Physics of semiconductor laser devices by G. H. B. Thompson

Cover of: Physics of semiconductor laser devices | G. H. B. Thompson

Published by J. Wiley in Chichester [Eng.], New York .

Written in English

Read online

Subjects:

  • Semiconductor lasers.

Edition Notes

Book details

StatementG. H. B. Thompson.
Classifications
LC ClassificationsTA1700 .T45
The Physical Object
Paginationxxv, 549 p. :
Number of Pages549
ID Numbers
Open LibraryOL4425555M
ISBN 100471276855
LC Control Number79041217

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Semiconductor-Laser Physics discusses the underlying physics and operational principles of semiconductor lasers. The optical and electronic properties of the semiconductor medium are analyzed in detail, including quantum confinement and gain engineering effects.

JOHN C. MORRISON, in Modern Physics, Light-emitting diodes and semiconductor lasers typically have gratings or etched ridges in which light is reflected or transmitted many times at the interface between different materials.

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(George Horace Brooke). Physics of semiconductor laser devices. Chichester [Eng.] ; New York: J. Wiley. Laser diodes. Emission absorption and modal gain Principle of operation of a laser diode Longitudinal modes in the laser cavity Waveguide modes The confinement factor The rate equations for a laser diode Threshold current of multi quantum well laser Large signal switching of a.

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Thompson. Nick Holonyak Jr, Reviewer. University of. A laser diode, (LD), injection laser diode (ILD), or diode laser is a semiconductor device similar to a light-emitting diode in which a diode pumped directly with electrical current can create lasing conditions at the diode's junction.: 3 Laser diodes can directly convert electrical energy into light.

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The semiconductor laser has become es. operation of semiconductor lasers. Laser Output Power: We also need expressions for the light coming out of the laser. Photons leave the cavity in two ways; they can either escape from the end facets (or mirrors) or they can get absorbed by the cavity. Only the photons that leave the cavity from the mirrors constitute useful output.

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The term "laser" is an acronym for Light Amplification by Stimulated Emission of Radiation. Laser light is usually spatially coherent, which means that the light either is emitted in a narrow, low-divergence beam, or can be converted into one with the help of optical components such.

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Details on edge emitting lasers can be found in various textbooks [1–4] and special issues of the IEEE Journal of Quantum Electronics [5–6] whereas on novel vertical cavity lasers there is not much review work [7] that one has to refer to various technical papers.

"Semiconductor Devices - Physics and Technology" S M Sze (Wiley) Edition, pages; Edition pages (both hardback and paperback) "Semiconductor-Laser Physics", pages. Summary This chapter contains sections titled: Introduction Radiative Transitions Light‐Emitting Diode (LED) Laser Physics Laser Operating Characteristics Specialty Lasers LEDs and Lasers - Physics of Semiconductor Devices - Wiley Online Library.A semiconductor device is an electronic component that exploits the electronic properties of semiconductor material, principally silicon, germanium, and gallium arsenide, as well as organic nductor devices have replaced vacuum tubes in most applications.

They use electrical conduction in the solid state rather than the gaseous state or thermionic emission in a vacuum.

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