vs stimulated Raman

29 Lez. 6 - Fisica At. Mol. Spec. 2013-2014 29 Highly nonlinear optics The lowest order perturbation theory (LOPT) holds true if the power series that gives the nonlinear polarization of the medium converges

30 Lez. 6 - Fisica At. Mol. Spec. 2013-2014 30 Bound-to-free transitions in atoms and molecules: highly nonlinear ionization In practice in the VIS-IR  bf   bb and if  < 1 we can use the LOPT. This implies that multi- photon ionization occurs within the LOPT for intensities not exceeding 10 13 W/cm 2.

31 Lez. 6 - Fisica At. Mol. Spec. 2013-2014 31 Models for highly nonlinear ionization

Download ppt "Lez. 6 - Fisica At. Mol. Spec. 2013-2014 1 Carlo Altucci Consorzio Nazionale Interuniversitario di Struttura della Materia – CNISM Dipartimento di Scienze."

Similar presentations

Optics, Eugene Hecht, Chpt. 8

Optics, Eugene Hecht, Chpt. 8
Key CLARITY technologies II – Four-Wave Mixing wavelength conversion National and Kapodistrian University of Athens Department of Informatics and Telecommunications.

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

Femtosecond lasers István Robel
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.

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.
Light Waves and Polarization Xavier Fernando Ryerson Communications Lab

Light Waves and Polarization Xavier Fernando Ryerson Communications Lab
Fundamentals of Photonics

Fundamentals of Photonics
1 M. Zarcone Istituto Nazionale per la Fisica della Materia and Dipartimento di Fisica e Tecnologie Relative, Viale delle Scienze, 90128 Palermo, Italy.

1 M. Zarcone Istituto Nazionale per la Fisica della Materia and Dipartimento di Fisica e Tecnologie Relative, Viale delle Scienze, Palermo, Italy.
Now that we have determined the solutions to the differential equation describing the oscillations of the electric and magnetic fields with respect to.

Now that we have determined the solutions to the differential equation describing the oscillations of the electric and magnetic fields with respect to.
Optimizing SHG Efficiency

Optimizing SHG Efficiency
Printed by www.postersession.com Second-Harmonic Generation: Hyper-Rayleigh Scattering Hyper-Rayleigh Scattering is an efficient technique for measuring.

Printed by Second-Harmonic Generation: Hyper-Rayleigh Scattering Hyper-Rayleigh Scattering is an efficient technique for measuring.
The Sum Over States model, although exact, requires a detailed knowledge of many parameters which are not generally available. Experience has shown that.

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.

Light and Matter Tim Freegarde School of Physics & Astronomy University of Southampton The tensor nature of susceptibility.
2015-5-20Fundamentals of Photonics 1 NONLINEAR OPTICS- III.

Fundamentals of Photonics 1 NONLINEAR OPTICS- III.
Light Amplification by Stimulated

Light Amplification by Stimulated
Optical Field Mixing. Oscillating Polarisation Optical polarisation Fundamental polarisation SH Polarisation Constant (dc) polarisation.

Optical Field Mixing. Oscillating Polarisation Optical polarisation Fundamental polarisation SH Polarisation Constant (dc) polarisation.
Introduction to Nonlinear Optics

Introduction to Nonlinear Optics
Narrow transitions induced by broad band pulses  |g> |f> Loss of spectral resolution.

Narrow transitions induced by broad band pulses  |g> |f> Loss of spectral resolution.
Vibrations of polyatomic molecules

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

Fiber-Optic Communications James N. Downing. Chapter 2 Principles of Optics.
Lecture 3 INFRARED SPECTROMETRY

Lecture 3 INFRARED SPECTROMETRY

Similar presentations

Ads by Google