000 02290cam a22003734a 4500
001 5704
003 BD-DhEWU
005 20180117083908.0
008 040917s2005 flua g b 001 0 eng d
010 _a 2004059307
020 _a0824753852
020 _a9780824753856
035 _a(OCoLC)56686330
040 _aDLC
_cDLC
_dDLC
_dBD-DhEWU
_beng
041 _aeng
050 0 0 _aTA1750
_b.P37 2005
082 0 0 _a621.381045
_bPAP 2005
100 1 _aParker, Michael A.
_914348
245 1 0 _aPhysics of optoelectronics /
_cMichael A. Parker.
246 3 0 _aOptoelectronics
260 _aBoca Raton, FL :
_bTaylor & Francis,
_c2005.
300 _axvi, 742 p. :
_bill. ;
_c26 cm.
504 _aIncludes bibliographical references and index.
505 _tTOC
_aCh. 1. Introduction to semiconductor lasers -- Ch. 2. Introduction to laser dynamics -- Ch. 3. Classical electromagnetics and lasers -- Ch. 4. Mathematical foundations -- Ch. 5. Fundamentals of dynamics -- Ch. 6. Light -- Ch. 7. Matter-light interaction -- Ch. 8. Semiconductor emitters and detectors -- App. 1. Review of integrating factors -- App. 2. Rate and continuity equations -- App. 3. The group velocity -- App. 4. Review of probability theory and statistics -- App. 5. The Dirac delta function -- App. 6. Coordinate representations of the Schrodinger wave equation -- App. 7. Integrals with two time scales -- App. 8. The dipole approximation -- App. 9. The density operator and the Boltzmann distribution.
520 _aSummary: Focuses on the properties of optical fields and their interaction with matter. This work offers an introduction to lasers, LEDs, and the rate equations, and then describes the emission and detection processes. It summarizes and reviews the mathematical background of the quantum theory embodied in the Hilbert space.
526 _aEEE
590 _aTahur Ahmed
650 0 _aOptoelectronics
_xMaterials.
_914349
856 4 2 _3Publisher description
_uhttp://www.loc.gov/catdir/enhancements/fy0648/2004059307-d.html
856 4 2 _3WorldCat details
_uhttp://www.worldcat.org/title/physics-of-optoelectronics/oclc/56686330&referer=brief_results
856 4 0 _3E-book Fulltext
_uhttp://lib.ewubd.edu/ebook/5704
942 _2ddc
_cTEXT
_01
999 _c5704_50
_d5704
999 _c5704_50
_d5704_50