The online programme on the Physics of linear and nonlinear optical waveguides by Swayam has been purposefully structured to provide the registered students with the theoretical basis and applications for the field of optical waveguides. In the certification online session, the students will be learning about the principles of light-matter reactions.
The process and mechanisms of light-matter in linear, as well as non-linear reactions, will also be covered in the Physics of linear and nonlinear optical waveguides training. In the Physics of linear and nonlinear optical waveguides certification syllabus, the topics that will be covered are- Maxwell’s equation, Total Internal reflection, Concept of core and cladding, Linear and nonlinear optical waveguides & brief history, Plane-wave, Wave equation, Snell’s Law and other topics that are related to optical waveguides. The course will thus be helping the registered students to develop industrial-level skills and also develop academic-level knowledge.
The Highlights
Course organised by Indian Institute of Technology, Kharagpur
12 weeks programme
Course type-elective
Course organised by Swayam
Certificate issued by NPTEL and Indian Institute of Kharagpur
The Physics of linear and nonlinear optical waveguides certification course is having free registration.
The Physics of linear and nonlinear optical waveguides fee for the examination is mandated as Rs. 1,000/-.
Physics of linear and nonlinear optical waveguides fees details -
Particulars
Amount
Registration fee
Free
Examination fee
Rs. 1,000/-
Eligibility Criteria
Education
Students who wish to apply for the Physics of linear and nonlinear optical waveguides online course need to have a basic concept in the field of- electrodynamics, complex numbers, algebra, and calculus.
Certification Qualification Details
To apply for getting the Physics of linear and nonlinear optical waveguides certification, the students have to first have to get themselves registered. They have to appear for the final exam which will be organised from a designated exam center. To procure the Physics of linear and nonlinear optical waveguides certification course certificate, the candidates must get 75% marks as well as an average of 25% in 8 out of 12 assignments.
What you will learn
Knowledge of physics
The applicants in the Physics of linear and nonlinear optical waveguides programme will be learning about-
The usage of optical wavelength in the real world will be learnt by the students.
The methods of calculator propagation constant mode will also be dealt.
Students will further be learning about the “coupled mode theory
All the candidates will be working on linear waveguide arrays.
In the Physics of linear and nonlinear optical waveguides certification syllabus they will also learn about “optical switching”.
The concept of discrete ray propagation will also be elaborated.
The fundamental concepts related to linear waveguides will be elaborated.
They will be working on the applications of ray equation and group delay mechanisms.
Participants will be studying the concept of zero dispersion.
The steps involved in optical fibre modes will be covered in the course schedule.
Who it is for
The Physics of linear and nonlinear optical waveguides programme is for the following students-
The 3rd year students from the B.Sc Physics branch in applied optics can apply for the course.
The M.Tech students can also register for the online session.
Application Details
Please follow the listed steps to get yourself enrolled in the Physics of linear and nonlinear optical waveguides online course-
Step 1: Candidates must visit the programme URL: https://onlinecourses.nptel.ac.in/noc25_ph19/preview
Note- The Physics of the linear and nonlinear optical waveguides programme is in progress and therefore the application has not resumed. The interested students can contact the helpdesk for more information.
The Syllabus
Linear and nonlinear optical waveguides & Brief history
Maxwell’s equation
Plane wave
Wave equation
Snell’s Law
Total Internal Reflection
Concept of core and cladding
Numerical Aperture (NA)
V-parameter
Cut off wavelength
Ray propagation in optical fibers
Meridional rays
Skew ray
Concept of discrete ray propagation inside waveguides
Waveguide characteristics: Loss mechanism
Modal dispersion
Ray Equation
Ray path for step-index waveguide
Ray equation continue: Ray path for triangular-index waveguide