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Self-consistent theory of random lasing in the time-domain

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Języki publikacji
EN
Abstrakty
EN
Random lasers are unique systems where lasing occurs due to repetitive scattering in a disordered nanostructure. Previous descriptions of random lasing are numerous, however a full time-dependent theory that describes the introduction of gain directly from first principles is lacking in the literature. This paper will present an analytic self-consistent time-dependent theory of random lasing that contains the results from the well-known steady-state ab initio laser theory. This theory can also describe a number of temporal phenomena that have been observed in previous experiments and facilitates the incorporation of these devices into their envisioned practical applications.
Słowa kluczowe
Czasopismo
Rocznik
Strony
647--659
Opis fizyczny
Bibliogr. 20 poz.
Twórcy
autor
  • Physics Department, Portland State University, 1825 SW Broadway St., Portland, OR 97201, United States
  • School of Business, Adams State University, 208 Edgemont Blvd., Alamosa, CO 81102, United States
Bibliografia
  • [1] LETOKHOV V.S., Generation of light by a scattering medium with negative resonance absorption, Soviet Physics – JETP 26(4), 1968, pp. 835–840.
  • [2] HUI CAO, Review on latest developments in random lasers with coherent feedback, Journal of Physics A: Mathematical and Theoretical 38(49), 2005, pp. 10497–10535.
  • [3] WIERSMA D., The physics and applications of random lasers, Nature Physics 4, 2008, pp. 359–367.
  • [4] NOGINOV M.A., Feedback in random lasers, [In] Tutorials in Complex Photonic Media, [Eds.] M.A. Noginov, G. Dewar, M.W. McCall, N.I. Zheludev, SPIE Press Book, 2009.
  • [5] BURIN, A. L., RATNER M.A., CAO H., CHANG R.P.H., Model for a random laser, Physical Review Letters 87(21), 2001, article ID 215503.
  • [6] XUNYA JIANG, SOUKOULIS C.M., Time dependent theory for random lasers, Physical Review Letters 85(1), 2000, p. 70.
  • [7] XUNYA JIANG, SOUKOULIS C.M., Localized random lasing modes and a path for observing localization, Physical Review E 65(2), 2002, article ID 025601(R).
  • [8] SOUKOULIS C.M., XUNYA JIANG, XU J.Y., CAO H., Dynamic response and relaxation oscillations in random lasers, Physical Review B 65(4), 2002, article ID 041103(R).
  • [9] DEYCH L.I., Effects of spatial nonuniformity on laser dynamics, Physical Review Letters 95(4), 2005, article ID 043902.
  • [10] TÜRECI H.E., STONE A.D., LI GE, Theory of the spatial structure of nonlinear lasing modes, Physical Review A 76(1), 2007, article ID 013813.
  • [11] TÜRECI H.E., STONE A.D., LI GE, ROTTER S., TANDY R.J., Ab initio self-consistent laser theory and random lasers, Nonlinearity 22(1), 2009, article ID C1.
  • [12] LI GE, CHONG Y.D., STONE A.D., Steady-state ab initio laser theory: generalizations and analytic results, Physical Review A 82(6), 2010, article ID 063824.
  • [13] LI GE, Steady-state Ab Initio Laser Theory and its Applications in Random and Complex Media, Ph.D. Thesis, Yale University, 2010.
  • [14] CERJAN A., YIDONG CHONG, LI GE, STONE A.D., Steady-state ab initio laser theory for N-level lasers, Optics Express 20(1), 2012, pp. 474–488.
  • [15] MARKUSHEV V.M., RYZHKOV M.V., BRISKINA C.M., Characteristic properties of ZnO random laser pumped by nanosecond pulses, Applied Physics B 84(1–2), 2006, pp. 333–337.
  • [16] HAKEN H., Light: Laser Dynamics, Vol. 2, North-Holland Publishing Company, 1985.
  • [17] ARECCHI F., BONIFACIO R., Theory of optical maser amplifiers, IEEE Journal of Quantum Electronics 1(4), 1965, pp. 169–178.
  • [18] ANDREASEN J., ASATRYAN A.A., BOTTEN L.C., BYRNE M.A., CAO H., GE L., LABONTÉ L., SEBBAH P., STONE A.D., TÜRECI H.E., VANNESTE C., Modes of random lasers, Advances in Optics and Photonics 3(1), 2011, pp. 88–127.
  • [19] HABERMAN R., Applied Partial Differential Equations with Fourier Series and Boundary Value Problems, 4th Ed., Pearson Prentice Hall, Upper Saddle River, NJ, pp. 157–221.
  • [20] VANNESTE C., SEBBAH P., Selective excitation of localized modes in active random media, Physical Review Letters 87(18), 2001, article ID 183903.
Uwagi
PL
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-d28d6307-422f-436a-bcb2-40151974e61f
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