|
DATE |
HANDOUTS |
| NOV 14 | HO#35: Analysis of Chirp Power. |
| OCT 29 | HO#34: Photodetector. |
| OCT 15 |
HO#30: Lecture on Laser sources including the definitions of coherence and stimulated emission , coherence and lasing conditions. HO#31: Private notes from Jones Chapter 6. |
| OCT 10 |
HO#26,27: Jones , special Notes on dispersion in multimode , and graded index fibers . HO#28 (a),(b),(c): Lecture Notes on optical sources , direct and indirect bandgaps , and lattice structures. HO#29: Lecture Notes on LED sources |
| OCT 5 | HO#20: A. Kowalski , " on the Analysis of Optical Fibers Described in Terms of Chebyshev Polynomials " , J.Lightwave Technology , V . 8 , #2 , PP. 164-167 ( Feb . 1990 ). HO#21: Private notes : W.B. Jones , "Intro to Optical Fiber Communications Systems " ( 1987). HO#22:J.W. Flemming , "Material dispersion in Lightguide Glasses , " Electronics Letters , V.14 , #11 , PP.326-8 ( 25 May 1978). HO#23: [ Keiser 3 rd edition ref 20p 86: and Ref 37p 138. ] D. gloge , "Weakly Guiding Fibers " , Applied Optics , V.10 , # 10 , PP.2252-8 ( Oct 1971 ). HO#24: [ Keiser , 3rd ed. Ref 19 . P 86. ] A.W. Synder , "Asymptotic Expressions for Eigen functions and Eigenvalues of a Dielectric ot Optical waveguide " , IEEE Trans , on Microwave Theory and Techniques , V. , MTT-17 #12 , pp. 1130-8 ( Dec.1969 ) HO#25: D.gloge , "dispersion in weakly Guiding Fibers , " Applied Optics , V. 10 , #11 , 2442-4 ( Nov .1971 ). |
| SEP 25 |
HO#19: Graded index fiber numerical aperature and the inhomogenous Helmholtz wave equation for graded index fibers . |
| SEP 19 | HO#17: Relationship between k, k1 , k2 , w , b , g , a , q , m , w and the development of normalized
frequency V. HO#18: TEM case to illustrate a non dispersive environment. |
| SEP 17 | HO#15(Revised version): ray optics calculation of number of modes. HO#16: The plot of the first kind and second kind Bessel function . The plot of first kind and second kind of modified Bessel function. |
| SEP 10 | HO#B : Vector calculus Formulas HO#14:Solid Acceptance Angle HO#15:Ray-optics calculation of number of modes. |
| SEP 5 | HO#A: DIMENSIONS OF ELECTROMAGNETIC QUANTIES HO#11: Quantum Nature of light HO#12: Relationship between index of refraction and permittivity, Waveguiding and mode types, and fiber types in terms of index profile and dimensions. HO#13: Derivation of Critical and Acceptance angle and Numerical Aperature |
| Aug. 29 | HO#9:(a) The operating range of optical systems and their key components. (b) Periodic table of elements highlighting ERBIUM and PRASEODYMIUM. (c) Major elements of optical fiber elements systems. (d) The standard optical fiber windows. HO#10: Wavenature of light, lecture notes. |
| Aug. 27 | HO#5: The Electromagnetic Frequency-Wavelenght Spectrum HO#6: Xircom Primer and Southwestern Bell web info on ISDN HO#7: North American Telephone Network and SONET Hierarchies HO#8: The Date-Rate Spectrum |
| Aug. 22 | HO#1: History of optical Transmission HO#2: The invention of the MASER by Townes HO#2A: FO list of advantages HO#3: The invention of the LASER by Maiman HO#4: Advantages of fiber over copper |
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