Publications

PUBLISHED WORKS

Books

1. Yu. Dahnovsky, T. Leggett, Yu. Ovchnnikov, M. Semenov, Directed dissipative tunneling, Nauka, Moscow, 2011.

2. Yu.I. Dahnovsky, V.D. Krevchik, V.Ya. Krivnov, M.B. Semenov, and K. Yamamoto, 2005, Transfer Processes in Low-Dimensional Systems (UT Research Institute Press, Tokyo), pp. 680.

3. Yu. Dahnovsky, V. D. Krevchik, A. A. Ovchinnikov, M. B. Semenov, and A. K. Agringazin, 2003, The principles of driven modulation of low-dimensional structures, UNC DO (a publishing company at Moscow State University), Moscow, 500 pp. (Textbook, 571 pages)

4. Yu. Dahnovsky, A. A. Ovchinnikov, V. Ch. Zhukovsky, M. B. Semenov, A. I. Ternov, V. D. Krevchik, A. K. Agringazin, 2003. Introduction to modern mesoscopic phenomena, Penza State University Publishing, Penza

Journal Articles:

1. A. Zadorozhnyi, R. Rivlis, and Yu. Dahnovsky. Andreev bound States in magnetic topological insulator Josephson junction, Physica B, Condensed Matter, 713, 417296.(2025).
2. Raz Rivlis,∗, Andrei Zadorozhnyi and Yuri Dahnovsky, Giant and negative magnetoresistances in conical magnets in the nonequilibrium Boltzmann equation approach, J. Phys.: Condens. Matter 37, 015801 (2025)

1. Dinesh Baral, Rabindra Basnet, William R. Scougale, Raz Q. Rivlis, Dinesh Upreti, Yuri Dahnovsky, Jin Hu, and TeYu Chien, Possible coexistence of magnetism and paramagnetic singularity in lightly Fe-doped WTe2, Phys. Rev. B 109, 245419 (2024).
2. Zhuang En Fu, Piumi. Samarawickrama, John Ackerman, Yanglin Zhu, Zhiqiang Mao, Kenji Watanabe, Takashi Taniguchi, Wenyong Wang, Yuri Dahnovsky, Mingzhong Wu, TeYu Chien, Jinke Tang, Allan H. MacDonald, Hua Chen. and Jifa Tian, Tunneling current-controlled spin states in few-layer van der Waals magnet, Nature Communications (2024) 15, 3630.
3. A. Zadorozhnyi and Yu. Dahnovsky, Topological Hall effect in three-dimensional centrosymmetric magnetic skyrmion crystals, Phys. Rev. B 107, 054436 (2023).
4. A. Zadorozhnyi, Raz Rivlis, and Yu. Dahnovsky, Giant magnetoresistance in helimagnets, Phys. Rev. B 108, 014405 (2023).
5. A. Zadorozhnyi and Yu. Dahnovsky, Anomalous Hall effect in conical helimagnetic crystals, Phys. Rev. B 107, 035202 (2023).
6. A. Zadorozhnyi and Yu. Dahnovsky,Topological Hall effect in three-dimensional centrosymmetric magnetic skyrmion crystals, Phys. Rev. B 107, 054436 (2023).
7. A. Zadorozhnyi and Yu, Dahnovsky, The theory of transport in helical spin-structure crystals, Journal of Physics: Condensed Matter, 51, 015701 (2022).
8. Andrei Zadorozhnyi and Yuri Dahnovsky, "Giant resonances in topological spin Hall effect due to electron-skyrmion scattering in two-dimensional Rashba spin-orbit ferromagnets", Phys. Rev. B 105 014445, 014445 (2022)
9. A. Zadorozhnyi and Yu, Dahnovsky, Threshold behaviors of direct and Hall currents in topological spin-Hall effect, J. Magnetism and Magnetic Materials, 54, 168492, (2022),
10. A. Zadorozhnyi and Yu, Dahnovsky, “Magic” Orientation Angles to Suppress Spin-Driven Hall Currents in Anisotropic 2D Materials with an Ideal Skyrmion Gas, J. Phys. Chem. C , 25, 20, 11035–11042 (2021).
11. A. Zadorozhnyi and Yu, Dahnovsky, Temperature effects in spin-dependent Hall currents in an ideal skyrmion gas, Phys. Rev B 103, 184418 (2021).
12. Dinesh Baral , Zhuangen Fu , Andrei S. Zadorozhnyi , Rabindra Dulal , Aaron Wang , Narendra Shrestha , Uppalaiah Erugu , Jinke Tang , Yuri Dahnovsky, Jifa Tian and TeYu Chien, Small energy gap revealed in CrBr3 by scanning tunneling spectroscopy, Phys.Chem. Chem. Phys. (Advanced article) Phys. Chem. Chem. Phys., 2021,23, 3179-3179 DOI: 10.1039/D0CP05633B
13. A. Zadorozhnyi and Yu. Dahnovsky, Spin-dependent Seebeck and Nernst effects in an ideal skyrmion gas, J. Magnetism and Magnetic Materials, 518, 167367 (2021) (2020).
14. Andrei Zadorozhnyi and Yuri Dahnovsky , Spin filtering and spin separation in 2D materials by topological spin Hall effect, 2020 J. Phys.: Condens. Matter 32 405803.
15. Pimachev, A., Nielsen, R. D., Karanovich, A., Proshchenko, V., & Dahnovsky, Y. (2019). Physical Properties of Conjugated Nanopore Materials. In Computational Photocatalysis: Modeling of Photophysics and Photochemistry at Interfaces (pp. 293-308). American Chemical Society.
16. Aaron Wang, Gaurab Rimal, Yuri Dahnovsky, Jinke Tang and TeYu Chien, Large electronic wave function extension of the oxygen vacancies on EuO1−x surface, Mater. Res. Express 6 (2019) 116408.
17. Dinesh Baral, Zhuangen Fu, Andrei S. Zadorozhnyi, Rabindra Dulal, Aaron Wang, Narendra Shrestha, Uppalaiah Erugu, Jinke Tang, Yuri Dahnovsky, Jifa Tian, & TeYu Chien, Multi-peak Electronic Density of States in CrBr3 Revealed by Scanning Tunneling Microscopy, (2019), arXiv:1909.00074v1.
18. Artem Pimachev, Robert D. Nielsen, Anri Karanovich and Yuri Dahnovsky, Ferromagnetism in 2D organic iron hemoglobin crystals based on nitrogenated conjugated micropore materials, Phys. Chem. Chem. Phys. (2019) 21, 25820-25825 DOI: 10.1039/c9cp04509k.
19. Artem Pimachev, and Yuri Dahnovsky, Molecular tunneling in large tubes of 3D nitrogenated micropore materials, Journal of Applied Physics 124, 194303 (2018); doi: 10.1063/1.5045194.
20. A. Pimachev, A. Proshchenko,Y. Dahnovsky, “Tunable bandgap in halogen 2D nitrogenated microporous materials, Journ. Appl. Phys. 122, 115305 (2017).
21. Artem Pimachev, Gaurab Rimal, Robert D. Nielsen, Jinke Tang and Yuri Dahnovsky, Room temperature d0 ferromagnetism in PbS films: nonuniform distribution of Pb vacancies, Phys. Chem. Chem. Phys., 2018, 20, 29804, DOI: 10.1039/c8cp04882g.
22. Artem Pimachev, Vitaly Proshchenko and Yuri Dahnovsky, Dramatic drop of d0 ferromagnetism with ZnO nanocrystal size in vacuum and air, Jour. Phys. Chem. C 121 (35), 19401 - 19406 (2017).
23. Vitaly Proshchenko and Yuri Dahnovsky, Zn vacancy ferromagnetism in ZnS nanocrystals, Journal of Magnetism and Magnetic Materials, Volume 443, 9-12 (2017).
24. Artem Pimachev , Vitaly Proshchenko, Sabit Horoz, Omer Sahinb, Yuri Dahnovsky, The effect of spatial distribution of Zn vacancies in ZnS quantum dots on optical absorption spectra, Solid State Communications, 257, pp. 47 -49 (2017).
25. V. Proshchenko and Yuri Dahnovsky, Weak d0 ferromagnetism: Zn vacancy condensation in ZnS nanocrystals, J. Phys.: Condens. Matter. 29, 025803 (20017).
26. Andrew J. Yost, Artem Pimachev, Chun-Chih Ho, Seth B. Darling, Leeyih Wang, Wei-Fang Su, Yuri Dahnovsky, and TeYu Chien, Coexistence of Two Electronic Nano-Phases on a CH3NH3PbI3−xClx Surface Observed in STM Measurements, ACS Appl. Mater. Interfaces, 8 (42), pp 29110–29116 (2016).
27. A. Pimachev, U. Poudyal, V. Proshchenko, W. Wang and Yu. Dahnovsky, Large enhancement in photocurrent by Mn doping in CdSe/ZTO quantum dot sensitized solar cells, Phys. Chem. Chem. Phys., 18, 26771-26776, (2016) DOI: 10.1039/c6cp04263e.
28. G. Rimal, A. K. Pimachev, A. J. Yost, U. Poudyal, S. Maloney, W. Wang, TeYu Chien, Yu. Dahnovsky, and J. Tang, Giant photocurrent enhancement by transition metal doping in quantum dot sensitized solar cells, Appl. Phys. Lett. 119, 103901 (2016).
29. F. V. Kusmartsev, V. D. Krevchik, M. B. Semenov, D. O. Filatov, A. M. Shorokhov, A. A. Bukharev, Yu. I. Dahnovsky, A. V. Nikolaev, N. A. Pyataev, R. B. Zaitsev, P. V. Krevcjk, I. A Egorov, K. Yamamoto, A. K. Aringazin, Phonon assisted resonant tunneling and its phonon control. JETP Lett. 104 (6), 392-397 (2016) (Russ. JETP Lett., 104, 406-412 (2016))
30. Vitaly Proshchenko, Anri Karanovich, and Yuri Dahnovsky, Surface-Bulk Model for d0 Ferromagnetism in ZnS Quantum Dots, J. Phys. Chem. C, 120, 11253-11261 (2016).
31. Vitaly Proshchenko , Sabit Horoz , Jinke Tang , and Yuri Dahnovsky, Room temperature d0 ferromagnetism in ZnS nanocrystals, Journal of Applied Physics 119 , 223901 (2016).
32. V. Proshchenko and Yu. Dahnovsky, Optical Spectra of Nano-Ferro- and Antiferro-Magnets, Phys. Chem. Chem. Phys. 17, 26828 (2015).
33. V. Proshchenko and Yu. Dahnovsky, Magnetic effects in Mn-doped CdSe nanocrystals, Phys. Status Solidi B 252, 2275 2279 (2015).
34. A. Pimachev and Yu. Dahnovsky, Optical and Magnetic Properties of PbS Nanocrystals Doped by Manganese Impurities, J. Phys. Chem. C 119, 16941 1946 (2015).
35. V. Proshchenko and Yu. Dahnovsky, Long-lived emission in Mn doped CdS, ZnS, and ZnSe diluted magnetic semiconductor quantum dots, Chem. Phys. 461, 58 (2015).
36. V. Proshchenko and Yu. Dahnovsky, Transition metal doped semiconductor quantum dots: Tunable emission, in: Photoinduced Processes at Surfaces and in nanomaterials, Ed. D. Kilin, ACS Symposium Series, ACS, , Washington DC) Ch. 5, p. 118 (2015)
37. A. Pimachev and Yu. Dahnovsky, Electronic structure calculations of PbS quantum rods and tubes, J. Appl. Phys. 115, 043705 (2014).
38. V. Proshchenko and Yu. Dahnovsky, Tunable luminescence in Cdn-xMnxSen quantum dots: Theoretical study, J. Phys. Chem. C 118, 28314–28321 (2014)
39. V. Proshchenko and Yu. Dahnovsky, Size-dependent density of states and optical spectra of CdSE quantum rods and tubes, Chem. Phys. Lett. 595-596, 250-255 (2014).
40. V. Proshchenko and Yu. Dahnovsky, Spectroscopic and electronic structure properties of CdSe nanocrystals: spheres and cubes, Phys. Chem. Chem. Phys., 16, 7555 (2014).
41. A. Pimachev and Yu. Dahnovsky, Electronic structure calculations of PbS quantum rods and tubes, J. Appl. Phys. 115, 043705 (2014)
42. A. Pimachev, G. Kolesov, J. Chen, W. Wang, and Yu. Dahnovsky, Internal relaxation in dye sensitized solar cells based on Zn2SnO4 nanostructures, J. Chem. Phys. 137, 244704- (2012).
43. G. Kolesov and Yu. Dahnovsky, Correlated electron dynamics in quantum-dot sensitized solar cell: Kadanoff-Baym versus Markovian approach, Phys. Rev. B 85, 241309(R) (2012).
44. W. D. Wheeler, B. A. Parkinson, Yu. Dahnovsky, The adsorption energy and diffusion of a pentacene molecule on a gold surface, J. Chem. Phys. 2011, 135, 024702
45. Yu. Dahnovsky, Quantum correlated electron dynamics in a quantum-dot-semiconductor solar cell: Keldysh function approach, Phys. Rev. B 83, 165306 (2011).
46. G. Kolesov and Yu. Dahnovsky, Quantum correlation effects in electron dynamics in molecular wires and solar cells: The nonequilibrium Green's function approach, Adv. Quant. Chem. 61, 261 (2011).
47. A. Pimachev, G. Kolesov, J. Chen, W. Wang, and Yu. Dahnovsky, Internal relaxation in dye sensitized solar cells based on Zn2SnO4 nanostructures, J. Chem. Phys. 137, 244704- (2012).
48. W. D. Wheeler and Yu. Dahnovsky, Molecular transistors with perpendicular gate field architecture: A strong gate field effect, J. Phys. Chem. C 113, 1088-1092 (2009). http://pubs.acs.org/doi/pdfplus/10.1021/jp808631z
49. Yu. Dahnovsky, Electron-electron correlations in molecular tunnel junctions: A diagrammatic approach, Phys. Rev. B 80, No. 16, 165305 (2009).
50. V. Ch. Zhukovsky, Yu. I Dakhnovskii, O. N. Gorshkov, V. D. Krevchik, M. B. Semenov, Yu. G. Smirnov, E. V. Chuprunov, V. A. Rudin, N. Yu. Skiittskaya, P. V. Krevchik, D. O. Filatov, D. A. Antonov, M. A. Lapshina, and K Yamamoto, Observed two-dimensional tunneling bifurcations in external electric field, Moscow University Physics Bulletin, 2009, Vol. 64, No. 5, pp. 475–479..
51. W. D. Wheeler and Yu. Dahnovsky, Molecular transistors with perpendicular gate field architecture: A strong gate field effect, J. Phys. Chem. C 113, 13769-13774 (2009).
52. W. D. Wheeler and Yu. Dahnovsky, Molecular transistors based on BDT-type molecular bridges, J. Chem. Phys. 2008, 129, 164112 (2008).
53. W. Wheeler and Yu. Dahnovsky, Quantum Interference in Molecular Wire: Electron Propagator calculations, J. Phys. Chem. C 112, 13769-74 (2008).
54. A. Kletsov and Yu. Dahnovsky, Ab initio electron propagator calculations in molecular transport junctions: Predictions of negative differential resistance, Journ. Chem. Phys. 127, 144716 (2007).
55. M. R. Sterling, O. Dolgunitcheva, V. G. Zakrzewski, Yu. Dahnovsky, and J. V. Ortiz, Correlated, Ab Initio electron propagators in the study of molecular wires: Application to a single molecular bridge placed between two model leads, Intern. Journ. Quant. Chem. 107, 329 ( 2007).
56. A. Kletsov and Yu. Dahnovsky, Surface Green functions in molecular transport junctions: Generalization to interacting electrons in the leads, Phys. Rev. B 76, 035304 (2007).
57. Yu. Dahnovsky, Ab initio electron propagators in molecules with strong electron-electron interaction. II. Electron Green’s function, Journ. Chem. Phys. 127, 014104 (2007).
58. Yu. Dahnovsky, Ab initio electron propagators in molecules with strong electron-electron interaction. I. Phonon averages, Journ. Chem. Phys. 126, 234111 (2007).
59. A. Kletsov, Yu. Dahnovsky, and J. V. Ortiz, Surface Green function calculations in the infinite number of principal layer approach: A non-recursive scheme, J. Chem. Phys. 126, 134105 (2007).
60. V. Ch. Zhukovskii , Yu. I. Dakhnovskii , V. D. Krevchikc , M. B. Semenov , V. G. Maiorovc , E. I. Kudryashov , E. V. Shcherbakova , and K. Yamamoto, Study of Dissipative Tunneling Controllability in Systems of Interacting Quantum Molecules, Moscow University Physics Bulletin, 2007, Vol. 62, No. 2, pp. 73–77.
61. O. Dolgounitcheva, V. G. Zakrzewski, A. Kletsov, M. R. Sterling , Yu. Dahnovsky and J. V. Ortiz, Correlated, Ab Initio Calculations in the Study of Molecular Wires, Int. Journ. Quant. Chem. 106, 3387 – 3392 (2006).
62. Yu. Dahnovsky, Modulating electron transfer: Modified spin-boson approach, Phys. Rev. B 73, 144303 (2006).
63. Yu. Dahnovsky and J. V. Ortiz, Ab Initio electron propagator theory of molecular wires: II. Multiorbital terminal description, Journ. Chem. Phys. 124, 144114 (2006).
64. Yu. Dahnovsky, V. G. Zakrzewski, A. Kletsov, and J. V. Ortiz, Ab Initio electron propagator theory of molecular wires: I. Formalism, Journ. Chem. Phys. 123, 184711 (2005).
65. J.T. York, R.D. Coalson, and Yu.I. Dahnovsky, Control of electron current by double-driven structures using pulsed laser fields, in Transfer Processes in Low-Dimensional Systems, Ed. Yu.I. Dahnovsky, V.D. Krevchik, V.Ya. Krivnov, M.B. Semenov, and K. Yamamoto (UT Research Institute Press, Tokyo, 2005) p. I-272.
66. J.T. York, R.D. Coalson, and Yu.I. Dahnovsky, Control of electron current by double-driven structures using pulsed laser fields, in Transfer Processes in Low-Dimensional Systems, Ed. Yu.I. Dahnovsky, V.D. Krevchik, V.Ya. Krivnov, M.B. Semenov, and K. Yamamoto (UT Research Institute Press, Tokyo, 2005) p. I-272.
67. Yuri Dahnovsky, Electron tunneling dynamics in anharmonic bath, in Transfer Processes in Low-Dimensional Systems, Ed. Yu.I. Dahnovsky, V.D. Krevchik, V.Ya. Krivnov, M.B. Semenov, and K. Yamamoto (UT Research Institute Press, Tokyo, 2005) p. I-337.
68. Yu.I. Dahnovsky, V.D. Krevchik, E.I. Kudryashov, V.G. Mayorov, M.B. Semenov, V.Ch. Zhukovsky, and K. Yamamoto, One - dimensional quantum dissipative tunneling in structures with quantum dots, in Transfer Processes in Low-Dimensional Systems, Ed. Yu.I. Dahnovsky, V.D. Krevchik, V.Ya. Krivnov, M.B. Semenov, and K. Yamamoto (UT Research Institute Press, Tokyo, 2005) 2005, p. I-346.
69. Yu.I. Dahnovsky and M.B. Semenov, Tunneling of two interacting particles : transition between separate and cooperative tunneling, in Transfer Processes in Low-Dimensional Systems, Ed. Yu.I. Dahnovsky, V.D. Krevchik, V.Ya. Krivnov, M.B. Semenov, and K. Yamamoto (UT Research Institute Press, Tokyo, 2005) p. II-374.
70. A.K. Aringazin, Yu.I. Dahnovsky, V.D. Krevchik, M.B. Semenov, A.A. Ovchinnikov, V.A. Veremyev, and K. Yamamoto, Two-dimensional tunnel correlations with dissipation, in Transfer Processes in Low-Dimensional Systems, Ed. Yu.I. Dahnovsky, V.D. Krevchik, V.Ya. Krivnov, M.B. Semenov, and K. Yamamoto (UT Research Institute Press, Tokyo, 2005) p. II-406.=
71. A.K. Aringazin, Yu.I. Dahnovsky, V.D. Krevchik, M.B. Semenov , A.A. Ovchinnikov, V.A. Veremyev, and K. Yamamoto, Two – dimensional tunnel bifurcations with dissipation, in Transfer Processes in Low-Dimensional Systems, Ed. Yu.I. Dahnovsky, V.D. Krevchik, V.Ya. Krivnov, M.B. Semenov, and K. Yamamoto (UT Research Institute Press, Tokyo, 2005) p. II-410.
72. Yuri Dahnovsky, , V. G Zakrzewski, A. Kletsov and V. J. Ortiz, Ab initio electron propagator theory of molecular wires I. Formalism, Journal of Chemical Physics, 123, p. 184711 (2005)
73. Yuri Dahnovsky, Electron tunneling dynamics in anharmonic bath, J. Chem. Phys. 122, 044501 (2005).
74. Dahnovsky Yuri, Krevchik V.D., Semenov M.B., Mayorov V.G., Kudryashov E.I., Yamamoto K. One-dimensional dissipative tunneling in structures with quantum dots (in Russian)// Transactions of the Volga River Region Universities (Natural Sciences). 2004. N 5(14). p. 202 – 212.
75. Dahnovsky Yu.I., Krevchik V.D., Semenov M.B., V.Ch. Zhukovsky, Yamamoto K., Kudryashov E.I., Mayorov V.G. 1D dissipative tunneling in structures with quantum dots, role of angarmonicity Transactions of the Volga River Region Universities (Natural Sciences). 2004. N 6(15). p. 195-211.
76. Aringazin A.K., Dahnovsky Yu.I, Krevchik V.D., Ovchinnikov A.A., Semenov M.B., V.A. Veremyev, Yamamoto K., Kudryashov E.I., Mayorov V.G. The features of two-dimensional tunnel bifurcations with dissipation, Transactions of the Volga River Region Universities (Natural Sciences). 2004. N 6(15). C. 170-194.
77. Jaremy Creechley and Yuri Dahnovsky, 2004, Vibrational coherence in electron transfer: An exactly solvable model, Chem. Phys. 296, 171 (2004).
78. A.K. Aringazin, Yu. Dahnovsky, V.D. Krevchik, M.B. Semenov, V.A. Veremyev, A.A. Ovchinnikov, K. Yamamoto, 2004, Two-dimensional tunnel bifurcations with dissipation, Hadronic Journal, 27, No 2, p. 115-150, (2004).
79. A. K. Argingazin, Yu. Dahnovsky, A. A. Ovchinnikov, V. D. Krevchik, M. B. Semenov, and K. Yamamoto, 2003, Two-dimensional tunnel correlations with dissipation, Phys. Rev. B 68, 155426.
80. Yu. Dahnovsky, 2003, Study of electron transport in the model of a strong coupling for molecular wires in an external field: A Floquet approach, Izvestia Vuzov (in Russian), 2, No 5, pp. 171-198.
81. Yu. Dahnovsky, Radiation of electron transport in a molecular wire in a strong electric field in the tight binding approximation: Application to xylyl-dithiol, Izvestia Vuzov Volga Region (in Russian), 1, No 6, pp. 150-174 (2003).
82. J. T. York, R. D. Coalson, and Yu. Dahnovsky, 2002, Control of Electron Current by Double Barrier Structures in Electronic Molecular Devices. Phys. Rev. B. 65, 23521.
83. Yu. Dahnovsky, A. A. Ovchinnikov, and M. B. Semenov, 2002, Quantum Tunneling with Dissipation, Hadronic Physics, 25, 1.
84. J. L. Cash and Yuri Dahnovsky, 2001, Driven Electron Transfer in an Environment with Slow and Fast Degrees of Freedom, Phys. Rev. E, 63, 16014.
85. J. T. York and Yu. Dahnovsky, 2001, The transfer of an electron driven by laser in electronic molecular devices, J. Phys. Chem. B, 105, 8278.
86. . D. Bodyfelt and Yuri Dahnovsky, 2002, Coherent and Incoherent Photo-Assisted Electron Tunneling in Optoelectronic Molecular Devices in Soft Solids, Phys. Rev. B, 65, 45301.
87. A. Tikhonov, R. D. Coalson, and Yu. Dahnovsky, 2002, Calculating Electron transport in tight-binding model of a field-driven molecular wire: Floquet theory approach, J. Chem. Phys. 116, 10909.
88. A. Tikhonov, R. D. Coalson, and Yu. Dahnovsky, 2002, Calculating Electron transport in tight-binding model of a field-driven molecular wire: Application to Xylyl-Dithiol, J. Chem. Phys. 117, 567.
89. D. A. Tibbets and Yu. Dakhnovskii, 2000, Electron transfer via a polar medium: Modulation and solvation. Journ. Chem. Phys. 112, 5893.
90. Yu. I. Dakhnovskii, 1999, Electron transfer in a slow relaxation bath: Fast and slow degrees of freedom: Application to primary electron transfer in photosynthetic bacteria. Journal of Chem. Phys. 111, 5418.=
91. M. J. Hornbach and Yu. I. Dakhnovskii, 1999, Electron transfer in a slow bath: Coherence and non-exponential kinetics, Journal of Chem. Phys. 111, 5073.
92. Yu. I. Dakhnovskii, V. Lubchenko, and R. D. Coalson, 1998, Induced Irradiance in Laser Control Chemical Reaction: Long Range Electron Transfer Driven by Two Lasers. Journ. Chem. Phys. 108, 691.
93. Yu. I. Dakhnovskii, V. Lubchenko, and R. D. Coalson, 1996, Multi-Photon Absorption by Metal-Metal Long Distance Charge Transfer Complexes in Polar Solvents. Journ. Chem. Phys. 105, 9441.
94. Yu.I.Dakhnovskii and V.Lubchenko, 1996, Response to Comment on the Effect of Charged Impurities on a Glass Transition in a Polar Medium. Journ. Chem. Phys. 105, 8959.
95. Yu. I. Dakhnovskii, V. Lubchenko, and R. D. Coalson, 1996, Light Absorption in Strongly Irradiated Long Range Polar Electron Transfer. Phys.Rev.Lett. 77, 2917
96. R. D. Coalson, D. G. Evans, and Yu. I. Dakhnovskii, 1996, Laser Control of Polar Electron Transfer. in Femptochemistry ed. M. Chergui (World Scientific, Singapore, p.338.
97. Yu. I. Dakhnovskii, R. Bavli, and H. Metiu, 1996, Localization and Delocalization in Biased and Unbiased Quantum Wells Driven by Mono- and Bichromatic Laser Field. Phys. Rev. B 53, 4657.
98. u. I. Dakhnovskii, V. Lubchenko, and P. Wolynes, 1996, “False-Tunneling’’ and Multi-Relaxation Time Non-Exponential Kinetics of Electron Transfer in Polar Glasses. Journ. Chem. Phys. 104, 1875.
99. Yu. I. Dakhnovskii and V. Lubchenko, 1996, The Effect of Charged Impurities on a Glass Transition in a Polar Medium. Journ. Chem. Phys. 104, 664.
100. D. Evans, R. D. Coalson, and Yu. I. Dakhnovskii, 1996, Induced Oscillations in an Electron Transfer Reaction in the Presence of a Bichromatic Field. Journ. Chem. Phys. 104, 2287.
101. D. Evans, R. D. Coalson, H. Kim, and Yu. I. Dakhnovskii, 1995, Inducing Coherent Oscillations in the Electron Transfer Dynamics of a Strongly Dissipative System with Pulsed Monochromatic Light. Phys.Rev.Lett. 75, 3649.
102. Yu. I. Dakhnovskii, H. Kim, D. Evans, and R. D. Coalson, 1995, Effect of Laser Field on Electron Transfer in Metal Complexes: Quantum Degrees of Freedom. Journ. Chem. Phys. 103, 5461.
103. Yu. I. Dakhnovskii and H. Metiu, 1995, An Absolute Negative Resistance in Double-Barrier Heterostructures in a Strong Laser Field. Phys. Rev. B 51, 4193.
104. Yu.I.Dakhnovskii and R. D. Coalson, 1995, Manipulating of Reactant-Product Distributions of Electron Transfer Reactions in a Laser Field. Journ. Chem. Phys. 103, 2908.
105. Yu. I. Dakhnovskii, B. Barsulaya, and H. Kim, 1995, Quantum Tunneling in Anharmonic Classical Bath: Enhanced Kinetic Isotope Effect in an Arrhenius Region. Journ. Chem. Phys. 102, 738.
106. Yu. I. Dakhnovskii and R. Bavli, 1994, Stable and Unstable Localization in Two-Level Systems Driven by Two Time-Dependent Fields. Journ. Phys. Chem. 98, 9777.
107. Yu. I. Dakhnovskii, R. Doolen, and J. Simon, 1994, Electron Transfer in the Marcus Inverted region: Experiment and Adiabatic Tunneling Mechanism. Journ. Chem. Phys. 101, 6640.
108. Yu.I.Dakhnovskii, 1994, Dynamics of Inner- and Outer Sphere Electron transfer in a Polar Solvent, Journal of Molecular Liquids 60, 73.
109. Yu. I. Dakhnovskii and M. B. Semenov, 1994, Tunneling of Two Interacting Particles Moving Parallel and Antiparallel: a Comparative Analysis. Chemical Physics 183, 1.
110. Yu. I. Dakhnovskii, 1994, Non-Adiabatic Chemical Reactions in a Strong Time-Dependent Electric Field: An Electron Transfer Reaction in a Polar Solvent. Journ. Chem. Phys. 100, 6492.
111. Yu. I. Dakhnovskii, 1994, Dynamics of a Two-Level System with Ohmic Dissipation in a Time-Dependent Field. Phys. Rev. B 49, 4649.
112. Yu.I.Dakhnovskii, 1994, Quantum Coherence of a Two Level System Interacting with a Strong Time-Dependent Electric Field. Annals of Physics 230, 145.
113. Yu. I. Dakhnovskii, R. Bavli, and H. Metiu, 1993, Optical Response of a Double Quantum Well Driven by Two Lasers: Localization and Low Frequency Generation. Report No-AD-A265118. Avail. NTIS, From Govern. Report Announce. Index (US) 93(18) (1993), Abstr. No 355, 714.
114. Yu. I .Dakhnovskii and R. Bavli, 1993, Emission Spectrum and Localization of Electrons in Quantum Well Systems Induced by a Strong Laser Field. Phys. Rev. B 48, 11020.
115. Yu. I. Dakhnovskii and R. Bavli, 1993, Selective Manipulation of Emission Spectrum of an Electron in a Biased Double Well Heterostructures Driven by a Free Electron Laser. Phys. Rev. B 48, 11010.
116. Yu. I. Dakhnovskii, 1993, Adiabatic Electron Transfer in Polar Solvents. Crossover from Activation Transfer to Tunneling. Journ. Chem. Phys. 99, 7718.
117. Yu. I. Dakhnovskii and R. Bavli, 1993, A Two-Level System in a Strong Laser Field: Comparative Analysis Between the Landau-Lifshitz Solution, and an Exact Numerical One. Phys. Rev. A 48, R886.
118. K. A. Pronin, Yu. I. Dakhnovskii and A. Bandrauk, 1993, Nonlinear Optical Properties of Conjugated Polymers in SSH Model: 4 Wave Mixing. Synthetic Metals 57, 3907.
119. Yu. I. Dakhnovskii and K. A. Pronin, 1993, Nonlinear Optical Properties of Conjugated Polymers in SSH Model: Third Harmonic Generation. Synthetic Metals 54, 295.
120. Yu. I. Dakhnovskii and H. Metiu, 1993, Conditions leading to intense low-frequency generation and strong localization in two -level systems. Phys. Rev. A 48, 2342.
121. Yu. I. Dakhnovskii, A. A. Ovchinnikov, and Z. K. Smedarchina, Charge Tunneling in a Classical Medium. Khimicheskaya Fizika 10, 930 (1991) (Sov. Chem. Phys 10, 1438 (1993)).
122. Yu. I. Dakhnovskii and E. N. Dolgov, 1992, Remarks on Some Problems in 1D-Physics: Nonlinear Optics of (A-B)-Polymers and the Role of Electron-Electron Scattering in Conducting Q1D Materials with a Soft Phonon Mode. Sensors and Actuators 33, 123.
123. Yu. I. Dakhnovskii and M. B.S Semenov, Tunneling of Two Interacting Particles moving parallel and Anti-Parallel. Khimicheskaya Fizika 11, 738 (1992) (Sov. Chem. Phys 11, 1080 (1993)).
124. Yu. I. Dakhnovskii, Proton Transfer in a Polar Solvent, 1992, (T. Bountis, ed.) NATO ASI Series B291, 313.
125. Yu. I. Dakhnovskii and A. Bandrauk, 1991, Nonlinear Optical Properties of (A-B)-Polymers. Lecture and Notes in Physics, Ed: A. I. Ovschinnikov and I. Ukrainskii, in Electron-Electron Correlation Effects in Low Dimensional Systems (Springer, Berlin), p. 80 - 85.
126. Yu. I. Dakhnovskii and K. A. Pronin, 1991, Nonlinear Optical Susceptibility for Third Harmonic Generation in Combined Peierls Dielectrics. Ed: A. I. Ovschinnikov and I. Ukrainskii, Lecture and Notes in Physics, in Electron-Electron Correlation Effects in Low Dimensional Systems (Springer, Berlin), p. 73-79.
127. Yu. I. Dakhnovskii and V. V. Nefedova, 1991, Tunneling in an Anharmonic Liquid. Zh. Eksp. Teor. Fiz. Soviet Phys. JETP 100, 892 (Soviet Phys. JETP 73, 492 ).
128. Yu. I. Dakhnovskii and V. V. Nefedova, 1991, Particle Tunneling in a Classical Anharmonic Bath. Physics Lett. 157 A, 301.
129. Yu. I. Dakhnovskii and A. Bandrauk, 1991, Nonlinear Optical Properties of (A-B)-Polymers. Synthetic Metals 41-43, 3747.
130. K. A. Pronin and Yu. I. Dakhnovskii, 1991, Nonlinear Optical Properties of Conjugated Polymers. Synthetic Metals 41-43, 3758.
131. Yu. I. Dakhnovskii, A. A. Ovchinnikov, and Z. K. Smedarchina, 1990, Charged Particle Transfer in a Polar Liquid. Physics Lett. 149 A, 43.
132. Yu. I. Dakhnovskii and A. A. Ovchinnikov, 1990, Quantum Tunneling in a High Temperature Boson Bath. Physics Lett. 149 A, 39.
133. Yu. I. Dakhnovskii, Non-Condon Effects in Transfer a Particle in a Condensed Phase. Khimicheskaya Fizika 9, 536 (1990) (Sov. Chem. Phys. 8, 890 (1991)).
134. Yu. I. Dakhnovskii and M. B. Semenov, 1989, Tunneling of Two Interacting Particles. Journ. Chem. Phys. 91, 7606.
135. Yu.I.Dakhnovskii, A. A. Ovchinnikov, and M. B. Semenov, 1988, A Low Temperature Chemical Reaction in a Condensed Phase. Molecular Physics 63, 497.
136. Yu.I.Dakhnovskii, A.A.Ovchinnikov, and M.B.Semenov, Low Temperature Chemical Reactions Considered as Dissipative Tunnel Systems, Zh.Eksp.Teor.Fiz. 92, 995 (1987) (Soviet Phys. JETP 65, 541 (1987)).
137. Yu. I. Dakhnovskii and A. A. Ovchinnikov, 1987, Quantum Theory of the Transition State, Zhurnal Fizicheskoi Khimii 61, 766, (Russian Journal of Physical Chemistry 61, 396).
138. Yu. I. Dakhnovskii and A. A. Ovchinnikov, 1986, Adiabatic Electron Transfer in Polar Media: Quantum Transition State Theory. Molecular Physics 58, 237.
139. Yu. I. Dakhnovskii and A. A. Ovchinnikov, 1986, Quantum Transition State Theory: Transport of a Heavy Particle. Journal of Electroanal. Chemistry 204, 85.
140. Yu. I. Dakhnovskii and A. A. Ovchinnikov, Adiabatic Electron Transfer in a Polar Solvent. Inclusion of Quantum Degrees of Freedom. Khimicheskaya Fizika 5, 649 (1986) (Sov. Chem. Phys 5, 1019 (1990)).
141. Yu. I. Dakhnovskii and A. A. Ovchinnikov, Transition State Theory and the Generalized Kramers Model. Khimicheskaya Fizika 5, 36 (1986) (Sov. Chem. Phys. 5, 59 (1989)).
142. Yu. I. Dakhnovskii and A. A. Ovchinnikov, 1985, Decay of a Metastable State: Comparison between the Transition State Theory and Generalized Kramers Model. Physics Lett. 113 A, 147.
143. Yu. I. Dakhnovskii and A. A. Ovchinnikov, 1983, Charge Transfer in Polar Media. Transition State Entropy. Chem. Physics 80, 17.
144. Yu. I. Dakhnovskii, V. A. Benderskii, and A. A. Ovchinnikov, 1983, Theory of Electrochemical Hydrogen Evolution Reactions. Part 2. Model of Harmonic Proton Terms of Different Frequencies. Journal of Electroanalytical and Interface Chemistry 148, 161.
145. Yu. I. Dakhnovskii and A. A. Ovchinnikov, 1983, Adiabatic Theory of Charge Transfer in a Polar Medium. Dokl. Akad. Nauk USSR, Ser. Phys. Chem. 270, 119, (Dokl. Phys. Chemistry 270, 298).
146. V. A. Benderskii, Yu. I. Dakhnovskii, and A. A. Ovchinnikov, 1983, Theory of Electron-Proton Transfer Reactions in a Polar Medium. Dokl. Akad. Nauk USSR, Ser. Phys. Chem. 269, 1112, (Dokl. Phys. Chemistry 269, 243).
147. Yu. I. Dakhnovskii, V. A. Benderskii, and A . A. Ovchinnikov, 1982, Enhancement of Low-Temperature Chemical Reactions at Phase Transitions. Chem. Phys. 66, 93.
148. V. A. Benderskii, Yu. I. Dakhnovskii, A. A. Ovchinnikov, and P. G. Phillipov, 1982, Low-Temperature Chemical Reactions.1.Models. Chem. Phys. 67, 301.
149. V. A. Benderskii, Yu. I. Dakhnovskii, A. A. Ovchinnikov, and P. P. Phillipov, 1981, Theory of Low-Temperature Chemical Reactions, Dokl. Akad. Nauk USSR, Ser Phys. Chem. 261, 653, (Dokl. Phys. Chemistry 261 1067).

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