List of Publications of Dr. Yakov M. Strelniker

Books and Chapters in Books

1. Y. M. Strelniker, S. Havlin, and A. Bunde,
Fractals and Percolation,
Chapter in Encyclopedia of Complexity and Systems Science, Editor-in-Chief, Dr. Robert Meyers, Springer (2009).
[reprint (PDF)]

[flyer (PDF)]

2. A. P. Vinogradov, A. V. Dorofeenko, A. M. Merzlikin, Y. M. Strelniker, A. A. Lisyansky, A. B. Granovsky, and D. J. Bergman,
Exchange Enhancement of the Faraday and other magneto-optical effects in magnetophotonic crystals,
Chapter in a book Magnetophotonics: From Theory to Applications, Editor-in-Chief, M. Inoue, M. Levy and A. Baryshev, Springer (2013), XIII, 228 p.
http://www.springer.com/978-3-642-35508-0
http://www.springer.com/materials/optical+%26+electronic+materials/book/978-3-642-35508-0 [reprint (PDF)]





Original Papers in Professional Journals with Refereeng

3. Ya. M. Strelniker
Inelastic Scattering of Electrons in Molecular Crystals Accompanied by Excitation of Surface Excitons Fiz. Tverd. Tela 25, 2230-2232 (1983) [Sov. Phys. Solid State 25, 1287-1288 (1983)]. [Abstract]

3. V. A. Dyakov and Ya. M. Strelniker
On Inelastic Electron Scattering Accompanied by Creation of Surface Excitons in Crystals with Two Molecules in a Unit Cell
Ukr. Fiz. Zh. 30, 1550-1555 (1985). [Abstract]



4. Ya. M. Strelniker
Inelastic Scattering of Low-Energy Electrons by Creation
of Bulk Excitons in Molecular Crystals
Fiz. Tverd. Tela, 28, 2582-2584 (1986) [Sov. Phys. Solid State 28, 1450-1451 (1986)].

[Abstract]

5. O. S. Zinets and Ya. M. Strelniker
Inelastic Scattering of Slow Electrons Leading to Excitation of Excitons in Layer Semiconductors
Fiz. Tverd. Tela 30, 294-296 (1988) [Sov. Phys. Solid State 30, 169-170 (1988)]. [Abstract]



6.Ya. M. Strelniker
Theory of Inelastic Low-Energy Electron Scattering with Generation of Surface and
Bulk Excitons in Molecular Crystals
Physica Status Solidi (b) 149, 603-613 (1988). [reprint (PDF)]

7. Ya. M. Strelniker and V. I. Sugakov,
Theory of Inelastic Low-Energy Electron Scattering with Generation of Surface and
Manifestation of Surface Excitons in Spectra of Molecular Crystals with Forbidden Dipole Transition
Vinnitsa Medical Institute
Deposited by Ukr. NIINTI 27.10.88, No 2757 - Uk.88 (1988). (In Russian) pp. 20.

8. O. S. Zinets and Ya. M. Strelniker
Inelastic Scattering of Electrons with Generation of Electron Transitions in Surface Potential Well
Vinnitsa Medical Institute
Deposited by Ukr. NIINTI 05.12.88 No 2944 -Uk.88 (1988). (In Russian) pp. 20.

9. Ya. M. Strelniker and O. S. Zinets
Inelastic Scattering of Low-Energy Electrons Localized in Surface Potential Wells
Physica Status Solidi (b) 161, 597-602 (1990). [reprint (PDF)]

10. A. K. Sarychev, D. J. Bergman, and Y. M. Strelniker
High Field Magneto-Transport in a Percolating Medium
Europhys. Lett. 21, 851-857 (1993). [reprint (PDF)]

11. A. K. Sarychev, D. J. Bergman, and Y. M. Strelniker
Theory of High Field Magneto-Transport in a Percolating Medium
Phys. Rev. B 48, 3145-3155 (1993).
[reprint (PDF)]

12. D. J. Bergman and Y. M. Strelniker
Calculation of Strong Field Magnetoresistance in Some Periodic Composites
Phys. Rev. B 49, 16256-16268 (1994).
[reprint (PDF)]

13. Y. M. Strelniker and D. J. Bergman
Theory of Magneto-Transport in a Composite Medium with Periodic Microstructure
for Arbitrarily Magnetic Fields
Phys. Rev. B 50, 14001-14015 (1994).
[reprint (PDF)]

14. D. J. Bergman and Y. M. Strelniker
Strong Field Magnetoresistance Anisotropy in Thin
Composite Films with a Periodic Microstructure
Phys. Rev. B 51, 13845-13848 (1995). [reprint (PDF)]

15. Y. M. Strelniker and D. J. Bergman
Interference of Current Distortion Patterns and Magnetoresistance
Anisotropy in a Composite with Periodic Microstructure
Phys. Rev. B 53, 11051-11059 (1996). [reprint (PDF)]

16. M. Tornow, D. Weiss, K. v. Klitzing, K. Eberl, D. J. Bergman, and Y. M. Strelniker
Anisotropic Magnetoresistance of a Classical Antidot Array
Phys. Rev. Lett. 77, 147-150 (1996). [reprint (PDF)]

17. D. J. Bergman, Y. M. Strelniker, and A. K. Sarychev
Recent Advances in Strong Field Magneto-Transport in a Composite Medium
Physica A 241, 278-283 (1997). [reprint (PDF)]

18. D. J. Bergman and Y. M. Strelniker
Magneto-Transport in a Periodic Composite Medium:
New Phenomena in a Classical Physics Context
Superlattices and Microstructures, 23, 547-557 (1998). [reprint (PDF)]

19. D. J. Bergman and Y. M. Strelniker
Anisotropic ac Electrical Permittivity of
a Periodic Metal-Dielectric Composite Film in a Strong Magnetic Field
Phys. Rev. Lett. 80, 857-860 (1998). [reprint (PDF)]

20. D. J. Bergman and Y. M. Strelniker
Duality Transformation in a Three Dimensional Conducting Medium with
Two Dimensional Heterogeneity
and an In-Plane Magnetic Field
Phys. Rev. Lett. 80, 3356-3359 (1998). [reprint (PDF)]

21.D. J. Bergman and Y. M. Strelniker
Duality Transformation and a New Kind of Phase Transition in the Magnetoresistive Response
of a Composite Conductorn with a 2D Microstructure
Proceedings of the 9th International Symposium on Continuum Models and Discrete Systems, (CMDS9),
Istanbul, Turkey, June 29 - July 3, 1998 Ed. by E. Inan and K. Markov, World Scientific, pp. 110-119.

22. Y. M. Strelniker and D. J. Bergman
Induced Anisotropic Magneto-Resistance in a Composite Medium with a Periodic Microstructure:
A new Effect in Classical Transport
Proceedings of the Ninth International Symposium on Continuum Models and Discrete Systems, (CMDS9)
Istanbul, Turkey, June 29 - July 3, 1998, Ed. by E. Inan and K. Markov, World Scientific, pp. 247-259.

23. Y. M. Strelniker and D. J. Bergman
High Field Magneto-Induced Anisotropy of ac Electrical Permittivity
in a Periodic Metal-Dielectric Composite Film
To appear in Proc. of Physical Phenomena at High Magnetic Fields-III (PPHMFL-III),
Tallahassee, Florida, USA, October 24-27, 1998.

24. D. J. Bergman and Y. M. Strelniker
Phase-Transition-Like Behavior of Strong Field Classical Magnetotransport
in a Composite Medium with a Periodic Columnar Microstructures
To appear in Proc. of Physical Phenomena at High Magnetic Fields-III (PPHMF-III),
Tallahassee, Florida, USA, October 24-27, 1998.

25. V. N. Piskovoi and Y. M. Strelniker
(M,N)-Exponential Model in the Theory of Excitons
Semiconductor Physics, Quantum Electronics & Optoelectronics 1, 18-32 (1998). [reprint (PDF)]

26. D. J. Bergman and Y. M. Strelniker
Strong-Field Magnetotransport of Conducting Composites
with a Columnar Microstructure
Phys. Rev. B 59, 2180-2198 (1999). [reprint (PDF)]

27. D. J. Bergman and Y. M. Strelniker
``Phase Transition'' in Strong Field Classical Magnetotransport in a Composite Medium
with a Periodic Columnar Microstructure
Europhys. Lett. 45, 605-611 (1999). [reprint (ps)]

28. Y. M. Strelniker and D. J. Bergman
Optical transmission through metal films with a
subwavelength hole array in the presence
of a magnetic field
Phys. Rev. B 59, R12763-R12766 (1999). [reprint (PDF)]

29. Y. M. Strelniker and D. J. Bergman
Magneto-Optical Properties of Metal-Dielectric Composites
with a Periodic Microstructure
Eur. Phys. J AP 7, 19-24 (1999). [reprint (PDF)]

30. D. J. Bergman and Y. M. Strelniker
Magneto-Transport and Magneto-optics in Composite Media with a Two-Dimensional Microstructure
Physica B 279, 1-4 (2000). [reprint (PDF)]

31. D. J. Bergman and Y. M. Strelniker
Linear and Nonlinear Optical Properties of Metal - Dielectric Composites with a Periodic Microstructure
Proceedings of ICEAA 99, pp. 39-42 (1999).

32. Y. M. Strelniker and D. J. Bergman
Anisotropic Optical Transmission through Highly Doped Semiconducting Films with a Sub-Wavelength Hole Array in the Presence of a Magnetic Field
Proceedings of ICEAA 99, pp. 43-46 (1999).

33. D. J. Bergman and Y. M. Strelniker
Magnetotransport in conducting composite films with a disordered
columnar microstructure and an in-plane magnetic field
Phys. Rev. B 60, 13016-13027 (1999). [reprint (PDF)]

34. L. G. Fel, Y. M. Strelniker, and D. J. Bergman
Enhancement of Power Factor in a Thermoelectric Composite with a Periodic Microstructure
Proceedings MRS Spring Meeting, Vol. 626, Z6.5, San Francisco, April 2000.

35. Y. M. Strelniker and D. J. Bergman
Exact Relations between Magneto-resistivity Tensor Components of Conducting Composites with a Columnar Microstructure
Phys. Rev. B 61, 6288-6297 (2000). [reprint (PDF)]

36. D. J. Bergman and Y. M. Strelniker
Magnetoresistance of Normal Conductor/Insulator/Perfect Conductor Composites with a Columnar Microstructure
Phys. Rev. B 62 , 14313-14325 (2000). [reprint (PDF)]

37. G. J. Strijkers, F. Y. Yang, D. H. Reich, C. L. Chien, P. C. Searson, Y. M. Strelniker, and D. J. Bergman
Magnetoresistance Anisotropy of a Bi Antidot Array
IEEE T MAGN 37, 2067-2069 (2001).
[reprint (PDF)]


38. P. Bhattacharyya, Y. M. Strelniker, S. Havlin, and D. ben-Avraham,
Most Probable Paths in Homogeneous and Disordered Lattices at Finite Temperature
Physica A 297, 401-410 (2001). [reprint (PDF)]

39. E. Mogilko, Y. M. Strelniker, L. Burlachkov, Y. Schlesinger, and S. Havlin,
Anisotropic Characteristics of the Energy Dissipation in Bi(2223) Ceramics and Tapes in Weak Magnetic Fields
Physica C 960-962, 372-376 (2002). [reprint (PDF)]

40. V. N. Piskovoi, E. F. Venger, and Ya. M. Strelniker,
Theory of Polaritons in Bounded Spatially Dispersive Media
Phys. Rev. B 66 , 115402 (2002). [reprint (PDF)]


41. Y. M. Strelniker and D. J. Bergman
3D Generalization of Keller's Theorem for a Conducting Composite with Columnar Microstructure and Magnetic Field of Arbitrary Orientation
in Physics of Semiconductors (ICPS26), Edinburgh, 2002, Institute of Physics Conference Series No. 171, edited by A. R. Long and J. H. Davies (Institute of Physics, Bristol, 2003).

42. L. Burlachkov, E. Mogilko, Y. Schlesinger, Y. M. Strelniker, and S. Havlin,
The resistive-transition anisotropy in superconducting granular ceramics: interplay of effective medium approximation and percolation
Phys. Rev. B 67 , 104509-1--104509-9 (2003). [reprint (PDF)]

43. E. Mogilko, L. Burlachkov, Y. M. Strelniker, Y. Schlesinger, and S. Havlin,
Estimation of the Josephson Critical Current of a Single Grain: Percolation Model of the Resistive Transition,
Physica B 329--333, 1500--1501 (2003). [reprint (PDF)]

44. Y. M. Strelniker and D. J. Bergman,
Exact Relations between Macroscopic Moduli of Composite Media in Three-Dimensions: Application to Magnetoconductivity and Magneto-optics of 3D Composites with Related Columnar Microstructures
Phys. Rev. B 67 , 184416-1-1--184416-9 (2003). [reprint (PDF)]

45. Y. M. Strelniker, D. J. Bergman, S. Havlin, E. Mogilko, L. Burlachkov, and Y. Schlesinger,
Effective Conductivity Tensor of Ordered and Disordered Composite Media: Exact Relations and Numerical Simulations,
Physica A 330 , 291-294 (2003). [reprint (PDF)]

46. Y. M. Strelniker and D. J. Bergman,
Induced anisotropic magneto-resistance in a composite medium with a periodic microstructure: numerical results and exact relations
Journal of Magnetism and Magnetic Materials, 272-276, E1453-E1454 (2004).
46.les/sdarticle2004.pdf"> [reprint (PDF)]

47. Y. M. Strelniker and D. J. Bergman,
Exact Relations between Macroscopic Moduli of Composite Media in n Dimensions.
in Continuum Models and Discrete Systems, pp. 143--149. Proceedings of the Nato ARW, (CMDS10), Shoresh, Israel, from 30 June to 4 July 2003 Series: NATO Science Series II: Mathematics, Physics and Chemistry, Vol. 158. Ed. by D. J. Bergman and E. Inan. 2004, 426 p.

48. Y. M. Strelniker and D. J. Bergman,
Magnetoresistance in Composites with periodic Microstructures: Numerical Results and Exact Relations, pp. 695--696.
Int. Conference on Composites/Nano Engineering ICCE-10 July 20-26, New Orleans, USA (2003).

49. Y. M. Strelniker, R. Berkovits, A. Frydman, and S. Havlin,
Percolation Transition in a Two-dimensional System of Ni Granular Ferromagnets,
Phys. Rev. E 69, R065105-1---R065105-4 (2004).
[reprint (PDF)]


50. D. J. Bergman, X. Li, and Y. M. Strelniker,
Macroscopic Conductivity Tensor of a 3D Composite with a 1D or 2D Microstructure,
Phys. Rev. B 71, 035120 (2005).
[reprint (PDF)]


51. Y. M. Strelniker, S. Havlin, R. Berkovits, and A. Frydman,
Resistance distribution in the hopping percolation model,
Phys. Rev. E 72, 016121-1---016121-5 (2005).

[reprint (PDF)]


and cond-mat/0506179

52. Y. M. Strelniker, S. Havlin, R. Berkovits, and A. Frydman,
Hopping Percolation Transition in Granular Ferromagnets,
J. Appl. Phys. 99 , 08P905 (2006).

[reprint (PDF)]



53. Y. M. Strelniker, D. Stroud, and A. O. Voznesenskaya,
Magneto-optical Features and Extraordinary Light Transmission Through Perforated Metal Films Filled with Liquid Crystals,
J. Appl. Phys. 99 , 08H702 (2006).

[reprint (PDF)]


54. Y. M. Strelniker,
Effective Resistance of the Systems with Hopping Conductivities in a Case of Many Neighbors
Phys. Rev. B 73 , 153407 (2006).
[reprint (PDF)]


55. Y. M. Strelniker, D. Stroud, and A. O. Voznesenskaya,
Control of Extraordinary Light Transmission Through Perforated Metal Films Using Liquid Crystals,
European Physical Journal B 52 , 1-7 (2006).
[reprint (PDF)]


56. Y. M. Strelniker, S. Havlin, and A. Frydman,
Effective Medium Approximation for Hopping Conductivity and Josephson Junctions,
Physica B, 394, 368-371 (2007).
[reprint (PDF)]


57. Y. M. Strelniker,
Theory of Optical Transmission through Elliptical Nanohole Arrays,
Physical Review B 76 , 085409-1---085409-6 (2007)
arXiv: cond-mat/0702032v1 1 Febr 2007
[reprint (PDF)]


58. Y. M. Strelniker, A. Frydman, and S. Havlin
Percolation model for the superconductor-insulator transition in granular film,
Physical Review B 76 , 224528-1---224528-7 (2007) [reprint (PDF)]


59. Y. M. Strelniker and D. J. Bergman
Transmittance and transparency of subwavelength-perforated conducting films in the presence of a magnetic field,
Physical Review B 77, 205113-1---205113-5 (2008) [reprint (PDF)]




60. D. J. Bergman, L. Xiangting, and Y. M. Strelniker,
Exact results for the general case of a macroscopic conductivity tensor of a 3D composite with a 2D microstructure,
in Continuum Models and Discrete Systems CMDS11,
Proceedings of the International Symposium
held in Paris 30 July --- 3 August 2007, eds. Dominique Jeulin and Samuel Forest, Mines Paris, ParisTech Les Presses, pp. 413-415, 2008. [reprint (PDF)]



61. Y.M. Strelniker, D.J. Bergman, and D.G. Stroud,
Control of extraordinary transmission of light through nanohole arrays in metal films,
Proceedings of the First International Congress on Advanced Electromagnetic Materials in Microwaves and Optics (Metamaterials 2007),
Rome, Italy, October 22-26, 2007, pp. 564-567
- [reprint (PDF)]


62. Y. M. Strelniker and D. J. Bergman
Controlling the Optical Transparency of Meta- Materials with a Strong DC Magnetic Field,
- art. no. 70331D Proc. of the SPIE Conference on Plasmonics - Nanoimaging, Nanofabrication, and their Application IV,
AUG 10-14, 2008 San Diego,
CA Source: PLASMONICS: NANOIMAGING, NANOFABRICA- TION, AND THEIR APPLICATIONS IV Book Series: PROCEEDINGS OF THE SOCIETY OF PHOTO-OPTICAL INSTRUMENTATION ENGINEERS (SPIE) Volume: 7033 Pages: D331-D331 Published: 2008 [reprint (PDF)]


63. Y. M. Strelniker and D. J. Bergman
Manipulating the transmittance of a nano-perforated conducting film by a magnetic field,
Proceedings of the 2nd International Congress on Advanced Electromagnetic Materials in Microwaves and Optics (Metamaterials 2008), Pamplona, Spain, September 23-26 (2008) [reprint (PDF)]


64. Y. M. Strelniker and D. J. Bergman, Y. Fleger, M. Rosenbluh, D. G. Stroud, and A. O. Voznesenskaya,
Manipulating the optical transparency of anisotropic meta-materials with magnetic field and liquid crystals: Influence of the nano-structures shape,
Proceedings of SPIE - The International Society for Optical Engineering 7395, art. no. 73951H San-Diego, USA, August 3-6 (2009) [reprint (PDF)]

65. Y. M. Strelniker
Intensive running completely removes a migraine attack,
MEDICAL HYPOTHESES 72, 608 (2009). [reprint (PDF)]


66. Y. M. Strelniker and D.J. Bergman,
Numerical and analytic results for the macroscopic magneto-transport of three-dimensional periodic composites,
JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS 321, 814-817 (2009). [reprint (PDF)]


67. D. J. Bergman, Y. M. Strelniker, and R. Magier,
Strong-field magneto-transport in a composite electrical conductor: Exact asymptotic results,
Physica B 405 , 3037-3041 (2010).
[reprint (PDF)]


68. Y. M. Strelniker, D. J. Bergman, Y. Fleger, M. Rosenbluh, A. O. Voznesenskaya, A. P. Vinogradov, A. N. Lagarkov,
Manipulating the transparency and other optical properties of metamaterials by applying a magnetic field,
Physica B 405, 2938-2942 (2010).
[reprint (PDF)]


69. A.M. Merzlikin, A.P. Vinogradov, A.N. Lagarkov, M. Levy, D.J. Bergman, Y.M. Strelniker,
Peculiarities of Tamm states formed in degenerate photonic band gaps,
Physica B 405, 2986-2989 (2010).
[reprint (PDF)]


70. D. J. Bergman and Y. M. Strelniker
Exact asymptotics for the strong-field macroscopic magnetotransport of a composite medium,
Physical Review B 82, 174422 (19 pages) (2010). [reprint (PDF)]


71. Y. Fleger, M. Rosenbluh, Y. M. Strelniker, and D. J. Bergman, and A. N. Lagarkov
Controlling the optical spectra of gold nano-islands by changing the aspect ratio and the inter-island distance: theory and experiment,
Eur. Phys. J. B 81, 85-93 (2011). [reprint (PDF)]


72. D. J. Bergman, and Y. M. Strelniker,
Controlling the optical spectra of gold nano-islands by changing the aspect ratio and the inter-islands distance: Theory and Experiment,
In Proc. of the SPIE Conference entitled
Metallic Nanostructures and Their Optical Properties, in the SPIE Meeting on Optics and Photonics, held at the San Diego Convention Center, San Diego, CA, 1 - 5 August 2010. [reprint (PDF)]



73. Y. Fleger, M. Rosenbluh, Y. M. Strelniker, and D. J. Bergman, and A. N. Lagarkov
Controlling the light transmission through periodic and random metamaterials by applying a magnetic field and by changing the nano-structures shapes,
ICONO 2010: International Conference on Coherent and Nonlinear Optics (Proceedings Volume) Proceedings of SPIE Volume: 7993, p. 79931X-1--79931X-13 Editor(s): Claude Fabre; Victor Zadkov; Konstantin Drabovich Date: 6 January 2011 ISBN: 9780819485663 [reprint (PDF)]



74. Y. M. Strelniker and D. J. Bergman
Strong-field macroscopic magneto-transport in a periodic composite medium: Some new results,
Journal of Physics: Conference Series 319, 012002 (2011). [reprint (PDF)]


75. D. J. Bergman and Y. M. Strelniker
Strong-field magneto-transport in a two-constituent columnar composite medium where the constituents have comparable resistivity tensors,
Physical Review B 86 , 024414 (2012). (14 pages) [reprint (PDF)]



76. D. G. Baranov A. P. Vinogradov, A. A. Lisyansky, Y. M. Strelniker, D.J. Bergman,
Magneto-optical spaser,
Optics Letters 38, 2002-2004 (2013). [reprint (PDF)]

77. Y. M. Strelniker and D.J. Bergman,
Magneto-induced anisotropy of Voigt effect and other magneto-optical phenomena in ordered metal-dielectric metamaterials,
SPIE Proceedings, Volume 8806, Proc. SPIE 8806, Metamaterials: Fundamentals and Applications VI, 88061A (September 11, 2013); doi:10.1117/12.2024052 [reprint (PDF)]

78. Y. M. Strelniker, D.J. Bergman, and A.O. Voznesenskaya,
Strong angular anisotropy of Voigt effect and other magneto-optical phenomena in ordered metal-dielectric metamaterials,
Edited by: Motygin, O.V.; Kiselev, A.P.; Goray, L.I.; et al. Conference: International Conference Days on Diffraction 2014 Location: St. Petersburg, Russia Date: 26-30 May 2014 Sponsor(s): IEEE Russia (Northwest) Sect. AP/ED/MTT Joint Chapt.

79. Y. M. Strelniker and D.J. Bergman,
Strong angular magneto-induced anisotropy of Voigt effect in metal-dielectric metamaterials with periodic nanostructures,
Phys. Rev. B 89, 125312 (2014). (12 pages) [reprint (PDF)]

SPIE

80. Y. M. Strelniker and D.J. Bergman,
Magneto-optical response of a periodic metallic nano-structure,
in Plasmonics: Metallic Nanostructures and Their Optical Properties XIII, Allan D. Boardman; Din Ping Tsai, Editors, Proceedings of SPIE Vol. 9547 (SPIE, Bellingham, WA 2015), 954705.

81. Tony Yamin , Yakov M. Strelniker and Amos Sharoni,
High resolution Hall measurements across the VO2 metal-insulator transition reveal impact of spatial phase separation,
Scientific Reports 6, Article number: 19496 (2016)
doi:10.1038/srep19496 http://www.nature.com/articles/srep19496 (also arXiv.org > cond-mat > arXiv:1510.05414 http://arxiv.org/abs/1510.05414) [reprint (PDF)]



















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