Courses:

Course Info

• Course Number / Code:
• 18.369 (Spring 2008) 
• Course Title:
• Mathematical Methods in Nanophotonics 
• Course Level:
• Graduate 
• Offered by :
• Massachusetts Institute of Technology (MIT)
  Massachusetts, United States  
• Department:
• Mathematics 
• Course Instructor(s):
• Prof. Steven Johnson 
• Course Introduction:
•  
• 
  
  18.369 Mathematical Methods in Nanophotonics
  
  
  
  

  Spring 2008

  
  
  

  
  
  

  Course Highlights

  
  
  

  
  
  18.369 Mathematical Methods in Nanophotonics
  
  
  
  

  Spring 2008

  
  
  

  

  Photonic crystals are arrangements of two or more dielectric media, periodic along one, two, or three dimensions. This is depicted schematically here by "red" and "yellow" materials arranged in simple 1d/2d/3d lattices from left to right. (Image by Prof. Johnson.)

  
  
  

  Course Description

  
  
  

  Find out what solid-state physics has brought to Electromagnetism in the last 20 years. This course surveys the physics and mathematics of nanophotonics—electromagnetic waves in media structured on the scale of the wavelength.

  Topics include computational methods combined with high-level algebraic techniques borrowed from solid-state quantum mechanics: linear algebra and eigensystems, group theory, Bloch's theorem and conservation laws, perturbation methods, and coupled-mode theories, to understand surprising optical phenomena from band gaps to slow light to nonlinear filters.

  Note: An earlier version of this course was published on OCW as 18.325 Topics in Applied Mathematics: Mathematical Methods in Nanophotonics, Fall 2005.