1 / 18

Kubické nelinearity - Kerrov jav

Kubické nelinearity - Kerrov jav. Samomudulacia fázy, samofokusácia. Kerr effect : The refractive index depends upon the intensity of the light propagating through the material. Response. Elmag. wave. Nonlinear medium. Optick ý Kerrov jav.

mairi
Download Presentation

Kubické nelinearity - Kerrov jav

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Kubické nelinearity - Kerrov jav Samomudulacia fázy, samofokusácia

  2. Kerr effect:The refractive index depends upon the intensity of the light propagating through the material. Response Elmag. wave Nonlinear medium

  3. OptickýKerrovjav

  4. Iné mechanizmy: Sprievodné tepelné javy, fotorefrakcia.

  5. Elektricky homogénne, izotropné (ε,μ – konštanty) navyše úplne priehľadné čo sa tíka magnetických vlastností (μr = 1). Prostredie je lineárne (platí Ohmov zákon) a nie sú v ňom volné náboje (ρ = 0). ,

  6. E*(z) plus complex conjugate E(z) is constant We expect solution in this form Self-phase modulation

  7. A0 I ρ τ0 t Continuum generation and self-focusing

  8. nel| E(t) |2 z | E(t )|2 | E(t) |2n(t)(t) t t1 t1 t t2 t2 Anti Stokesov posun ω-ωlaser  = / t t1 t2 t2 t t t1 Stokesov posun

  9. F(t) = exp[-t2 / 2τ02]

  10. Δωmax SMF δωM Laser 100 0 200 300 100 200 300 -1 Δω=ω-ω (cm ) laser

  11. t1 = - τ0 , t2 = τ0

  12. Nelineárne médium L/2 -L/2 2/4  π/πLnl Lnl>>z0 L>> z0 nl(0) -L/2 -z0 z0 0 L/2 Nelineárne médium L >> L2  (/ )2 nl( 0)  L L2 SMF2ne /0w0 pk,vp = 02/πn2 (p0 / pk,vp)2<< 1 pk,v = 02/2n2 L2 ~ 1.1z0 pk,vl / pk,vp 1.5 (/)2  1

  13. ρ n Self-focusing Nelinearne medium

  14. e) h) b)

  15. b) h) e)

More Related