1 / 45

Chapter 3 & 4

Chapter 3 & 4. Beam Optics + Fourier Optics. Comments. 第二章的延 续 非平面波 主 要沿 z 方向传播 在横截面( xy )里,电磁场为非均匀分布. 3.1 THE GAUSSIAN BEAM. Under paraxial Helmholtz equation. Properties. W 0 ~ z 0 1/2. 束缚越强,扩散越大!. Gouy Phase. Divergence and Gouy Phase. Dispersion Relation

donagh
Download Presentation

Chapter 3 & 4

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. Chapter 3 & 4 Beam Optics + Fourier Optics

  2. Comments • 第二章的延续 • 非平面波 • 主要沿z方向传播 • 在横截面(xy)里,电磁场为非均匀分布

  3. 3.1 THE GAUSSIAN BEAM

  4. Under paraxial Helmholtz equation

  5. Properties W0 ~ z01/2 束缚越强,扩散越大!

  6. Gouy Phase

  7. Divergence and Gouy Phase • Dispersion Relation • kx2+ky2+kz2=k02 • Isotropic media

  8. Divergence and Gouy Phase • Confinement in x-y • w(z) • Broadening in kx-ky • 1/w(z) • Divergence and Gouy Phase

  9. Gouy Phase OL 26, 485 (2001) • kx2 + ky2 + kz2 = k2 源于量子受限效应

  10. Problems • Broadening in wavevector? • Could explain the divergence! • Wrong for Gouy phase • Weights of different Fourier components do not vary with distance z! • Why? • Paraxial Approximation A dilemma exists!也许值得探讨

  11. 3.2 TRANSMISSION THROUGH OPTICAL COMPONENTS

  12. 光路设计上很重要

  13. 3.4 LAGUERRE-GAUSSIAN AND BESSEL BEAMS

  14. 伴随着l,存在环状能流,在光学蜗旋上、光镊里起到关键作用!伴随着l,存在环状能流,在光学蜗旋上、光镊里起到关键作用!

  15. Vortex

  16. Generation

  17. Applications

  18. Bessel Beams < k, Gouy Phase Non-integrable

  19. Fourier Optics

  20. based on • harmonic analysis (the Fourier transform) • linear systems

  21. Expansion Methods • Fourier Optics • Expansion based on the solutions of wave equation -- plane waves • Paraxial Optics? • LG waves • HG waves • Expansion based on the orthogonal and complete sets

  22. 4.1 PROPAGATION OF LIGHT IN FREE SPACE

  23. 算法实现 • 周期边界性条件 • 取样区域的尺寸大小A为周期 • Fourier Transformation中,k=n2π/A, 取分立值 • 可调用Fast Fourier Transformation (FFT)命令

  24. 4.2 OPTICAL FOURIER TRANSFORM

  25. 4.3 DIFFRACTION OF LIGHT

  26. WHY? Sharp edge  high spatial frequency x kx

  27. Problem? • Wemust utilize the components with higher wavevectorskx, ky>k • kz become pure imaginary! • Evanescent waves & surface waves • Bigger k  smaller wavelength • 电镜, x-ray

  28. SNOM

  29. Phys. Rev. Lett. 85, 3966–3969 (2000), cited by 4500 times Perfect lense / superlense 用左手材料/负折射率(left-handed materials or negative refractive media)材料可以实现超聚焦

  30. science_308_534 (2005)

  31. END

  32. Homework • Develop Eq. (3.1-5) • Explain the meaning of each factor in Eq. (3.1-23) • EXERCISE 3.1-1 • EXERCISE 3.1-2

  33. Homework • EXERCISE 4.1-2 • EXERCISE 4.2-2 • Problems 4.1-3

More Related