PPT-Computational Photonics Fiber mode solver (Bessel’s differential equation)

Seminar 06 Learn how to combine analytical solutions with numerical routines to find semianalytical solutions Use your lecture knowledge to specify the general cylindrical problem solution to a stepindex fiber. we have that is a second solution of the di64256erential equation 2 and the two solutions and are clearly linearly independent For 8712 we have 0 1 915 1 1 915 1 since 915 1 0 for 0 n This implies that 1 915 1 0 1 915 1 2 1 0 1 91 : . The differential equation . . (1). . where n is a parameter, is called . Bessel’s Equation of Order n. .. Any solution of . Bessel’s Equation of Order n . is called a . Bessel Function of Order n. for . Fiber Optic Communication . Michael Ghoorchian. Fiber Optic. An . optical fiber. is a glass or plastic fiber that carries light along its length so it acts as a Wave guide.. Mostly made of Silicon (not Silicone !). Outline. Single-Ended Versus Differential Operation. The transitions disturb. the differential by . equal amounts, leaving. the difference in tact.. Immunity to Supply Noise. If VDD changes by . ∆V, . What is the Differential Mode ?. The op-amp can be connected up in various ways or . modes. .. What it does depends on how it is connected up.. When connected up in the . differential mode. , it finds the .  . An order . differential equation has a . parameter family of solutions … or will it?.  . 0. 1. 2. 3. 4. 0. 0. 1. 2. 3. 4. 1. 1. 2. 3. 4. 0. 2. 2. 3. 4. 0. 1. 3. 3. 4. 0. 1. 2. 4. 4. 0. 1. 2. for . Fiber Optic Communication . Michael Ghoorchian. Fiber Optic. An . optical fiber. is a glass or plastic fiber that carries light along its length so it acts as a Wave guide.. Mostly made of Silicon (not Silicone !). , . are.  . canonical.  solutions . y. (. x. ) of . Bessel's . differential equation. :. α (the . order.  of the Bessel function). Bessel functions are also known as . cylinder functions.  or . 10/28/2018. Kihwan Lee. Classification of Errors in Numerical Science. Physical approximation error. Physical modeling error: is the governing equation representative of the actual physics?. Modeling approximation is always present.. y = e. x. y = e. 4x. y = e. x^2. y = sec x. dy. = e. x . dx. dy. = 4e. 4x . dx. dy. = 2xe. x^2 . dx. dy. = . tanxsecx. . dx. Slope Fields and Euler’s Method. Lesson 6.1. Objectives. Students will be able to:. (iv)Correct substitution for the solution of the differential equation of thetype (,)dxgxydy where () is a homogeneous function of thedegree zero is =vy.(v)Number of arbitrary constants in the particu Lecture-18. . Differential . Equation of the first order and higher . degree. UG (B.Sc., Part-2). Dr. Md. . Ataur. . Rahman. Guest Faculty. Department of Mathematics. M. L. . Arya. , College, . Kasba. Higher order linear differential Equation. UG (B.Sc., Part-2). Dr. Md. . Ataur. . Rahman. Guest Faculty. Department of Mathematics. M. L. . Arya. , College, . Kasba. PURNEA UNIVERSITY, PURNIA. Contents. L. aplace . Transform. UNIT – IV. UNIT- V. PARTIAL DIFFERENTIAL EQUATIONS OF SECOND ORDER INTRODUCTION: . . An . equation is said to be of order two, if it involves at least one of the differential coefficients .