Mark I. DYKMAN


CHRONOLOGICAL LIST OF SCIENTIFIC PAPERS



  1. M.I. Dykman and M.A. Krivoglaz, "Classical theory of nonlinear oscillators interacting with a medium",
    Physica Status Solidi (b) 48, pp. 497-512 (1971).    [PDF]

  2. M.I. Dykman and M.A. Krivoglaz, "Classical theory of spectral distribution of singled out nonlinear oscillators at combination frequencies",
    Ukrainian Physical Journal 17, pp. 1971-9 (1972).[PDF] (in Russian)

  3. M.I. Dykman and M.A. Krivoglaz, "Quantum theory of nonlinear oscillators interacting with the medium",
    Zh. Eksp. Teor. Fiz. 64, pp. 993-1005 (1973)
    [ Soviet Physics - JETP 37, pp. 506-11 (1973)].[PDF]

  4. M.I. Dykman, "Quantum theory of spectral distribution of isolated nonlinear vibration modes near the combination frequency",
    Fiz. Tverd. Tela 15, pp. 1075-9 (1973)
    [ Soviet Physics - Solid State 15, pp. 735-7 (1973)]. [PDF]

  5. M.I. Dykman and M.A. Krivoglaz, "On the theory of intensity of the peak of infrared absorption by local and quasilocal vibrations",
    Ukrainian Physical Journal 19, pp. 125-33 (1974).[PDF] (in Russian)

  6. M.I. Dykman and M.A. Krivoglaz, "Spectral distribution of nonlinear oscillators with nonlinear friction due to a medium",
    Physica Status Solidi (b) 68, pp. 111-23 (1975). [PDF]

  7. M.I. Dykman, "Theory of nonlinear nonequilibrium oscillators interacting with a medium",
    Zh. Eksp. Teor. Fiz. 68, pp. 2082-94 (1975)
    [Soviet Physics - JETP 41, pp. 1042-8 (1975)].[PDF]

  8. M.I. Dykman, "Theory of the line profile of the cyclotron resonance of nondegenerate two-dimensional electrons coupled to phonons",
    Fiz. Tverd. Tela 17, pp. 3295-9 (1975)
    [ Soviet Physics - Solid State 17, pp. 2163-5 (1975)].[PDF]

  9. M.I. Dykman, "Theory of nonequilibrium two-dimensional electrons in quantizing magnetic fields",
    Fiz. Tverd. Tela 18, pp. 429-34 (1976)
    [ Soviet Physics - Solid State 18, pp. 248-52 (1976)].[PDF]

  10. M.I. Dykman and M.A. Ivanov, "Spectral distribution of resonant localized impurity vibrations at finite temperatures",
    Fiz. Tverd. Tela 18, pp. 720-9 (1976)
    [ Soviet Physics - Solid State 18, pp. 415-20 (1976)].[PDF]

  11. M.I. Dykman, "Theory of nondegenerate two-dimensional electrons interacting with phonons in quantizing magnetic fields",
    Physica Status Solidi (b) 74, pp. 547-59 (1976).[PDF]

  12. M.I. Dykman and M.A. Krivoglaz, "Light absorption and scattering by nonlinear local and quasi-local oscillations",
    in Theory of Light Scattering in Solids, eds. B. Bendow, J.L. Birman and V.M. Agranovich, Plenum, New York, 1976, pp. 119-27.[PDF]

  13. M.I. Dykman and G.G. Tarasov, "Saturation of absorption and rotation of polarization of radiation by local vibrations in cubic crystals",
    Zh. Eksp. Teor. Fiz. 72, pp. 2246-55 (1977) [PDF].
    [ Soviet Physics - JETP 45, pp. 1181-5 (1977)]. [PDF]

  14. M.I. Dykman and G.G. Tarasov, "Theory of resonant optical orientation of tunnel centers",
    Zh. Eskp. Teor. Fiz. 74, pp. 1061-75 (1978)
    [ Soviet Physics - JETP 47, pp. 557-64 (1978)].[PDF]

  15. M.I. Dykman and M.A. Krivoglaz, "Theory of a nonlinear oscillator interacting with a medium",
    Preprint ITF-78-69R, Kiev, 1978, - 65 p.

  16. M.I. Dykman and G.G. Tarasov, "Nonlinear optical effects caused by light-induced resonant orientation of tunneling centers",
    Optics Communications 26, pp. 122-6 (1978).[PDF]

  17. M.I. Dykman, "Heating and cooling of local and quasilocal vibrations by a nonresonance field",
    Fiz. Tverd. Tela 20, pp. 2264-72 (1978)
    [ Soviet Physics - Solid State 20, pp. 1306-11 (1978)].[PDF] A large file in Russian with readable equations [PDF]

  18. M.I. Dykman, "Theory of cyclotron resonance of two-dimensional electrons interacting with surface and volume phonons",
    Physica Status Solidi (b) 88, pp. 463-75 (1978).[PDF]

  19. M.I. Dykman and G.G. Tarasov, "Self-induced rotation of the polarization in the resonance absorption region of doped cubic crystals",
    Fiz. Tverd. Tela 21, pp. 371-6 (1979)
    [ Soviet Physics - Solid State 21, pp. 221-4 (1979)] [PDF]

  20. M.I. Dykman, "Relaxation of impurities in a nonresonant field and phonon amplification",
    Fiz. Nizk. Temp. 5, pp. 186-97 (1979)
    [ Soviet J. Low Temp. Phys. 5, pp. 89-95 (1979)].[PDF]

  21. M.I. Dykman, M.A. Ivanov, G.G. Tarasov, and A.Yu. Tkhorik, "Spectral distribution of degenerate three-dimensional local and quasilocal vibrations",
    Fiz. Tverd. Tela 21, pp. 1489-96 (1979)
    [ Soviet Physics - Solid State 21, pp. 859-63 (1979)].[PDF]

  22. M.Ya. Valakh, M.I. Dykman, M.P. Lisitsa, G.Yu. Rudko, and G.G. Tarasov, "Self-induced resonant optical rotation in crystals KCl:Li",
    Solid State Communications 30, pp. 133-6 (1979).[PDF]

  23. M.I. Dykman and M.A. Krivoglaz, "Theory of fluctuational transitions between stable states of a nonlinear oscillator",
    Zh. Eksp. Teor. Fiz. 77, pp. 60-73 (1979)
    [ Soviet Physics - JETP 50, pp. 30-7 (1979)] [PDF]

  24. M.I. Dykman and L.S. Khazan, "Effect of the interaction between nondegenerate electrons localized in a thin surface layer on the cyclotron resonance and on the magnetoconductance",
    Zh. Eksp. Teor. Fiz. 77, pp. 1488-1502 (1979)
    [ Soviet Physics - JETP 50, pp. 747-53 (1979)] [PDF]

  25. M.I. Dykman, "Toward the theory of cyclotron resonance of two-dimensional electrons on a liquid helium surface",
    Fiz. Nizk. Temp. 6, pp. 560-6 (1980)
    [ Soviet J. Low Temp. Phys. 6, pp. 268-71 (1980)].    [PDF]

  26. M.I. Dykman, "Cyclotron resonance of two-dimensional electrons forming Wigner crystal",
    Solid State Comm. 35, pp. 753-7 (1980).[PDF]

  27. M.I. Dykman and M.A. Krivoglaz, "Fluctuations in nonlinear systems near bifurcations corresponding to the appearance of new stable states",
    Physica 104 A, pp. 480-94 (1980).[PDF]

  28. M.I. Dykman and M.A. Krivoglaz, "Time correlation functions and spectral distributions of the Duffing oscillator in a random force field",
    Physica 104 A, pp. 495-508 (1980).[PDF]

  29. M.Ya. Valakh, M.I. Dykman, M.P. Lisitsa, E.V. Pidlisny, G.Yu. Rudko, and G.G. Tarasov, "Kinetics of self-induced rotation of the plane of polarization of resonant radiation in a KCl:Li+ crystal",
    Fiz. Tverd. Tela 23, pp. 418-23 (1981)
    [ Soviet Physics - Solid State 23, pp. 236-9 (1981)].[PDF]

  30. M.I. Dykman and G.G. Tarasov, "Nonlinear optical effects in the range of impurity absorption of cubic crystals",
    in Spectroscopy of Molecules and Crystals, Naukova Dumka, Kiev, v I, pp. 171-8 (1981).

  31. M.I. Dykman, "Stability of crystals in a random field created by vibrations of the continuum",
    Zh. Eksp. Teor. Fiz. 81, pp. 1377-88 (1981)
    [ Soviet Physics - JETP 54, pp. 731-6 (1981)] [PDF]

  32. M.P. Lisitsa, M.Ya. Valakh, M.I. Dykman, G.Yu. Rudko, and G.G. Tarasov, "Self-induced optical anisotropy of an impurity cubic crystal",
    Izv. AN USSR ser. fiz. 45, pp. 911-6 (1981)
    [ Bull. Acad. Sci. USSR Phys. Ser. 45, pp. 13-8 (1981)].

  33. M.I. Dykman, "Damping and frequency shift of phonons of a Wigner crystal interacting with a medium",
    Zh. Eksp. Teor. Fiz. 82, pp. 1318-32 (1982)
    [ Soviet Physics - JETP 55, pp. 766-73 (1982)] [PDF]

  34. M.I. Dykman, "Cyclotron resonance of a two-dimensional Wigner crystal",
    J. Phys. C: Solid State Physics 15, pp. 7397-7416 (1982) [PDF]. M.I. Dykman, "Theory of cyclotron resonance of two-dimensional electrons forming Wigner crystal", Preprint IMF 12.81, Kiev, 1981 - 44 p.

  35. M.I. Dykman and G.G. Tarasov, "Self-induced change in the polarization of electromagnetic waves in cubic crystals",
    Fiz. Tverd. Tela 24, pp. 2396-2402 (1982)
    [ Soviet Physics - Solid State 24, pp. 1361-4 (1982)].[PDF]

  36. M.I. Dykman and G.G. Tarasov, "Dichroic bistability caused by the resonant optical orientation of impurity centers",
    Optics Communications 49, pp. 79-82 (1984).[PDF]

  37. M.I. Dykman, "Non-Lorentzian power-law absorption on the wings of electron-ripplon resonance peaks",
    Fiz. Nizk. Temp. 10, pp. 453-9 (1984)
    [ Soviet J. Low Temp. Phys. 10, pp. 233-6 (1984)].[PDF]

  38. M.I. Dykman and G.G. Tarasov, "Optical bistability caused by self-induced anisotropy of light absorption in cubic crystals",
    Zh. Eksp. Teor. Fiz. 86, pp. 2030-43 (1984)
    [ Soviet Physics - JETP 59, pp. 1180-7 (1984)] [PDF]

  39. M.I. Dykman and M.A. Krivoglaz, "Theory of nonlinear oscillator interacting with a medium",
    in Soviet Physics Reviews, ed I.M.Khalatnikov, Harwood Academic, New York, vol 5, pp. 265-441 (1984).[PDF] (6.8 MB)

  40. S.A. Boiko, M.Ya. Valakh, M.I. Dykman, M.P. Lisitsa, G.Yu. Rudko, and G.G. Tarasov, "Spectral dependence of the self-induced rotation of the plane of polarization of light in KCl crystals containing FA(Li) centers",
    Fiz. Tverd. Tela 26, pp. 2888-94 (1984)
    [ Soviet Physics - Solid State 26, pp. 1747-50 (1984)].[PDF]

  41. M.I. Dykman, S.M. Soskin, and M.A. Krivoglaz, "Spectral distribution of a nonlinear oscillator performing Brownian motion in a double-well potential",
    Preprint IMF 4.84, Kiev, 1984, - 24 p., and Physica 133 A, pp. 53-73 (1985).[PDF]

  42. S.A. Boiko, M.Ya. Valakh, M.I. Dykman, M.P. Lisitsa, G.G. Tarasov, and A.M. Shpak, "New nonlinear optical effects in impure cubic crystals",
    Quantum Electronics (Kiev) 28, pp. 24-31 (1985).

  43. S.A. Boiko, M.I. Dykman, M.P. Lisitsa, V.I. Sidorenko, and G.G. Tarasov, "Variation of resonance-radiation polarization due to self-induced dichroism in a KCl:Li crystal with FA-centers",
    Optics and Spectroscopy 58, pp. 645-7 (1985).[PDF]

  44. M.Ya. Valakh, M.I. Dykman, M.P. Lisitsa, G.Yu. Rudko, V.I. Sidorenko, and G.G. Tarasov, "The way of the optical control of light polarization",
    USSR Patent No 1170408 A (1985).

  45. M.I. Dykman, "Theory of polarizational optical bistability",
    Zh. Eksp. Teor. Fiz. 91, pp. 1573-84 (1986)
    [ Soviet Physics - JETP 64, pp. 927-33 (1986)][PDF]

  46. M.I. Dykman, "Cyclotron resonance of interacting nondegenerate two-dimensional electrons",
    Surface Science 170, pp. 108-11 (1986).[PDF]

  47. S.A. Boiko, M.Ya. Valakh, M.I. Dykman, M.P. Lisitsa, G.G. Tarasov, and A.M. Shpak, "Self-induced polarization change in resonant radiation in a doped cubic crystal",
    Izv. AN USSR ser. fiz. 50, pp. 286-9 (1986)
    [ Bull. Acad. Sci. USSR Phys. Ser. 50, pp. 74-7 (1986)]. [PDF]

  48. S.A. Boiko, M.I. Dykman, M.P. Lisitsa, G.G. Tarasov, and A.M. Shpak, "Self-induced changes of polarizational characteristics of resonant radiation in KCl crystals with FA(Li)-centers",
    Ukrainian Physical Journal 31, pp. 1650-6 (1986).

  49. S.A. Boiko, M.Ya. Valakh, M.I. Dykman, M.P. Lisitsa, G.G. Tarasov, and A.M. Shpak, "Self-induced oscillations of the polarization of light in KCl crystals containing F A(Li) centers",
    Fiz. Tverd. Tela 28, pp. 2769-73 (1986)
    [ Soviet Physics - Solid State 28, pp. 1550-2 (1986)] [PDF]

  50. M.P. Lisitsa, S.A. Boiko, M.Ya. Valakh, M.I. Dykman, G.G. Tarasov, and A.M. Shpak, "Influence of random fields on the self-induced oscillations of light polarization in KCl crystals with FA(Li)-centers",
    Ukrainian Physical Journal 31, pp. 1822-29 (1986).

  51. S.A. Boiko, A.M. Brodin, M.Ya. Valakh, M.I. Dykman, M.P. Lisitsa, and G.G. Tarasov, "Self-induced change in the polarization of resonance radiation in crystals having F2 centers",
    Fiz. Tverd. Tela 29, pp. 2212-14 (1987)
    [ Soviet Physics - Solid State 29, pp. 1278-9 (1987)]

  52. M.I. Dykman and G.G. Tarasov, "Dichroic optical bistability in a nonlinear Fabry-Perot interferometer",
    Kvant. Electron. 14, pp. 260-4 (1987)
    [ Soviet Journal of Quantum Electronics 17, pp. 157-9 (1987)][PDF]

  53. M.I. Dykman and G.G. Tarasov, "Threshold-free optical bistability due to giant nonlinearity of resonance absorption in crystals containing FA centers",
    Kvant. Electron. 14, pp. 2038-43 (1987)
    [ Soviet Journal of Quantum Electronics 17, pp. 1300-3 (1987)][PDF]

  54. M.I. Dykman and M.A. Krivoglaz, "Profiles of no-phonon lines of impurity centers interacting with local or quasilocal vibrations",
    Fiz. Tverd. Tela 29, pp. 368-76 (1987)
    [ Soviet Physics - Solid State 29 pp. 210-4 (1987)][PDF]

  55. M.I. Dykman and V.N. Smelyanskiy, "Luminescence of the local vibrations excited in a radiationless electron transition",
    Preprint IF 9, Kiev, 1987 - 24p.

  56. M.I. Dykman and G.G. Tarasov, "Amplification of the contrapropagating waves in a nonlinearly-absorping cubic crystal",
    Quantum Electronics (Kiev) 32, pp. 47-53 (1987).

  57. M.I. Dykman and G.G. Tarasov, "Dichroic optical bistability in a Fabry-Perot cavity containing cubic crystal",
    Quantum Electronics (Kiev) 32, pp. 53-9 (1987).

  58. M.I. Dykman, R. Mannella, P.V.E. McClintock, Frank Moss, and S.M. Soskin, "Spectral density of fluctuations of a double-well Duffing oscillator driven by white noise",
    Phys. Rev. A 37, pp. 1303-13 (1988).[PDF]

  59. M.I. Dykman and V.N. Smelyanskiy, "Quantum theory of transitions between stable states of a nonlinear oscillator interacting with a medium in a resonant field",
    Zh. Eksp. Teor. Fiz. 94, pp. 61-74 (1988)
    [ Soviet Physics - JETP 67, pp. 1769-76 (1988)]
    [PDF]

  60. M.I. Dykman, M.A. Krivoglaz, and S.M. Soskin, "Transition probabilities and spectral density of fluctuations of noise-driven bistable systems",
    in Noise in Nonlinear Dynamical Systems, eds F. Moss and P.V.E. McClintock, Cambridge University Press, Cambridge, vol. 2 pp. 347-80 (1989).
    [PDF]

  61. A.L. Velikovich, M.I. Dykman, and V.A. Makarov, "Bistability, self-oscillation, randomness in the polarizational self-action of light in resonators",
    Izv. AN USSR ser. fiz. 53, pp. 1088-1094 (1989)
    [ Bull. Acad. Sci. USSR Phys. Ser. 53, pp. 62-8 (1989)]

  62. M.I. Dykman and A.L. Velikovich, "Bistability and self-oscillations in a cavity due to a self-induced optical anisotropy",
    Optics Communications 70, pp. 151-4 (1989).[PDF]

  63. M.I. Dykman, V.A. Makarov, and A.V. Matveeva, "Range of existence of optical multistability in a resonator with an optically active medium",
    Kvant. Electron. 16, pp. 1391-7 (1989)
    [ Soviet Journal of Quantum Electronics 19, pp. 898-901 (1989)][PDF]

  64. M.I. Dykman and V.N. Smelyanskiy, "Fluctuational transitions between stable states of a nonlinear oscillator driven by random resonant force",
    Phys. Rev. A 41, pp. 3090-3102 (1990).     [PDF]

  65. M.I. Dykman, R. Mannella, P.V.E. McClintock, and N.G. Stocks, "Fluctuation-induced transitions between periodic attractors: Observation of super narrow spectral peaks near a kinetic phase transition",
    Phys. Rev. Lett. 65, pp. 48-51 (1990). [PDF]

  66. M.I. Dykman, R. Mannella, P.V.E. McClintock, and N.G. Stocks, "Stochastic resonance in the linear and nonlinear responses of a bistable system to a periodic field",
    Zh. Eksp. Teor. Fiz., Pis'ma 52, pp. 780-2 (1990)
    [ Soviet Physics - JETP Letters 52, pp. 141-4 (1990)]. [PDF]

  67. M.I. Dykman, "Large fluctuations and fluctuational transitions in systems driven by colored Gaussian noise: A high-frequency noise",
    Phys. Rev. A 42, pp. 2020-9 (1990). [PDF]

  68. M.I. Dykman, R. Mannella, P.V.E. McClintock, S.M. Soskin, and N.G. Stocks, "Noise-induced narrowing of peaks in the power sprectra of underdamped nonlinear oscillators",
    Phys. Rev. A 42 pp. 7041-9 (1990). [PDF]

  69. M.I. Dykman, R. Mannella, P.V.E. McClintock, and N.G. Stocks, "Comment on stochastic resonance in bistable systems",
    Phys. Rev. Lett. 65, p 2606 (1990). [PDF]

  70. M.I. Dykman and M.A. Ivanov, "Modulation broadening of spectral lines for impurity centers with degenerate levels",
    Fiz. Tverd. Tela 32, pp. 156-62 (1990) [ Sov. Phys. - Solid State 32, pp. 87-90 (1990)] [PDF]

  71. M.I. Dykman, R. Mannella, P.V.E. McClintock, S.M. Soskin and N.G. Stocks, "Noise-induced spectral narrowing in nonlinear oscillators",
    Europhys. Lett. 13, pp. 691-6 (1990).[PDF]

  72. M.I. Dykman, R. Mannella, P.V.E. McClintock, S.M. Sosk.in, and N.G. Stocks, "Zero-frequency spectral peaks of underdamped nonlinear oscillators with asymmetric potentials",
    Phys. Rev. A 43, pp. 1701-8 (1990). [PDF]

  73. M.I. Dykman, G.P. Golubev, D.G. Luchinsky, A.L. Velikovich ,and S.Yu. Tsuprikov, "Fluctuational transitions and related phenomena in a passive all-optical bistable system",
    Phys. Rev. A 44, pp. 2439-49 (1991). [PDF]

  74. M.I. Dykman, P.V.E. McClintock, N.D. Stein, and N.G. Stocks, "Quasimonochromatic noise: new features of fluctuations in noise-driven nonlinear systems",
    Phys. Rev. Lett. 67, pp. 933-6 (1991). [PDF]

  75. M.I. Dykman, A.L. Velikovich, G.P. Golubev, D.G. Luchinsky, and S.V. Tsuprikov, "Stochastic resonance in an all-optical passive bistable system",
    Zh. Eksp. Teor. Fiz., Pis'ma 53, pp. 182-5 (1991)
    [ JETP Lett. 53, pp. 193-7 (1991)]

  76. J. Frost, P. Fozooni, M.J. Lea, and M.I. Dykman, "Magnetoresistance and many-electron effects in two-dimensional electrons on liquid helium",
    Europhys. Lett. 16, pp. 575-8 (1991).

  77. M.I. Dykman and Yu. G. Rubo, "Anisotropy of two-photon absorption in cubic direct gap semiconductors",
    Phys. Rev. B 45, pp. 5926-32 (1992). [PDF]

  78. M.I. Dykman and P.V.E. McClintock, "Power spectra of noise-driven nonlinear systems and stochastic resonance",
    Physica D 58, pp. 10-30 (1992) [PDF]

  79. M.I. Dykman, P.V.E. McClintock, V.N. Smelyanskiy, N.D. Stein, and N.G. Stocks, "Optimal paths and the pre-history problem for large fluctuations in noise-driven systems",
    Phys. Rev. Lett. 68, pp. 2718-21 (1992). [PDF]

  80. M.I. Dykman, R. Mannella, P.V.E. McClintock, and N.G. Stocks, "Phase shifts in stochastic resonance",
    Phys. Rev. Lett. 68, pp. 2985-8 (1992). [PDF]

  81. M.I. Dykman, D.G. Luchinsky, P.V.E. McClintock, N.D. Stein, and N.G. Stocks, "Fluctuation phenomena in a multibranch potential",
    Phys. Rev. A 45, pp. R7678-81 (1992). [PDF]

  82. M.I. Dykman, D.G. Luchinsky, P.V.E. McClintock, N.D. Stein, and N.G. Stocks, "Stochastic resonance for periodically modulated noise intensity",
    Phys. Rev. A 46, pp. R1713-16 (1992). [PDF]

  83. M.I. Dykman, D.G. Luchinsky, R. Mannella, P.V.E. McClintock, N.D. Stein, and N.G. Stocks, "Stochastic resonance: linear response and giant nonlinearity",
    J. Stat. Phys. 70, pp. 463-78 (1993) [PDF]

  84. M.I. Dykman, D.G. Luchinsky, R. Mannella, P.V.E. McClintock, N.D. Stein, and N.G. Stocks, "Nonconventional stochastic resonance",
    J. Stat. Phys. 70, pp. 479-99 (1993).

  85. M.I. Dykman, R. Mannella, P.V.E. McClintock, and N.G. Stocks, "Reply to comment on phase shifts in stochastic resonance",
    Phys. Rev. Lett. 70, p. 874 (1993). [PDF]

  86. M.I. Dykman, R. Mannella, P.V.E. McClintock, N.D. Stein, and N.G. Stocks, "Giant nonlinearity in the low-frequency response of a fluctuating bistable system",
    Phys. Rev. E 47, pp. 1629-32 (1993). [PDF]

  87. V.A. Chinarov, M.I. Dykman, and V.N. Smelyanskiy,
    Dissipative corrections to escape probabilities of thermally nonequilibrium systems",
    Phys. Rev. E 47, pp. 2448-61 (1993). [PDF]

  88. M.I. Dykman, R. Mannella, P.V.E. McClintock, N.D. Stein, and N.G. Stocks, "Probability distribution and escape rates for systems driven by quasimonochromatic noise",
    Phys. Rev. E 47, pp. 3996-4009 (1993). [PDF]

  89. M.I. Dykman, M.J. Lea, P. Fozooni, and J. Frost, "Magnetoresistance in 2D electrons on liquid helium: many-electron versus single electron kinetics",
    Phys. Rev. Lett. 70, pp. 3975 - 8 (1993). [PDF]

  90. M.I. Dykman, X. Chu, J. Ross, "Stationary probability distribution near stable limit cycles far from Hopf bifurcation points",
    Phys. Rev. E 48, pp. 1646 - 54 (1993), [PDF]
    erratum: Phys. Rev. E 52, p. 6916 (1995). [PDF]

  91. M.I. Dykman, H. Haken, Hu Gang, D.G. Luchinsky, P.V.E. McClintock, C.Z. Ning, N.D. Stein, and N.G. Stocks, "Linear response theory in stochastic resonance",
    Phys. Lett. A 180, pp.332 - 6 (1993) [PDF]

  92. M.I. Dykman, D.G. Luchinsky, P.V.E. McClintock, N.D. Stein, and N.G. Stocks, "High-frequency stochastic resonance",
    JETP Lett. 58, pp. 145 - 151 (1993).

  93. M.I. Dykman, D.G. Luchinsky, R. Mannella, P.V.E. McClintock, N.D. Stein, and N.G. Stocks, "Simulation of critical phenomena in optical systems",
    in Modern Nonlinear Optics, ed. by M. Evans and S. Kielich, vol. LXXXV (3) in Advances in Chemical Physics, pp. 265 - 379 (1993).

  94. M.M. Millonas and M.I. Dykman, "Transport and current reversal in stochastically driven ratchets",
    Phys. Lett. A 185, pp. 65 - 9 (1994) [PDF]

  95. M.I. Dykman, D.G. Luchinsky, R. Mannella, P.V.E. McClintock, N.D. Stein, and N.G. Stocks, "Supernarrow spectral peaks and high-frequency stochastic resonance in systems with coexisting periodic attractors",
    Phys. Rev. E 49, pp. 1198 - 1215 (1994). [PDF]

  96. M.I. Dykman, G.P. Golubev, D.G. Luchinsky, P.V.E. McClintock, N.D. Stein, and N.G. Stocks, "Noise-enhanced heterodyning in bistable systems",
    Phys. Rev. E 49, pp. 1935 - 42 (1994). [PDF]

  97. M.I. Dykman, E. Mori, J. Ross, and P. Hunt, "Large fluctuations and optimal paths in chemical kinetics",
    J. Chem. Phys. 100, pp. 5735 - 50 (1994). [PDF]

  98. M.I. Dykman and K. Lindenberg, "Fluctuations in nonlinear systems driven by colored noise",
    in Contemporary Problems in Statistical Physics, ed. by G.H.Weiss (SIAM, Philadelphia, 1994), pp. 41 - 101 [PDF]

  99. M.I. Dykman, M.J. Lea, P. Fozooni, and J. Frost, "Many-electron magnetotransport in 2D electrons on liquid helium",
    Physica B 197, pp. 340 - 6 (1994) [PDF]

  100. M.I. Dykman, D.G. Luchinsky, R. Mannella, P.V.E. McClintock, H.E. Short, N.D. Stein, and N.G. Stocks, "Noise-induced linearization",
    Phys. Lett. A 193, 61-66 (1994).

  101. M.J. Lea and M.I. Dykman, "Many-electron effects in the magnetoresistivity of a non-degenerate two-dimensional electron gas",
    Phil. Mag. B 69, pp. 1059 - 66 (1994).

  102. M.I. Dykman, M.M. Millonas, and V.N. Smelyanskiy, "Observable and hidden singular features of large fluctuations in nonequilibrium systems",
    Phys. Lett. A 195, pp. 53 - 8 (1994) [PDF]

  103. M.I. Dykman, D.G. Luchinsky, R. Mannella, P.V.E. McClintock, N.D. Stein, and N.G. Stocks, "Stochastic resonance and its provenance",
    Appl. Nonlinear Dynamics 3, pp. 56 - 69 (1995).

  104. M.I. Dykman, T. Horita, and J. Ross, "Statistical distribution and stochastic resonance in a periodically driven chemical system",
    J. Chem. Phys. 103, pp. 966 - 72 (1995). [PDF]

  105. M.I. Dykman, G.P. Golubev, I.Kh. Kaufman, D.G. Luchinsky, P.V.E. McClintock, and E.A. Zhukov, "Noise-enhanced optical heterodyning in an all-optical bistable system",
    Appl. Phys. Lett. 67, pp. 308 - 10 (1995). [PDF]

  106. M.I. Dykman, D.G. Luchinsky, R. Mannella, P.V.E. McClintock, N.D. Stein, and N.G. Stocks, "Stochastic resonance in perspective",
    Nuov. Cim. D 17, pp. 661 - 83 (1995). [PDF]

  107. M.I. Dykman, G.P. Golubev, I.Kh. Kaufman, D.G. Luchinsky, P.V.E. McClintock, and E.A. Zhukov, "Fluctuations, stochastic resonance and noise-protected heterodyning in bistable optical systems",
    Nuov. Cim. D 17, pp. 743 - 54 (1995).

  108. M.I. Dykman, R. Mannella, P.V.E. McClintock, N.D. Stein, D.G. Luchinsky, and H.E. Short, "Quasi-monochromatic noise in bistable systems: the nature of large occasional fluctuations",
    Nuov. Cim. D 17, pp. 755 - 64 (1995).

  109. P.J. Richardson, A. Blackburn, K. Djerfi, M.I. Dykman, C. Fang-Yen, P. Fozooni, A. Kristensen, M.J. Lea, and A. Santrich-Badal, "Many-electron magnetoconductivity in 2D electrons on liquid helium",
    Surface Science 361 - 362 , pp. 835 - 8 (1996).

  110. M.I. Dykman, D.G. Luchinsky, R. Mannella, P.V.E. McClintock, N.D. Stein, and N.G. Stocks, "Stochastic resonance and its precursors",
    in Fluctuations and Order: The New Synthesis, ed by M.M. Millonas (Springer, N.Y. 1996), pp. 11 - 34.

  111. N.G. Stocks, N.D. Stein, H.E. Short, R. Mannella, D.G. Luchinsky, P.V.E. McClintock, and M.I. Dykman, "Noise-induced linearization and delinearization",
    in Fluctuations and Order: The New Synthesis, ed by M.M. Millonas (Springer, N.Y. 1996), pp. 53 - 68.

  112. M.I. Dykman, M.M. Millonas, and V.N. Smelyanskiy, "Some novel features of nonequilibrium systems",
    in Fluctuations and Order: The New Synthesis, ed by M.M. Millonas (Springer, N.Y. 1996), pp. 121 - 138.

  113. P. Fozooni, P.J. Richardson, M.J. Lea M.I. Dykman, C. Fang-Yen, and A. Blackburn, "Internal Forces and the Magnetoconductivity of a Nondegenerate 2D Electron Fluid",
    J. Phys: Condensed Matter 8, pp. L215 - L221 (1996).     [PDF]

  114. M.I. Dykman D.G. Luchinsky, R. Mannella, P.V.E. McClintock, S.M. Soskin, and N.D. Stein, "Resonant subharmonic absorption and second-harmonic generation by a fluctuating nonlinear oscillator",
    Phys. Rev. E 54, pp. 2366 - 77 (1996). [PDF]

  115. M.I. Dykman D.G. Luchinsky, R. Mannella, P.V.E. McClintock, and V.N. Smelyanskiy, "Corrals and critical behavior of distribution of fluctuational paths",
    Phys. Rev. Lett. 77, pp. 5229 - 32 (1996). [PDF]

  116. A. Blackburn, K. Djerfi, M.I. Dykman, C. Fang-Yen, P. Fozooni, A. Kristensen, M.J. Lea, P.J. Richardson, A. Santrich-Badal, and R.W. van der Heijden, "Magnetotransport of 2D electrons on liquid helium in the fluid and solid phases",
    Czech J. of Phys. 46 pp. 3056-62 (1996) (Invited papers of the International Conference on Low Temperature Physics LT-XXI).

  117. M.I. Dykman, V.N. Smelyanskiy, R.S. Maier, and M. Silverstein, "Singular features of large fluctuations in oscillating chemical systems",
    J. Phys. Chem. 100, pp. 19197 - 209 (1996). [PDF]

  118. D. R. Chialvo, M.I. Dykman, and M. M. Millonas "Fluctuation-induced transport in a periodic potential: noise versus chaos",
    Phys. Rev. Lett. 78, p. 1605 (1997). [PDF]

  119. V.N. Smelyanskiy, M.I. Dykman, and R.S. Maier, "Topological Features of Large Fluctuations to the Interior of a Limit Cycle",
    Phys. Rev. E 55, pp. 2369 - 91 (1997). [PDF]

  120. M.I. Dykman, "Many-electron transport phenomena in nondegenerate 2D electron systems",
    in Two-Dimensional Electron Systems on Helium and Other Substrates,
    ed. by E. Andrei (Kluwer, New York 1997), pp. 89 - 123 [PDF]

  121. V.N. Smelyanskiy and M.I. Dykman, "Optimal control of large fluctuations",
    Phys. Rev. E 55, pp. 2516 - 21 (1997). [PDF]

  122. M.I. Dykman, C. Fang-Yen, and M.J. Lea, "Many-electron transport in strongly correlated nondegenerate 2D electron systems",
    Phys. Rev. B 55, pp. 16249 - 72 (1997). [PDF]

  123. C. Fang-Yen, M.I. Dykman, and M.J. Lea, "Internal forces in nondegenerate 2D electron systems",
    Phys. Rev. B 55, pp. 16272 - 79 (1997). [PDF]

  124. M.J. Lea, P. Fozooni, A. Kristensen, P.J. Richardson, K. Djerfi, A. Santrich-Badal, M.I. Dykman, C. Fang-Yen, and A. Blackburn, "Magnetoconductivity of two-dimensional electrons on liquid helium: Experiments in the fluid phase",
    Phys. Rev. B 55, pp. 16280 - 95 (1997) [PDF]

  125. M.I. Dykman and Yuri G. Rubo, ``Bragg-Cherenkov scattering and nonlinear conductivity of a 2D Wigner crystal'',
    Phys. Rev. Lett. 78, pp. 4813 - 6 (1997) [PDF]

  126. V.N. Smelyanskiy, M.I. Dykman, H. Rabitz, and B.E. Vugmeister, ``Fluctuations, escape, and nucleation in driven systems: logarithmic susceptibility'',
    Phys. Rev. Lett. 79, pp. 3113 - 16 (1997) [PDF]

  127. M.I. Dykman, H. Rabitz, V.N. Smelyanskiy, and B.E. Vugmeister, ``Resonant directed diffusion in nonadiabatically driven systems'',
    Phys. Rev. Lett. 79, pp. 1178 - 81 (1997)[PDF]

  128. M.I. Dykman, V.N. Smelyanskiy, D.G. Luchinsky, R. Mannella, P.V.E. McClintock, ``Large fluctuations in periodically driven systems'', Int. J. of Bifurcations and Chaos 8 , pp. 747 - 54 (1998). [PDF]

  129. M.J. Lea and M.I. Dykman, ``Magnetotransport in two-dimensional electron fluid and solid on liquid helium'',
    Physica B 251, pp. 628 - 35 (1998) [PDF]

  130. M.I. Dykman and P.V.E. McClintock, "What can stochastic resonance do?", Nature 391 , p. 344 (1998) [PDF]

  131. M.I. Dykman and V.N. Smelyanskiy, ``Distribution of fluctuational paths in noise-driven systems'',
    Superlattices and Microstructures 23 , pp. 495 - 504 (1998) [PDF]

  132. M.I. Dykman, C.M. Maloney, V.N. Smelyanskiy, and M. Silverstein, ``Fluctuational phase-flip transitions in parametrically driven oscillators'',
    Phys. Rev. E 57 , pp. 5202 - 32 (1998). [PDF]

  133. D.G. Luchinsky, P.V.E. McClintock, and M.I. Dykman, ``Analogue studies of nonlinear systems'',
    Rep. Progr. Phys. 61 , pp. 889 - 997 (1998). [PDF] [PS]

  134. T. Barabash, M.I. Dykman, P.M. Platzman, and V.N. Smelyanskiy, ``Ripplon-induced tunneling transverse to the magnetic field'',
    Phys. Rev. B 58 , pp. R10214 - 7 (1998). [PDF]

  135. V.N. Smelyanskiy, M.I. Dykman, H. Rabitz, B.E. Vugmeister, S.L. Bernasek, and A.B. Bocarsly, ``Nucleation in periodically driven electrochemical systems'',
    J. Chem. Phys. 110 , pp. 11488 - 504 (1999). [PDF]

  136. V.N. Smelyanskiy, M.I. Dykman, and B. Golding, ``Time oscillations of escape rates in periodically driven systems'',
    Phys. Rev. Lett. 82 , pp. 3193 - 7 (1999). [PDF]

  137. P.M. Platzman and M.I. Dykman, ``Quantum computing with electrons floating on liquid helium'',
    Science 284 , pp. 1967 - 9 (1999). [PDF]

  138. M.I. Dykman and P.V.E. McClintock, ``Stochastic resonance'',
    Science Progress 82 , pp. 113 - 34 (1999).

  139. D.G. Luchinsky, R. Mannella, P.V.E. McClintock, M.I. Dykman, and V.N. Smelyanskiy, ``Thermally activated escape of driven systems: the activation energy'',
    J. Phys. A 32 , pp. L371 - 7 (1999). [PDF]

  140. Lowell I. McCann, Mark Dykman, and Brage Golding, ``Thermally activated transitions in a bistable three-dimensional optical trap'',
    Nature 402, pp. 785 - 7 (1999). [PDF]

  141. T. Barabash-Sharpee, M.I. Dykman,and P.M. Platzman, ``Tunneling transverse to a magnetic field and its occurrence in correlated 2D electron systems'',
    Phys. Rev. Lett. 84, pp. 2227-2230 (2000). [PDF]

  142. M.I. Dykman and Brage Golding, ``Controlling large fluctuations: theory and experiment'',
    in Stochastic Processes in Physics, Chemistry, and Biology, eds. J.A. Freund and T. Poeschel (Springer-Verlag, Berlin 2000), pp. 246 - 258. [PDF]

  143. M. Arrayas, M.I. Dykman, R. Mannella, P.V.E. McClintock, and N.D. Stein, ``Symmetry-breaking of fluctuation dynamics by noise color'',
    Phys. Rev. Lett. 84, pp. 5470-5473 (2000). [PDF]

  144. J. Hales, A. Zhukov, R. Roy, and M.I. Dykman, ``Dynamics of Activated Escape, and Its Observation in a Semiconductor Laser'',
    Phys. Rev. Lett. 85, pp. 78-81 (2000). [PDF]

  145. M.I. Dykman and P.M. Platzman, ``Quantum computing using electrons floating on liquid helium'', Fortschr. Phys. 48, pp. 1095-1108 (2000). [PDF]

  146. M.I. Dykman, T. Sharpee, and P.M. Platzman, ``Enhancement of tunneling from a correlated 2D electron system by a many-electron M\"ossbauer-type recoil in a magnetic field'',
    Phys. Rev. Lett. 86, pp. 2408 - 11 (2001). [PDF]

  147. F. Kuehnel, L. P. Pryadko, and M.I. Dykman, ``Single electron magneto-conductivity of a nondegenerate 2D electron system in a quantizing magnetic field'', Phys. Rev. B 63, pp. 165326 - 39 (2001). [PDF]

  148. M.I. Dykman and Brage Golding, ``Controlling activated processes", Fluct. Noise Lett. 1, pp. C1-C6 (2001). [PDF]

  149. M.I. Dykman, B. Golding, L.I. McCann, V.N. Smelyanskiy, D.G. Luchinsky, R. Mannella, and P.V.E. McClintock, ``Activated escape of periodically driven systems'', Chaos 11 , pp. 587 - 594 (2001). [PDF]

  150. T. Sharpee, M.I. Dykman, and P.M. Platzman, ``Tunneling from a correlated 2D electron system transverse to a magnetic field'',
    Phys. Rev. B 64, pp. 245309-15 (2001). [PDF]

  151. M.I. Dykman and P.M. Platzman, ``Quantum computing with electrons floating on liquid helium'',
    Quantum Information and Computation 1 , pp. 102-107 (2001) [PDF]

  152. T. Sharpee, M.I. Dykman, and P.M. Platzman, ``Tunneling decay in a magnetic field'',
    Phys. Rev. A 65, pp. 0032122-1-15 (2002) [PDF]

  153. L.P. Pryadko and M.I. Dykman, ``Many-electron conductivity of a non-degenerate 2D electron liquid in strong magnetic fields'',
    Physica B 312-313, 557-558 (2002) [PDF]

  154. M.I. Dykman and L.F. Santos, ``Antiresonance and interaction-induced localization in spin and qubit chains with defects'',
    J. Phys. A 36, L561-L566 (2003) [PDF]

  155. M.I. Dykman, P.M. Platzman, and P. Seddighrad, ``Qubits with electrons on liquid helium'',
    Phys. Rev. B 67, 155402 --1-15 (2003) [PDF]

  156. M.I. Dykman and L.P. Pryadko, ``Low-frequency conductivity of a nondegenerate two-dimensional electron liquid in strong magnetic fields'',
    Phys. Rev. B 67, 235104 - 1-14 (2003) [PDF]

  157. L.F. Santos and M.I. Dykman, ``Two-particle localization and antiresonance in disordered spin and qubit chains'',
    Phys. Rev. B 68, 214410 - 1-12 (2003) [PDF]

  158. M.I. Dykman, B. Golding, and D. Ryvkine, ``Critical exponent crossovers in escape near a bifurcation point'',
    Phys. Rev. Lett. 92, 080602 -- 1-4 (2004) [PDF]

  159. M.I. Dykman, P.M. Platzman, and P. Seddighrad, ``Electron dynamics in quantum dots on helium surface'',
    Physica E 22, 767-770 (2004) [PDF]

  160. D. Ryvkine, M.I. Dykman, and B. Golding, ``Scaling and crossovers in activated escape near a bifurcation point'',
    Phys. Rev. E 69, 061102 -- 1-17 (2004) [PDF]

  161. L.F. Santos, M.I. Dykman, M. Shapiro, and F.M. Izrailev, ``Strong many-particle localization and quantum computing with perpetually coupled qubits'',
    Phys. Rev. A 71, 012317 -- 1-18 (2005) [PDF]

  162. M.I. Dykman and D. Ryvkine, ``Activated escape of periodically modulated systems",
    Phys. Rev. Lett. 94, 070602 (2005) [PDF]

  163. M.I. Dykman and M.V. Fistul, ``Multiphoton antiresonance",
    Phys. Rev. B 71, 140508(R) (2005) [PDF]

  164. M.I. Dykman, L.F. Santos, M. Shapiro, and F.M. Izrailev, ``Quantum computing with perpetually coupled qubits: on-site localization of excitations'',
    Quant. Inf. Comput. 5, 335--349 (2005) [PDF]

  165. D. Ryvkine and M.I. Dykman, ``Noise-induced escape of periodically modulated systems: From weak to strong modulation",
    Phys. Rev. E 72, 011110 -- 1-15 (2005) [PDF]

  166. M.I. Dykman, I.B. Schwartz, and M. Shapiro, ``Scaling in activated escape of underdamped systems'',
    Phys. Rev. E 72, 021102 -- 1-8(2005) [PDF]

  167. M.I. Dykman, L.F. Santos, and M. Shapiro, ``Many-particle confinement by constructed disorder and quantum computing'',
    J. Opt. B 7, S363 -- S370 (2005) [PDF]

  168. C. Hicke, L.F. Santos, and M. I. Dykman, ``Fault-tolerant Landau-Zener quantum gates'',
    Phys. Rev. A 73, 012342 (2006) [PDF]

  169. M. Marthaler and M. I. Dykman, ``Switching via quantum activation: A parametrically modulated oscillator,
    Phys. Rev. A 73, 042108 (2006) [PDF]

  170. D. Ryvkine and M. I. Dykman, ``Pathways of activated escape in periodically modulated systems",
    Phys. Rev. E 73, 061109 (2006) [PDF]

  171. D. Ryvkine and M. I. Dykman, ``Resonant symmetry lifting in a parametrically modulated oscillator",
    Phys. Rev. E 74, 061118 (2006) [PDF]

  172. M. I. Dykman, ``Critical exponents in metastable decay via quantum activation",
    Phys. Rev. E 75, 011101 (2007) [PDF]

  173. Feng Shuang, Herschel Rabitz, and Mark Dykman, ``Foundations for cooperating with control noise in the manipulation of quantum dynamics",
    Phys. Rev. E 75, 021103 (2007) [PDF]

  174. M. Marthaler and M. I. Dykman, ``Quantum interference in the classically forbidden region: A parametric oscillator",
    Phys. Rev. A 76, 010102(R) (2007) [PDF]

  175. C. Hicke and M. I. Dykman, ``Multiphoton antiresonance in large-spin systems",
    Phys. Rev. B 76, 054436 (2007) [PDF]

  176. M. I. Dykman, ``Exponential peak and scaling of work fluctuations in modulated systems",
    Phys. Rev. E 77, 021123 (2008) [PDF]

  177. H. B. Chan, M. I. Dykman, and C. Stambaugh , ``Paths of fluctuation induced switching",
    Phys. Rev. Lett. 100, 130602 (2008) [PDF]

  178. C. Hicke and M. I. Dykman, ``Classical dynamics of resonantly modulated large-spin systems",
    Phys. Rev. B 78, 024401 (2008) [PDF]

  179. M. I. Dykman, I. B. Schwartz, and A. S. Landsman, ``Disease extinction in the presence of random vaccination",
    Phys. Rev. Lett. 101, 078101 (2008) [PDF];
    I. B. Schwartz, L. Billings, M. Dykman, and A. Landsman, ``Predicting extinction rates in stochastic epidemic models",
    J. Stat. Mech. P01005 (2009) [PDF]

  180. H. B. Chan, M. I. Dykman, and C. Stambaugh , ``Switching-path distribution in multidimensional systems",
    Phys. Rev. E. 78, 051109 (2008) [PDF]

  181. L. Billings, M. I. Dykman, and I. B. Schwartz, ``Thermally activated switching in the presence of non-Gaussian noise",
    Phys. Rev. E 78, 051122 (2008) [PDF]

  182. M. I. Dykman, ``Quantum Measurements with Dynamically Bistable Systems", in Applications of Nonlinear Dynamics, eds. V. In, P. Longhini, and A. Palacios, Springer (Berlin 2009), p.367 [PDF]

  183. L. Fedichkin, M. Shapiro, and M. I. Dykman, ``Quantum measurements of coupled systems",
    Phys. Rev. A 80, 012114 (2009) [PDF]

  184. M. Khasin and M. I. Dykman, ``Extinction rate fragility in population dynamics",
    Phys. Rev. Lett. 103, 068101 (2009) [PDF]

  185. D. Konstantinov, M. I. Dykman, M. J. Lea, Y. Monarkha, and K. Kono, ``Resonant Correlation-Induced Optical Bistability in an Electron System on Liquid Helium",
    Phys. Rev. Lett. 103, 096801 (2009) [PDF]

  186. M. I. Dykman, ``Swirled by light", Nature (News & Views) 461, 1226 (2009) [PDF of an expanded version]

  187. I. Serban, M. I. Dykman, and F. K. Wilhelm, ``Relaxation of a qubit measured by a driven Duffing oscillator",
    Phys. Rev. A 81, 022305 (2010) [PDF]

  188. L. Billings, I. B. Schwartz, M. McCrary, A. N. Korotkov, and M. I. Dykman, ``Switching Exponent Scaling near Bifurcation Points for Non-Gaussian Noise",
    Phys. Rev. Lett 104, 140601 (2010) [PDF]

  189. M. I. Dykman, ``Poisson-noise-induced escape from a metastable state",Phys. Rev. E 81, 051124 (2010) [PDF]

  190. M. Khasin, M. I. Dykman, and B. Meerson, ``Speeding up disease extinction with a limited amount of vaccine",
    Phys. Rev. E 81, 051925 (2010) [PDF]

  191. D. I. Schuster, A. Fragner, M. I. Dykman, S. A. Lyon, and R. J. Schoelkopf, ``Proposal for manipulating and detecting spin and orbital states of trapped electrons on Helium using cavity quantum electrodynamics",
    Phys. Rev. Lett. 105, 040503 (2010) [PDF]

  192. M.-S. Heo, Y. Kim, K. Kim, G. Moon, J. Lee, H.-R. Noh, M. I. Dykman, and W. Jhe, ``Ideal mean-field transition in a modulated cold atom system",
    Phys. Rev. E 82, 031134 (2010) [PDF]

  193. M. I. Dykman, M. Khasin, J. Portman, and S.W. Shaw, ``Spectrum of an oscillator with jumping frequency and the interference of partial susceptibilities",
    Phys. Rev. Lett. 105, 230601 (2010) [PDF]

  194. J. Atalaya, A. Isacsson, and M. I. Dykman, ``Diffusion-induced dephasing in nanomechanical resonators",
    Phys. Rev. B 83, 045419 (2011) [PDF]

  195. M. Khasin and M. I. Dykman, ``Control of rare events in reaction and population systems by deterministically imposed transitions",
    Phys. Rev. E 83, 031917 (2011) [PDF]

  196. M. I. Dykman, M. Marthaler, and V. Peano, ``Quantum heating of a parametrically modulated oscillator: Spectral signatures",
    Phys. Rev. A 83, 052115 (2011) [PDF]

  197. J. Atalaya, A. Isacsson, and M. I. Dykman, ``Diffusion-induced bistability of driven nanomechanical resonators",
    Phys. Rev. Lett. 106 , 227202 (2011) [PDF]

  198. Z. A. Maizelis, M. L. Roukes, and M. I. Dykman, ``Detecting and characterizing frequency fluctuations of vibrational modes",
    Phys. Rev. B 84 , 144301 (2011) [PDF]

  199. M. I. Dykman, ``Viewpoint: Signal amplification through bifurcation in nanoresonators",
    Physics 4, 16 (2011) [PDF]

  200. D. Konstantinov, M. I. Dykman, M. J. Lea, Yu. P. Monarkha, and K. Kono, ``Bistability and hysteresis of intersubband absorption in strongly interacting electrons on liquid helium",
    Phys. Rev. B 85, 155416 (2012) [PDF]

  201. A. Ichiki,Y. Tadokoro, and M. I. Dykman, ``Singular response of bistable systems driven by telegraph noise",
    Phys. Rev. E 85, 031106 (2012) [PDF]

  202. M. I. Dykman, ``Periodically modulated quantum nonlinear oscillators",
    in ``Fluctuating Nonlinear Oscillators. From nanomechanics to quantum superconducting circuits", ed. M. I. Dykman (OUP, Oxford 2012), pp. 165--197 [PDF]

  203. V. Peano, M. Marthaler, and M. I. Dykman, ``Sharp tunneling peaks in a parametric oscillator: Quantum resonances missing in the rotating wave approximation",
    Phys. Rev. Lett. 109, 090401(2012) [PDF]

  204. Lea F. Santos and M. I. Dykman, ``Quantum interference-induced stability of repulsively bound pairs of excitations",
    NJP 14, 095019 (2012) [PDF]

  205. J. Zou, S. Buvaev, M. Dykman, and H. B. Chan, ``Poisson noise induced switching in driven micromechanical resonators",
    Phys. Rev. B 86, 155420(2012) [PDF]

  206. M. I. Dykman and I. B. Schwartz, ``Large rare fluctuations in systems with delayed dissipation",
    Phys. Rev. E 86, 031145(2012) [PDF]

  207. A. Ichiki, Y. Tadokoro, and M. I. Dykman, ``Singular probability distribution of shot-noise driven systems",
    Phys. Rev. E 87, 012119 (2013) [PDF]

  208. L. Guo, V. Peano, M. Marthaler, and M. I. Dykman, ``Quantum critical temperature of a modulated oscillator",
    Phys. Rev. A 87, 062117 (2013) [PDF]

  209. J. Moser, J. Güttinger, A. Eichler, M. J. Esplandiu, D. E. Liu, M. I. Dykman, and A. Bachtold, ``Ultrasensitive force detection with a nanotube mechanical resonator",
    Nat. Nanotech. 8, 493 (2013) ARXIV

  210. A. Eichler, J. Moser, M. I. Dykman, and A. Bachtold, ``Symmetry breaking in a mechanical resonator made from a carbon nanotube",
    Nat. Commun. 4, 2843 (2013) ARXIV

  211. V. Peano and M. I. Dykman, ``Quantum fluctuations in modulated nonlinear oscillators",
    NJP 16, 015011 (2014) [PDF]

  212. Z. Maizelis, M. Rudner, and M. I. Dykman, "Vibration multistability and quantum switching for dispersive coupling",
    Phys. Rev. B 89, 155439 (2014) [PDF]

  213. J. Moser, A. Eichler, J. Güttinger, M. I. Dykman, and A. Bachtold, ``Nanotube mechanical resonators with quality factors of up to 5 million",
    Nat. Nanotech. 9, 1007 (2014)[PDF]

  214. Yaxing Zhang, Y. Tadokoro, and M. I. Dykman, ``Fluctuation spectra of weakly driven nonlinear systems",
    NJP 16 ,113064 (2014) [PDF]

  215. Yaxing Zhang, J. Moser, J. Güttinger, A. Bachtold, and M. I. Dykman, ``Interplay of Driving and Frequency Noise in the Spectra of Vibrational Systems",
    Phys. Rev. Lett. 113, 255502 (2014) [PDF]

  216. Ira B. Schwartz, Lora Billings, Thomas W. Carr, and M. I. Dykman, ``Noise-induced switching and extinction in systems with delay",
    Phys. Rev. E 91, 012139 (2015) [PDF]

  217. M. I. Dykman and E. I. Rashba, ``The roots of polaron theory",
    Phys. Today 68 , no. 4, 10 (2015) [PDF]

  218. Z. R. Lin, Y. Nakamura, and M. I. Dykman, ``Critical fluctuations and the rates of interstate switching near the excitation threshold of a quantum parametric oscillator",
    Phys. Rev E 92 , 022105 (2015) [PDF]

  219. Yaxing Zhang and M. I. Dykman, ``Spectral effects of dispersive mode coupling in driven mesoscopic systems",
    Phys. Rev. B. 92, 165419 (2015) [PDF]

  220. S. Boixo,V. N. Smelyanskiy, A. Shabani, S. V. Isakov, M. Dykman, V. S. Denchev, M. H. Amin, A. Yu. Smirnov, M. Mohseni, and H. Neven, ``Computational multiqubit tunnelling in programmable quantum annealers",
    Nat. Comm. 7 , 10327 (2016) ARXIV

  221. P. M. Polunin, Y. S. Young, M. I. Dykman, T. W. Kenny, and S. W. Shaw, "Characterization of MEMS Resonator Nonlinearities Using the Ringdown Response", JMEMS 25 , 297 (2016) [PDF]

  222. M. I. Dykman, "Viewpoint: Stick-slip motion in a quantum field", Physics 9, 54 (2016) [PDF]

  223. F. Sun, X. Dong, J. Zou, M.I. Dykman, and H.B. Chan, ``Correlated anomalous phase diffusion of coupled phononic modes in a sideband-driven resonator",
    Nat. Comm. 7 , 12694 (2016) ARXIV

  224. Y. Young, E. J. Ng, P. M. Polunin, Y. Chen, I. B. Flader, C. M. Shaw, M. I. Dykman, and T. W. Kenny, "Nonlinearity of Degenerately Doped Bulk-Mode Silicon MEMS Resonators", JMEMS 25 , 859 (2016) [PDF]

  225. Juan Atalaya, T. W. Kenny, M. L. Roukes, and M. I. Dykman, ``Nonlinear damping and dephasing in nanomechanical systems",
    Phys. Rev. B. 94, 195440 (2016) [PDF]

  226. K. Moskovtsev and M. I. Dykman, ``Strong vibration nonlinearity in semiconductor-based nanomechanical systems",
    Phys. Rev. B. 95, 085426 (2017) [PDF]

  227. V.N. Smelyanskiy, D. Venturelli, A. Perdomo-Ortiz, S. Knysh, and M. I. Dykman, ``Quantum Annealing via Environment-Mediated Quantum Diffusion",
    Phys. Rev. Lett. 118, 066802 (2017) [PDF]

  228. M. Schecter, M. Shapiro, and M. I. Dykman, ``Localization lifetime of a many-body system with periodic constructed disorder",
    Ann. d. Phys. 529, 1600366 (2017) ARXIV

  229. Yaxing Zhang and M. I. Dykman, ``Preparing quasienergy states on demand: A parametric oscillator",
    Phys. Rev. A. 95, 053841 (2017) [PDF]

  230. Yaxing Zhang, J. Gosner, S. M. Girvin, J. Ankerhold, and M. I. Dykman, ``Time-translation-symmetry breaking in a driven oscillator: From the quantum coherent to the incoherent regime",
    Phys. Rev. A. 96, 052124 (2017) [PDF]

  231. M. I. Dykman, K. Kono, D. Konstantinov, and M. J. Lea, ``Ripplonic Lamb Shift for Electrons on Liquid Helium",
    Phys. Rev. Lett. 119, 256802 (2017) [PDF]

  232. O. Shoshani, S. W. Shaw, and M. I. Dykman,``Anomalous Decay of Nanomechanical Modes Going Through Nonlinear Resonance",
    Sci. Reps. 7, 18091 (2017) [PDF]

  233. Claudio Castelnovo, Mark I. Dykman, Vadim N. Smelyanskiy, Roderich Moessner, and Leonid P. Pryadko, ``Dephasing with strings attached",
    Phys. Rev. B. 97, 085121 (2018) [PDF]

  234. Yukihiro Tadokoro, Hiroya Tanaka, and M. I. Dykman, ``Driven nonlinear nanomechanical resonators as digital signal detectors",
    Sci. Reps. 8, 11284 (2018) [ARXIV]

  235. X. Dong, M.I. Dykman, and H.B. Chan, ``Strong negative nonlinear friction from induced two-phonon processes in vibrational systems",
    Nat. Comm. 9 , 3241 (2018) [ARXIV]

  236. M. I. Dykman, Christoph Bruder, Niels Loerch, and Yaxing Zhang, "Interaction-induced time-symmetry breaking in driven quantum oscillators",
    Phys. Rev. B 98 , 195444 (2018) [PDF]

  237. K. Moskovtsev and M. I. Dykman,"Self-diffusion in a spatially modulated system of electrons on helium",
    JLTP 195, 266 (2019) [PDF]

  238. M. I. Dykman, Gianluca Rastelli, M. L. Roukes, and Eva M. Weig, "Resonantly Induced Friction and Frequency Combs in Driven Nanomechanical Systems",
    Phys. Rev. Lett. 122 , 254301(2019) [PDF]

  239. Niels Loerch, Yaxing Zhang, Christoph Bruder, and M. I. Dykman, "Quantum state preparation for coupled period tripling oscillators",
    Phys. Rev. Research 1 , 023023 (2019) [PDF]

  240. M. I. Dykman, "Coherent multiple-period states of periodically modulated qubits",
    Phys. Rev. A 100 , 042101 (2019) [PDF]

  241. Yaxing Zhang and M. I. Dykman, "Nonlocal random walk over Floquet states of a dissipative nonlinear oscillator",
    Phys. Rev. E 100 , 052148 (2019) [PDF]

  242. O. Shoshani, M. I. Dykman, and S. W. Shaw, ``Tuning linear and nonlinear characteristics of a resonator via nonlinear interaction with a secondary resonator",
    Nonlin. Dyn. 99, 433 (2020) [PDF]

  243. J. S. Huber, G. Rastelli, M. J. Seitner, J. K\"olbl, W. Belzig, M. I. Dykman, and E. M. Weig, "Spectral Evidence of Squeezing of a Weakly Damped Driven Nanomechanical Mode",
    Phys. Rev. X 10 , 021066 (2020) [PDF]

  244. K. Moskovtsev and M. I. Dykman, "Mobility of a spatially modulated electron liquid on the helium surface", Phys. Rev. B 101, 245435 (2020) [PDF]

  245. Yukihiro Tadokoro, Hiroya Tanaka and M. I . Dykman, "Noise-induced switching from a symmetry-protected shallow metastable state", Sci. Rep. 10,10413 (2020) [PDF]

  246. J. S. Ochs, M. J. Seitner, M. I. Dykman, and E. M. Weig, "Amplification and spectral evidence of squeezing in the response of a strongly driven nanoresonator to a probe field",
    Phys. Rev. A 103 , 013506 (2021) [PDF]

  247. Nicholas J. Miller, Steven W. Shaw, and I. Dykman, "Suppressing Frequency Fluctuations of Self-Sustained Vibrations in Underdamped Nonlinear Resonators",
    Phys. Rev. Appl. 15 , 014024 (2021) [PDF]

  248. A. D. Chepelianskii, D. Konstantinov, and M. I. Dykman, "Many-Electron System on Helium and Color Center Spectroscopy",
    Phys. Rev. Lett. 127, 016801 (2021) [PDF]

  249. J. S. Ochs, G. Rastelli, M. Seitner, M. I. Dykman, and E. M. Weig, "Resonant nonlinear response of a nanomechanical system with broken symmetry",
    Phys. Rev. B 104 155434 (2021) [PDF]

  250. J. S. Ochs, D. K. J. Boness, G. Rastelli, M. Seitner, W. Belzig, M. I. Dykman, and E. M. Weig, "Frequency Comb from a Single Driven Nonlinear Nanomechanical Mode",
    Phys. Rev. X 12, 041019 (2022) [PDF]

  251. Adrian Bachtold, Joel Moser, and M. I. Dykman, ``Mesoscopic physics of nanomechanical systems", Rev. Mod. Phys., 94, 045005 (2022) [PDF]

  252. M. I. Dykman, Ofek Asban, Qianfan Chen, Dafei Jin, and S. A. Lyon. "Spin dynamics in quantum dots on liquid helium",
    Phys. Rev. B 107, 035437 (2023) [PDF]

  253. Trevor McCourt, Charles Neill, Kenny Lee, Chris Quintana, Yu Chen, Julian Kelly, Jeffrey Marshall, V. N. Smelyanskiy, M. I. Dykman, Alexander Korotkov, Isaac L. Chuang, and A. G. Petukhov, "Learning noise via dynamical decoupling of entangled qubits", Phys. Rev. A 107, 052610 (2023) [PDF]

  254. Filip Wudarski, Yaxing Zhang, Alexander N. Korotkov, A.G. Petukhov, and M.I. Dykman, "Characterizing Low-Frequency Qubit Noise", Phys. Rev. Applied 19, 064066 (2023) [PDF]

  255. Ryan Kaufman, Theodore White, Mark I. Dykman, Andrea Iorio, George Sterling, Sabrina Hong, Alex Opremcak, Andreas Bengtsson, Lara Faoro, Joseph C. Bardin,Tim Burger, Robert Gasca, and Ofer Naaman, "Josephson parametric amplifier with Chebyshev gain profile and high saturation", Phys. Rev. Applied 20, 054058 (2023) [PDF]

  256. Filip Wudarski, Yaxing Zhang, and M.I. Dykman, "Nonergodic Measurements of Qubit Frequency Noise", Phys. Rev. Lett. 131, 230201(2023) [PDF]

  257. C. Han, M. Wang, B. Zhang, M. I. Dykman, and H. B. Chan, "Coupled parametric oscillators: From disorder-induced current to asymmetric Ising model", Phys. Rev. Research 6, 023162 (2024), [PDF]

  258. D. K. J. Boness, W. Belzig, and M. I. Dykman, "Resonant-force-induced symmetry breaking in a quantum parametric oscillator", Phys. Rev. Research 6, 033240 (2024), [PDF]

  259. B. Zhang, Yingming Yan, X. Dong, M. I. Dykman, and H. B. Chan, "Frequency stabilization of self-sustained oscillations in a sideband-driven electromechanical resonator", Phys. Rev. Applied 22, 034072 (2024), [PDF]

  260. Filip Wudarski, Yaxing Zhang, Juan Atalaya, and M.I. Dykman, "Revealing inadvertent periodic modulation of qubit frequency", Phys. Rev. Applied 22, 054065 (2024) [PDF]
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