Papers by Dmitrii Kouznetsov

(updated 2015 January)

??. D.Kouznetsov. Corruption in Russian science. Preprint, 2013.

102. D.Kouznetsov. Nemtsov function and its iterates. 2016, in preparation.

101. D.Kouznetsov. Currency band and the approximations: Fitting of rouble with 3-parametric functions. Applied Mathematical Sciences, Vol. 9, 2015, no. 17, 831 - 838

100. D.Kouznetsov. Evaluation of holomorphic ackermanns. Applied and Computational Mathematics. Vol. 3, No. 6, 2014, pp. 307-314.

99. D.Kouznetsov. Super sin. Far East Journal of Mathematical Science, v.85, No.2, 2014, pages 219-238. preprint official locked version

98. D.Kouznetsov. Entire function with logarithmic asymptotic. Applied Mathematical Sciences, 2013, v.7, No.131, p.6527-6541.

97. D.Kouznetsov. Plundering the Russian Academy of Sciences. Notices of the American Mathematical Society, 2013, v.60, No.9, p. 1144.

96. D.Kouznetsov. Recovery of Properties of a Material from Transfer Function of a Bulk Sample (Theory). Advanced Science Letters, Volume 19, Number 3, March 2013, pp. 1035-1038(4) official version preprint

95. D.Kouznetsov. TORI axioms and the applications in physics. Journal of Modern Physics, 2013, v.4, p.1151-1156.

94. D.Kouznetsov. Superfunctions for amplifiers. Optical Review, July 2013, Volume 20, Issue 4, pp 321-326. official version (registration is required) single column version with links for online reading two column version for printing

93. D.Kouznetsov, M.Morinaga. Guiding of waves between absorbing walls. Journal of Modern Physics, 2012, v.3, No.7, p.553-560; doi:10.4236/jmp.2012.37076

92. H.Trappmann, D.Kouznetsov. Computation of the Two Regular Super-Exponentials to base exp(1/e). Mathematics of Computation. Math. Comp., v.81 (2012), p. 2207-2227. ISSN 1088-6842(e) ISSN 0025-5718(p) Journal version (the registration may be required) offprint (preprint)

91. H.Trappmann, D.Kouznetsov. Uniqueness of Analytic Abel Functions in Absence of a Real Fixed Point. Aequationes Mathematicae, v.81, p.65-76 (2011)

90. D.Kouznetsov. Place of science and physics in the human knowledge. Physics-Uspekhi, v.181, Trubune, p.1-9 (2010-2011) UFN official PDF Russian version, (VMU encoding) Russian PDF version English PDF version Russian HTML samizdat version English HTML samizdat version Mizugadro version

89. D.Kouznetsov. Support of non-traditional concepts. Far East Journal of Mechanical Engineering and Physics, 2010, v.1, Issue 1, p.1-6 (March 2010) or Preprint ILS, 2010.

88. D.Kouznetsov. Holomorphic extension of the logistic sequence. Moscow University Physics Bulletin, 2010, No.2, p.91-98. (Russian version: p.24-31) Official version, DOI 10.3103/S0027134910020049, reprint, English version, reprint, Russian version

87. D.Kouznetsov, H.Trappmann. Superfunctions and square root of factorial. Moscow University Physics Bulletin, 2010, v.65, No.1, p.6-12. (Russian version: p.8-14) Preview reprint, English version reprint, Russian version

86. D.Kouznetsov. Superexponential as special function. Vladikavkaz Mathematical Journal, 2010, v.12, issue 2, p.31-45. English version Preprint, English version Preprint, Russian version

85. D.Kouznetsov, H.Trappmann. Portrait of the four regular super-exponentials to base sqrt(2). Mathematics of Computation, 2010, v.79, p.1727-1756. online version. offprint reprint preprint

84. D.Kouznetsov. Analytic solution of F(z+1)=exp(F(z)) in complex z-plane. Mathematics of Computation, v.78 (2009), 1647-1670.

83. D.Kouznetsov, J.-F.Bisson, K.Ueda. Scaling laws of disk lasers. Optical materials, v.31, Issue 5,2009, Pages 754-759.

82. D.Kouznetsov. Storage of energy in disk-shaped laser materials. Research Letters in Physics, v.2008 (2008), Article ID 717414, (5 pages)

81. D.Kouznetsov, J.-F.Bisson. Role of the undoped cap in the scaling of a thin disk laser. JOSA B, Vol.25, No.3, p.338-345 (2008).
Preprint: "

80. J.-F.Bisson, D.Kouznetsov. Comments on "Study of the Complex Atomic Susceptibility of Erbium-Doped Fiber Amplifiers" Journal of Lightwave Technology, v. 26, No.4, p. 457-459 (2008)

79. D.Kouznetsov. Broadband laser materials and the McCumber relation. Chinese Optics Letters, 2007, v.5, p.S240-S242

78. J.-F.Bisson, D.Kouznetsov, K.Ueda, S.T.Fredrich-Thornton, K.Petermann, G.Huber. Switching of emissivity and photoconductivity in highly doped Yb3+:Y2O3 and Lu2O3 ceramics. -- Applied Physics Letters, 90, 201901 (2007) ; doi:10.1063/1.2739318

77. D.Kouznetsov. Efficient diode-pumped Yb:Gd2SiO5 laser: Comment. -- Applied Physics Letters, 90, 066101 (2007)
related presentation: Broadband laser materials and the McCumber relation. (COE symposium P111,y.2006,Dec.2, UEC, Tokyo).

76. D.Kouznetsov, J.-F.Bisson, J.Li, K.Ueda. Self-pulsing laser as oscillator Toda: approximation of the solution through elementary functions -- J. Phys. A: 40, 2107-2124 (2007). preprint slideshow

75. D.Kouznetsov, H.Oberst, A.Neumann, Y.Kuznetsova, K.Shimizu, J.-F.Bisson, K.Ueda and S.R.J.Brueck. Ridged atomic mirrors and atomic nanoscope. J. of Physics B, v. 39 (2006) p.1605-1623.

74. D.Kouznetsov, J.-F.Bisson, J.Dong, K.Ueda. Surface loss limit of the power scaling of a thin-disk laser. J.Opt.Soc.Am.B v.23,p. 1074-1082 (2006) (208k) (87k)
Relevant presentations:
How wide can be a disc laser? -- Frontiers in Optics, Tucson, Arizona, USA, 2005, October 16-20.
October 1-2, 2005, Tokyo. Frontiers of Laser and optical sciences:
D.Kouznetsov, J.-F.Bisson, J.Dong, A.Shirakawa, K.Ueda. LIMITS OF POWER SCALING OF LASERS. Absract: (34k);
Poster: (24k)
J.-F.Bisson, D.Kouznetsov, K.Ueda. Scaling Laws of deformation of active mirror lasers. Absract: (16k);

73. V.V.Voitsekhovich, D.Kouznetsov, V.G.Orlov. Simulating the phase fluctuations produced by many stars in the weak atmospheric turbulence limit - Astronomy and Astrophysics, v.444 No.2, p. 635-641 (2005) . ,".)

72. D.Kouznetsov, J.-F.Bisson, A.Shirakawa, K.Ueda. Limits of coherent addition of lasers: simple estimate. -- Optical Review, 2005, v.12, No.6 (2005) 445-447.

71. H.Oberst, D.Kouznetsov, K.Shimizu, J.Fujita, F.Shimizu. Fresnel diffraction mirror for atomic wave, Phys.Rev.Lett., v.94, 013203 (2005)."> slideshow, 540k slideshow, 464k (December 23, 2004, seminar of Optics Laboratory, Lebedev Physics Institute, Moscow; January 4, 2005, Center for High Technology Materials, Albuquerque, NM, USA)

70. D.Kouznetsov, H.Oberst. Scattering of waves at ridged mirrors. -- Phys. Rev. A, v.72, 013617 (2005)

69. D.Kouznetsov, H.Obrest. Reflection of waves from a ridged surface and the Zeno effect. -- Optical Review, 2005, v.12, No.5, p.363-366. (99k)

68. D.Kouznetsov, J.-F.Bisson, K.Takaichi, K.Ueda. High-power single mode solid state laser with short unstable cavity. -- JOSA B, v.22, Issue 8, p.1605-1619 (2005). article; Erratum. slideshow, part 1. slideshow, part 2. (presented December 22, 2004 at the seminar of Quantum Radiophysics, Lebedev Physics Institute, Moscow)

67. M.Morrell, T.Qiu, V.L.Temyanko, A.Schulzgen, A.Mafi, D.Kouznetsov,J.V.Moloney, T.Luo, S.Jiang, N.Peyghambarian. Short cladding-pumped Er/Yb phosphate fiber laser with 1.5 W output power. -- Appl. Phys. Lett,, v.85, No.14,2004, p.2721-2723.

66. A.Mafi, J.V.Moloney, D.Kouznetsov, A.Schulzgen, S.Jiang, T.Luo, N.Peyghambarian. A large-core compact high-power single-mode photonic crystal fiber laser. -- IEEE Photonics Technology Letters v.16, Issue 12, Dec.2004, p.2595-2597.

65. D.Kouznetsov, J.-F.Bisson, K.Takaichi, A.Shirakawa, M.Musha, H.Yoneda, K.Ueda. Single-mode, scalable, solid-state laser with short unstable cavity. -- Frontiers in optics 2004, FWH50. (See also #68)

64. D.Kouznetsov, J.V.Moloney. Boundary behavior of modes of a Dirichlet Laplacian -- J. of Modern Optics, 2004, v.51, No.13, p.1955-1962.

63. P.Kano, D.Kouznetsov, J.V.Moloney, M.Brio. Slab delivery of incoherent pump light to double-clad fiber amplifiers: Numerical simulations. -- IEEE Journal of Quantum Electronics, 2004, v.40, No.9, p.1301-1305.

62. D.Kouznetsov, J.V.Moloney. Slab delivery of incoherent pump light to double-clad fiber amplifiers: An analytic approach. -- IEEE Journal of Quantum Electronics, 2004, v.40, Issue 4, p.378-383.

61. D.Kouznetsov, J.V.Moloney. Highly efficient, high gain, short lenght optical amplifier/laser pumped by incoherent diode bar. -- Disclosure of University of Arizona, provisional patent #UA03-052.

60. D.Kouznetsov, J.V.Moloney. Highly efficient, high gain, short wavelenght and power scalable incoherent diode slab-pumped fiber laser amplifier. -- IEEE Journal of Quantum Electronics, v.39, No.11, p.1452-1461 (2003).
59. D.Kouznetsov, J.V.Moloney. Highly efficient, incoherent slab-pumped fiber amplifier/laser design. -- Proceedings of SPIE, Photonics West (25-31 January 2003), #4993-18.

58. D.Kouznetsov, J.V.Moloney. Efficiency of pump absorption in double-clad fibers amplifiers. 3. Calculation of modes -- J.O.S.A. B, V.19, No.6, p.1304-1309 (2002).

57. D.Kouznetsov, J.V.Moloney. Efficiency of pump in the double-clad fiber amplifiers. 2. Broken circular symmetry. -- J.O.S.A. B, V.19, No.6, p.1259-1263 (2002).

56. E.Ley-Koo, G.Villa-Torres, D.Kouznetsov. Aharonov-Bohm effect on Landau states in annular Cylindrical Boxes. -- Chinese Journal of Physics, v.40, No.2, p.130-141 (2002).

55. D.Kouznetsov, J.V.Moloney, E.M.Wright. Efficiency of pump in the double-clad fiber amplifiers. 1. Fiber with circular symmetry. -- J.O.S.A. B, June 2001, V.18, No.6, p.743-749.

54. N.C.Bruce, A.Garcia-Valenzuela, D.Kouznetsov. The lateral resolution limit for imaging periodic conducting surfaces in capacitive microscopy. Journal of Physics. D (Applied Physics), v.33, No.22 (Nov. 21, 2000), p. 2890-8.

53. A.Garcia-Valenzuela, N.C.Bruce, D.Kouznetsov. Perturbation theory for surface-profile imaging with a capacitive probe. -- Applied Physics Letters, v. 77, no.13 (Sept. 25, 2000) p. 2066-8.

52. N.C.Bruce, A.Garcia-Valenzuela, D.Kouznetsov. Rough-surface capacitor: approximations of the capacitance with elementary functions. -- Journal of Physics. D., v. 32 No.20 (Oct. 21 1999) p. 2692-702.

51. D. Kouznetsov, E. Ley-Koo, G. Villa-Torres. Aharonov-Bohm effect on the bound states of an electron inside an annular cylindrical box. -- Revista Mexicana de Fisica, 1999, Oct.,v.45, No.5, p.485-489.

50. R.Ortega, C.Roman, D.Kouznetsov. Second-order characterization of ultra-short pulses. J.Mod.Optics, 1999, Vol.46, No.15, p.2069-2077.

49. V.Voitsekhovich, D.Kouznetsov, V.Orlov, S.Cuevas. Method of random wavenumbers in simulation of anisoplanatic effects.
-- Applied Optics, 1999, v.38, No.19,(July 1 1999), p.3985-3992.
Online version of the Journal:

48. D.Kouznetsov, E.Gomez. Automodulation of optical pulses and limits of single-mode approximation.
Russian version: Optica i Spectroscopia, 1999, v.87, No.4, pp.648-656.
English version: Optics and Spectroscopy, 1999, v.87, No.4, pp.594-602.

47. D.Kouznetsov, A.Garcia-Valenzuela. Theory of backscattering of sound by phase-matched nonlinear interaction. -- J. Acous. Soc. Am., 1999, v.105 (3), March 1999, p.1584-1591. (214k) (160k)

46. V.V.Voitsekhovich, D.Kouznetsov. Rytov approximation: comments about the range of validity.
Russian version: Optica Atmosfery i Okeana, 1998, p.1165-1168.
English version: Atmospheric and Oceanic Optics, 1998, p.998-1000.

45. D.Kouznetsov, A.Garcia. Backscattering of sound by the resonant nonlinear interaction in gas media and its possible application to a remote sensing acoustical probe. Meteorologische Zeitschrift, 1998, N.F.7, p.237-240.

44. D.Kouznetsov, V.Voitsekhovich. Method of random wavevectors in simulation of correlated random processes. Meteorologische Zeitschrift, 1998, N.F.7, p.230-236.

43. A.Garcia, N.Bruce, D.Kouznetsov. An investigation into the applicability of perturbation techniques to solve the boundary integral equations for a parallel plate capacitor with a rough electrode. J. Phys. D.: Applied Phys., 1998, v.31,No.2 p.240-251.

42. D.Kouznetsov, A.Garces, F.Caviedes. Evolution of coherent state due to automodulation. -- video-tape, CI-UNAM, 1998, 15 min.

41. V.V.Voitsekhovich, D.Kouznetsov, D.Kh.Morozov. Density of turbulence-induced phase dislocations. Applied Optics, 1998, v.37, No.21, p.4525-4535. (330k)

40. D.Kouznetsov, D.Rohrlich. Quantum noise in the mapping of phase space.
40R. Russian version: Optika y Spectroscopia, 1997, v.82, N6, p.990-995
40E. English version: Optics and Spectroscopy, July 1997, v.83, N6, p.909-913. (English version) (Russian version)

39. D.Kouznetsov, V.Voitsekhovich, R. Ortega. Simulation of turbulence-induced phase and log-amplitude distortions.Applied Optics, 1997, v.36, N.2, p.464-469.

38. D.Kouznetsov, D.Rohrlich. Noise of a nonlinear quantum amplifier. Coherence and Quantum Optics VII, Eds: Eberly, Mandel, Wolf, Plenum Press, NY, 1996, p.631-632.

37. D.Yu.Kuznetsov. The transformation of the transverse structure of monochromatic light in the non-linear media. Ser.:Nonlinear and quantum phenomena in nonequilibrium media, Nova Science Publishers,Inc., 1993; Proceedings of the Lebedev Physics Institute, Academy of Sciences of Russia, v. 217, p.2-119.

36. D.Kouznetsov, R.Ortega, D.Rohrlich. Quantum limit of noise in nonlinear phase-invariant amplifiers. Phys.Rev.A, 1995, v.52, N.2, p.1665-1669.

35. D.Kouznetsov, R.Ortega. The Cummings-Tavis model as the nonlinear quantum amplifier. Quantum and Semiclassical Optics, 1995, v.7, p.517-528.

34. D.Kouznetsov, R.Ortega. Estimation of the density of dislocations due to atmosphere. Revista Mexicana de Fisica, 1995, v.41, N.4, p.563-571.

33. P.Loza, D.Kouznetsov, R.Ortega. On the temperature distribution in the uniform medium heated by the linear absorption of a Gaussian light beam. Applied Optics, 1994, v.33, No.18, p.3831-3836.
32. D.Kouznetsov, P.Lara. Use of the Poisson point to calibrate balls and rails. Instrumentation and Development, 20 June 1994, v.3, No.4, p.70-75.

31. T.S.Fetisova, D.Yu.Kouznetsov, V.A.Lipovetsky, A.A.Starobinsky, P.P.Olowin.
31R. Russ. ver.: Peculiarities in the spatial distribution of rich clusters of galaxies in the Northern and Southern galactic hemispheres. Pic'ma V astron. Zh., 1993, v.19, N.6, p.508-516.
31E. English version: Features of the spatial distribution of rich clusters of galaxies in the Northern and Southern galactic hemispheres. -- Astron. Lett., May-June 1993, v.19, N.3, p.198-202.

30. D. Kouznetsov. Measurement of redshifts by Scanner spectra. Preprint CI-UNAM, 1992. (the algorithm described was used for paper 31)

29. D.Yu.Kouznetsov. Quantum fluctuations do not annihilate the optical soliton.
-- Quantum Optics, 1992, v.4, p.221-227.

28. D. Yu. Kuznetsov. Quantum fluctuations do not destroy an optical soliton.
28R. Russian version: Pic'ma Exp.Teor.Phys., 1991, v.54, N.10, p.566-568.
28E. English version: J.E.T.P. Lett., 1991, v.54, N.10, p.568-570.

27. D.Yu.Kuznetsov. The decay of a 3-level atom and time-frequency oscillations. Journal of Modern Optics, 1991, v.38, N.1, p.65-68.

26. D. Yu. Kuznetsov. On the elementary process of decay of 3-levels systems.
26R. Russian version: Soviet Physics: Trudy FIAN SSSR, 1991, v.213, p.199-205.
26E. English version: Dynamics of elementary Atomic-Molecular Processes in Gas and Plasma, ed: V.A.Shcheglov, Nova Science Publishers, New York, 1996; p.329-338.

25. U.Kh.Kopvillem, D.Yu.Kuznetsov, G.A.Nikolaev. Echo-converter of light pulses.
25R. Russian version: Kratkie soobsheniya po fizike, 1991, N.7, p.9-10.
25E. English version: Lebedev Institute Reports, 1991, N.7, p.7-8.

24. D.Yu. Kuznetsov. Transformation of the spatial structure of the monochromatic radiation in nonlinear media. Trydy FIAN, 1991, v.211, p.102-160, in Russian. See #37 for the English version.

23. T.I.Kuznetsova, D.Yu.Kuznetsov. Theoretical analysis of image transferring through the nonlinear gain medium.
23R. Russian version: Trudy FIAN, 1991, v.206, p.101-115.
23E. English version: Mathematical Physics, Applied Mathematics and Information. ed: Yu.I.Koptev. Nova Science, NY, year and pages not confirmed.

22. T.S.Fetisova, D.Yu.Kuznetsov, A.A.Starobinsky. Angular anisotropy of the very rich cluster correlation function. SAO Communication, 1990, Iss.N 64, p.97-101.

21. D.Yu.Kuznetsov. The production of the squeezed vacuum by splitter. Optics Communications, 1990, v.78, N.5,6, p. 313-314.

20. V.A.Kamsky, D.Yu.Kuznetsov, V.A.Shcheglov. Energy losses in the cascade excitation of a 3-level system by a classical field as a function of the overlap of the pump wave trains.
20R. Russian version: Kratkie soobsheniya po fizike, 1990, N.11, p.21-24.
20E. Eng. ver.: Soviet Physics: Lebedev Institute Reports, 1990, N.11, p.24-27.

19. D.Yu.Kuznetsov. Obtaining of squeezing vacuum by beam splitter.
19R. Russian version: Kratkie soobsheniya po fizike, 1989, N.12, p.31-32.
19E. English version: Soviet Physics: Lebedev Institute Reports, 1989, N.12, p.

18. D.Yu.Kouznetsov, T.S.Fetisova. Arguments in favor of physical reality of the peculiar 200-300 Mpc scale in the distribution of the rich clusters of galaxies.
-- Preprint of the Space Research Institute of Academy of Science of USSR, 1988, No np. - 1370, p.1-12.

17. T.S.Fetisova, D.Yu.Kuznetsov, A.A.Starobinsky. Angular anisotropy of the very rich cluster correlation function. SAO Communication, 1988, v.64, p.97-101.

16. A.I.Kopylov, D.Yu.Kuznetsov, T.S.Fetisova, V.F.Shvartsman. Possible inhomogeneities in the Universe on scales of 200 - 300 Mpc from observation on the 6-m telescope. - J. Audouze et al.(eds.), Large structure of the Universe, IAU, 1988, p.129-137.

15. D.Yu.Kuznetsov, V.A.Lipovetski. The modeling as a method to analyze a correlation function for samples of rich clusters of galaxies
-- SAO Communication, 1987, v. 59, p.92-95.

14. A.I.Kopylov, D.Yu.Kuznetsov, T.S.Fetisova, V.F.Shvartsman. Possible inhomogeneities in the Universe on scales of 200 - 300 Mpc from observation on the 6-m telescope.
-- SAO Communications, 1987, v.59, p.39-46.

13. D.Yu.Kuznetsov. The influence of saturable amplification on the self-focusing instability of a planar wave.
13R. Russian version: Kratkie soobsheniya po fizike, 1987, N.6, p.15-17.
13E. Eng. ver.: Soviet Physics: Lebedev Institute Reports, 1987, N.6, p.20-24.

12. D.Yu.Kuznetsov. A Lagrangian formalism as applied to an active optical system.
12R. Russian version: Kratkie soobsheniya po fizike, 1987, N.1, p.24-26.
12E. Eng. ver.: Soviet Physics: Lebedev Institute Reports, 1987, N.1, p.40-44.

11. T.I.Kuznetsova, D.Yu.Kuznetsov. A phase retrieval algorithm based on analogy for optical image processing. Optics Communications, 1987, v.61, N.6, p.374-376.

10. T.I.Kuznetsova, D.Yu.Kuznetsov. On the restoring of a complex light field based on an optical processing of amplitude transparencies.
10R. Russian: Kratkie soobsheniya po fizike, 1986, N.2, p.12-14.
10E. English: Soviet Physics: Lebedev Institute Reports, 1986, N.2,p.13-16.

09. D.Yu.Kuznetsov. Measurement of a non-linear refraction constant by monochromatic spatially-modulated wave.
9R. Russian: Kratkie soobsheniya po fizike, 1986, N.2, p.9-11.
9E. English: Soviet Physics: Lebedev Institute Reports, 1986, N.2, p.9-12.

08. D.Yu.Kuznetsov. Interaction between a spatially modulated wave with a complex structure and a plane wave in a medium with non-linear refraction.
8R. Russian version: Kvantovaya Elektronika, 1986, v.13, N.3, p.630-632.
8E. Eng. ver.: Soviet J. of Quantum Electronics, 1986, v.16, N.3, p.408-410.

07. T.I.Kuznetsova, D.Yu.Kuznetsov. New method of active image formation. -- Patent USSR # 1385873, date of priority: 20.11.1985. (In Russian)

06. T.I.Kuznetsova, D.Yu.Kuznetsov. Use of active optical systems in the reconstruction of phase characteristics of optical field from amplitude characteristics.
6R. Russian version: Kvantovaya Elektronika, 1985, v.12, N.12, p.2507-2509.
6E. Eng. ver.: Soviet J. of Quantum Electronics, 1985, v.15, N.12, p.1661-1662.

05. T.I.Kuznetsova, D.Yu.Kuznetsov.
5R: Russian version: On the interaction between counterpropagating spatially modulated beams in a non-linear medium. -- Kvantovaya Elektronika, 1984, v.11, N.11, p.2210-2215.
5E: English version: Interaction between counterrunning spatially modulated beams in a non-linear medium.
-- Soviet J. of Quantum Electronics, 1984, v.14, N.11, p.1471-1474. Download the PDF file: ke14-1471.pdf.

04. T.I.Kuznetsova, D.Yu.Kuznetsov.
4R. Russian: Conditions for the appearance of a negative image in an optical signal amplifier. -- Kvantovaya Elektronika, 1984, v.11, N.11, p.2185-2190.
4E. English: Conditions for appearance of the negative image in an optical signal amplifier. -- Soviet J. of Quantum Electronics, 1984, v.14, N.11, p.1457-1460.

03. A.I.Kopylov, D.Yu.Kuznetsov, T.S.Fetisova, V.F.Shvartsman. The North Cone. II. The spatial correlation function of rich clusters of Galaxies inside the cone.
Astronomicheskij Zircular, 1984, N.1347, p.1-4. (In Russian)

02. T.I.Kuznetsova, D.Yu.Kuznetsov. Interaction of a spatially-modulated wave of complex structure and a plane wave in a quantum amplifier.
2R. Russian: Kvantovaya Elektronika, 1981, v.8, N.8, p.1808-1815.
2E. Englih: Soviet J. of Quantum Electronics, 1981, v.11, N.8, p.1090-1094.

01. M.Z.Iofa, D.Yu.Kuznetsov.
1R. Russian version: Asymptotical estimations in perturbation theory and structure of functional integrals. -- Teoreticheskaja i matematicheskaja fizika, 1981, v.47, N.2, p.163-176.
1E. English version: Asymptotical estimations in perturbation theory and the structure of functional integrals. -- Theoretical and Mathematical Physics, 1981, v.47, N.2, p.383-391.

00. Yu.Kuznetsova. Imaging interferometric microscopy - resolution to the limit of frequency space. Dissertation for the Degree Doctor of philosophy, Optical science; August, 2007.

0A. H.Kneser. "Reelle analytische Loesungen der Gleichung f(f(x))=ex und verwandter Funktionalgleichungen". Journal fur die Reine und Angewandte Mathematik 187 (1950): 56-67. Main page Old Home Page ILS homepage