Theory and design of double-chirped mirrors
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Theory and design of double-chirped mirrors by Nicolai Matuschek

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Published by Hartung-Gorre in Konstanz .
Written in English

Subjects:

  • Lasers -- Mirrors -- Design and construction.,
  • Mirrors -- Design and construction.

Book details:

Edition Notes

StatementNicolai Matuschek.
SeriesSeries in quantum electronics -- v. 13
Classifications
LC ClassificationsQC385.2.D47 M38 1999
The Physical Object
Paginationxxv, 144 p. :
Number of Pages144
ID Numbers
Open LibraryOL19235712M
ISBN 103896495011

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Abstract. This paper is concerned with theoretical study on optoelectronics physics to design dielectric double-chirped mirror (DCM) to achieve high reflectivity and dispersion compensation over a broad bandwidth. Analytic expressions for reflectivity, group delay and group delay dispersion are used. Theory of Double-Chirped Mirrors. Nicolai Matuschek, Franz X. K¨artner, and Ursula Keller,Member, IEEE. Abstract— A theory of double-chirped mirrors (DCM’s) for dispersion compensation in ultrashort pulse laser sources is pre- sented. We describe the multilayer interference coating by exact coupled-mode equations. Design and fabrication of double-chirped mirrors F. X. K ¨ artner, N. Matuschek, T. Schibli, and U. Keller Ultrafast Laser Physics Laboratory, Institute of Quantum Electronics, Swiss Federal. We present a theory for the analytical design of double-chirped mirrors (DCMs) with a controlled dispersion characteristic. Theoretical designs are derived from an analytical chirp law. These are then used as excellent starting designs for later computer refinement.

Analytical Design of Double-Chirped Mirrors with Custom-Tailored Dispersion Characteristics Nicolai Matuschek, Franz X. K¨artner, and Ursula Keller, Member, IEEE Abstract— We present a theory for the analytical design of double-chirped mirrors with special dispersion characteristics. A simple analytical equation takes an arbitrarily desired group. A theory of double-chirped mirrors (DCMs) for dispersion compensation in ultrashort pulse laser sources is presented. We describe the multilayer interference coating by exact coupled-mode equations. Theory of double-chirped mirrors. Abstract: A theory of double-chirped mirrors (DCMs) for dispersion compensation in ultrashort pulse laser sources is presented. We describe the multilayer interference coating by exact coupled-mode equations. We present an analytic design method for the reproducible fabrication of double-chirped mirrors to achieve simultaneously a high reflectivity and dispersion compensation over an extended bandwidth compared with those of standard quarter-wave Bragg mirrors. The mirrors are fabricated by ion beam sputtering. Use of these mirrors in a Ti:sapphire laser leads to fs pulses directly out of the.

This book presents a nonmathematical explanation of the theory and design of PV solar cells and systems. It is written to address several audiences: engineers and scientists who desire anintroduction to the field of photovoltaics, students interestedinPV scienceandtechnology, andend users who require a greater understanding of theory to. The design of standard dielectric double chirped mirror includes four sections as shown in Fig. 1: Fig. 1 Standard dielectric double chirped mirror [2]. Fig. 1 depicts a simplified diagram showing an embodiment of the double chirped mirror []. CiteSeerX - Document Details (Isaac Councill, Lee Giles, Pradeep Teregowda): Abstract — A theory of double-chirped mirrors (DCM’s) for dispersion compensation in ultrashort pulse laser sources is pre-sented. We describe the multilayer interference coating by exact coupled-mode equations. Abstract: In this paper, the theory of uniform DFT, parallel, quadrature mirror filter (QMF) banks is developed. The QMF equations, i.e., equations that need to be satisfied for exact reconstruction of the input signal, are derived. The concept of decimated filters is introduced, and structures for both analysis and synthesis banks are derived using this concept.