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Books on the topic 'Multi Quantum well lasers'

Author: Grafiati
Published: 4 June 2021
Last updated: 8 February 2022

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1

Sindile, Pia. Probing the dynamic behaviour of ridge waveguide multi-quantum well distributed feedback lasers: Fundamental picosecond studies of chirp-under large-signal modulation. Ottawa: National Library of Canada, 2001.

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2

Akhtar, Adnan Ibne. Well coupling effects in quantum well lasers. Ottawa: National Library of Canada, 1995.

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3

Physics of strained quantum well lasers. Boston: Kluwer Academic, 1998.

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4

Aversa, Claudio. Theoretical gain of quantum well lasers. Ottawa: National Library of Canada = Bibliothèque nationale du Canada, 1991.

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5

Loehr, John P. Physics of Strained Quantum Well Lasers. Boston, MA: Springer US, 1998. http://dx.doi.org/10.1007/978-1-4615-5673-2.

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6

Pfeiffer, Michael. Industrial-strength simulation of quantum-well semiconductor lasers. Konstanz: Hartung-Gorre, 2004.

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7

Witzigmann, Bernd. Design and implementation of a three-dimensional edge emitting quantum well laser simulator / Bernd Witzigmann. Konstanz: Hartung-Gorre, 2000.

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8

1936-, Zory Peter S., ed. Quantum well lasers. Boston: Academic Press, 1993.

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9

Loehr, John P. Physics of Strained Quantum Well Lasers. Springer, 2014.

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10

W, Tomm Jens, and Jiménez J, eds. Quantum-well laser array packaging: Nanoscale packaging techniques. New York: McGraw-Hill, 2007.

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11

W, Tomm Jens, and Jiménez J, eds. Quantum-well laser array packaging: Nanoscale packaging techniques. New York: Mcgraw-Hill, 2006.

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12

Time-Resolved Photoluminescence of InAs/GaInSb Quantum Well Lasers. Storming Media, 2000.

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13

Tomm, Jens W., and Juan Jiménez. Quantum-Well Laser Array Packaging (Mcgraw-Hill Nanoscience and Technology Series). McGraw-Hill Professional, 2006.

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14

Tomm, Jens W., and Juan Jiménez. Quantum-Well Laser Array Packaging (Mcgraw-Hill Nanoscience and Technology Series). McGraw-Hill Professional, 2006.

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15

Carrier Dynamics In Mid-Infrared Quantum Well Lasers Using Time-Resolved Photoluminescence. Storming Media, 2002.

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16

Building Blocks for Time-Resolved Laser Emission in Mid-Infrared Quantum Well Lasers. Storming Media, 2003.

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17

Kuntze, Scott B. Peering down the quantum well: The inner workings of diode lasers revealed through voltage nanoscopy. 2004.

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18

William, Carlson Nils, and United States. National Aeronautics and Space Administration., eds. Monolithic arrays of grating-surface-emitting diode lasers and quantum well modulators for optical communications. Princeton, NJ: David Sarnoff Research Center, 1990.

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19

Vučković, Jelena. Quantum optics and cavity QED with quantum dots in photonic crystals. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780198768609.003.0008.

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Quantum dots in optical nanocavities are interesting as a test-bed for fundamental studies of light–matter interaction (cavity quantum electrodynamics, QED), as well as an integrated platform for information processing. As a result of the strong field localization inside sub-cubic-wavelength volumes, these dots enable very large emitter–field interaction strengths. In addition to their use in the study of new regimes of cavity QED, they can also be employed to build devices for quantum information processing, such as ultrafast quantum gates, non-classical light sources, and spin–photon interfaces. Beside quantum information systems, many classical information processing devices, such as lasers and modulators, benefit greatly from the enhanced light–matter interaction in such structures. This chapter gives an introduction to quantum dots, photonic crystal resonators, cavity QED, and quantum optics on this platform, as well as possible device applications.
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20

Billing, Gert D., ed. The Quantum Classical Theory. Oxford University Press, 2003. http://dx.doi.org/10.1093/oso/9780195146196.001.0001.

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Over a period of fifty years, the quantum-classical or semi-classical theories have been among the most popular for calculations of rates and cross sections for many dynamical processes: energy transfer, chemical reactions, photodissociation, surface dynamics, reactions in clusters and solutions, etc. These processes are important in the simulation of kinetics of processes in plasma chemistry, chemical reactors, chemical or gas lasers, atmospheric and interstellar chemistry, as well as various industrial processes. This book gives an overview of quantum-classical methods that are currently used for a theoretical description of these molecular processes. It gives the theoretical background for the derivation of the theories from first principles. Enough details are provided to allow numerical implementation of the methods. The book gives the necessary background for understanding the approximations behind the methods and the working schemes for treating energy transfer processes from diatomic to polyatomic molecules, reactions at surfaces, non-adiabatic processes, and chemical reactions.
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21

Morawetz, Klaus. Transient Time Period. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198797241.003.0019.

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The formation of correlations at short- time scales is considered. A universal response function is found which allows describing the formation of collective modes in plasmas created by femto-second lasers as well as the formation of occupations in cold atomic optical lattices. Quantum quench and sudden switching of interactions are possible to describe by such Levinson-type kinetic equations on the transient time regime. On larger time scales it is shown that non-Markovian–Levnson equations double count correlations and the extended quasiparticle picture to distinguish between the reduced density matrix and quasiparticle distribution solve this shortcoming. The problem of initial correlations and how they can be incorporated into the Green’s function technique to result into modified kinetic equations is solved and a systematic expansion is suggested.
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