User:Domitori/refs

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The list of references becomes long and dificult to handle if one peace. I cut it to four parts below (and the empty reference, sample, as fifth at the bottom):

I still keep the list below, but I do not update it. If some article already (and still) refer to the text below, please correct the link to a specific section above. dima 05:40, 31 March 2007 (UTC).

Contents

[edit] How I make reference

If you know how to do it better, tell me. I 'edit' this section, and copy and past and fill the form below

[1]

At the bottom of article, I type < references / > .

In partucular, most of my contribution is based in the papers listed below. If you feal that I missed to cite some important paper, incert the cite by yourself, or just send me a copy of the paper.

[edit] References about Disk lasers and active mirrors

[2] , [3] , [4] , [5]

[edit] Refenrences about Fiber lasers

[6] , [7] , [8] , [9] , [10] , [11]

[edit] Quantum Mechanics

[12] , [13] , [14] , [15] , [16]

[1]

[edit] Others

[edit] References

  1. ^ a b c A; C (0). "[www.ils.uec.ac.jp/~dima T]". J 0: 0. 
  2. ^ A.Abate; L.Lund, D.Brown, S.Jacobs, S.Refermat, J.Kelly, M.Gavin, J.Waldbillig, and O.Lewis (1981). "Active mirror: a large-aperture medium-repetition rate Nd:glass amplifier". Applied Optics 1837: 351–361. 
  3. ^ K. Ueda; N. Uehara (1993). "Laser-diode-pumped solid state lasers for gravitational wave antenna". Proceedings of SPIE 1837: 336–345. 
  4. ^ A. Giesen; H. Hügel, A. Voss, K. Wittig, U. Brauch and H. Opower (1994). "Scalable concept for diode-pumped high-power solid-state lasers". Applied Physics B 58 (5): 365–372. 
  5. ^ D. Kouznetsov; J.-F. Bisson, J. Dong, and K. Ueda (2006). "Surface loss limit of the power scaling of a thin-disk laser". JOSAB 23 (6): 1074-1082. ; [1]
  6. ^ Leproux, P.; S. Fevrier, V. Doya, P. Roy, and D. Pagnoux (2003). "Modeling and optimization of double-clad fiber amplifiers using chaotic propagation of pump". Optical Fiber Technology 7 (4): 324-339. 
  7. ^ Kouznetsov, D.; Moloney, J.V. (2003). "Highly efficient, high-gain, short-length, and power-scalable incoherent diode slab-pumped fiber amplifier/laser". IEEE Journal of Quantum Electronics 39 (11): 1452–1461. doi:10.1109/JQE.2003.818311. 
  8. ^ Kouznetsov, D.; Moloney, J.V. (2003). "Efficiency of pump absorption in double-clad fiber amplifiers. 2: Broken circular symmetry". JOSAB 39 (6): 1259-1263. 
  9. ^ A. Liu; K. Ueda (1996). "The absorption characteristics of circular, offset, and rectangular double-clad fibers". Optics Communications 132: 511–518. 
  10. ^ A.Shirakawa; T.Satou, T. Sekiguchi and K. Ueda (2002). "Coherent addition of fiber lasers by use of a fiber coupler". Optics Express 10: 1167-1172. 
  11. ^ D.Kouznetsov; J.-F. Bisson. A. Shirakawa, K.Ueda (2005). "Limits of Coherent Addition of Lasers: Simple Estimate". Optical Review 12 (6): 445-447. 
  12. ^ B.Poelsema; G.Comsa (1989). "Scattering of thermal energy atoms for disordered surfaces". Springer-Verlag: viii,108. 
  13. ^ E.Hulpke (editor) (1992). "Helium Atom Scattering from Surfaces". Springer Series in Surface Sciences: 323. 
  14. ^ J. J. Berkhout; O. J. Luiten, I. D. Setija, T. W. Hijmans, T. Mizusaki, and J. T. M. Walraven (1989). "Quantum reflection: Focusing of hydrogen atoms with a concave mirror". PRL 63: 1689-1692. 
  15. ^ Bodil Holst; William Allison (1997). "An atom-focusing mirror". Nature 390: 244. 
  16. ^ R.B.Doak; R.E.Grisenti, S.Rehbein, G.Schmahl, J.P.Toennies2, and Ch. Wöll (1999). "Towards Realization of an Atomic de Broglie Microscope: Helium Atom Focusing Using Fresnel Zone Plates". PRL 83: 4229-4232. 
  17. ^ M.H.Hooshmand, (2006). "Ultra power and ultra exponential functions". Integral Transforms and Special Functions 17 (8): 549-558. doi:10.1080/10652460500422247.