Articles in Refereed Journals

submitted

submitted V. V. Ivanov, J. A. Isaacs, M. Saffman, S.A. Kemme, A.R. Ellis, G.R. Brady, J.R. Wendt, G. W. Biedermann, and S. Samora, Atom trapping in a bottle beam created by a diffractive optical element, (May 2013)

V. N. Premakumar, M. Saffman, and R. Joynt, Measurement-free error correction with coherent ancillas  arXiv 2007.09804 (2020)

D. C. Gold, P. Huft, C. Young, A. Safari, T. G. Walker, M. Saffman, and D. D. Yavuz Spatial Coherence of Light in Collective Spontaneous Emission, arXiv: 2112.07580 (2021)

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2021

144 M. J. Cervia, A. B. Balantekin, S. N. Coppersmith, C. W. Johnson, P. J. Love, C. Poole, K. Robbins, and M. Saffman, Lipkin model on a quantum computer, Phys. Rev. C 104, 024305 (2021).

143 F. Robicheaux, T. M. Graham, and M. Saffman, Photon-recoil and laser-focusing limits to Rydberg gate fidelity, Phys. Rev. A 103, 022424 (2021)

142 E. Altman, K. R. Brown, G. Carleo, L. D. Carr, E. Demler, C. Chin, B. DeMarco, S. E. Economou8 M. A. Eriksson, K.-M. C. Fu, M. Greiner, K. R.A. Hazzard, R. G. Hulet, A. J. Kollár, B. L. Lev, M. D. Lukin, R. Ma, X. Mi, S. Misra, C. Monroe, K. Murch, Z. Nazario, K.-K. Ni, A. C. Potter, P. Roushan, M. Saffman, M. Schleier-Smith, I. Siddiqi, R. Simmonds, M. Singh, I.B. Spielman, K. Temme, D. S. Weiss, J. Vuckovic, V. Vuletic, J. Ye, and M. Zwierlein, Quantum Simulators: Architectures and Opportunitiesr, PRX Quantum 2, 017003 (2021).

141 Y. Xiao, Z. Yu, R. A. Wambold, H. Mei, G. Hickman, R. H. Goldsmith, M. Saffman and M. A. Kats, Efficient generation of optical bottle beams, Nanophot. 10, 2893 (2021).

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2020

140 G.T. Hickman and M. Saffman, Speed, retention loss, and motional heating of atoms in an optical conveyor belt Phys. Rev. A 101 063411 (2020)

139 M. Saffman, I. I. Beterov, A. Dalal , E. J. Paez , and B. C. Sanders, Symmetric Rydberg controlled-Z gates with adiabatic pulses Phys. Rev. A 101 062309 (2020)

138 N. Lauk, N. Sinclair, S. Barzanjeh, J. P. Covey, M. Saffman, M. Spiropulu, and C. Simon, Perspectives on quantum transduction, Qu. Sci. Tech. 5, 020501 (2020)

137 M. Kwon, P. Yang, P. Huft, C. Young, M. Ebert, and M. Saffman, Generation of 14.0 W of single-frequency light at 770 nm by intracavity frequency doubling Opt. Lett.  45, 339 (2020)

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2019

136 T. M. Graham, M. Kwon , B. Grinkemeyer , Z. Marra, X. Jiang, M. T. Lichtman , Y. Sun, M. Ebert , and M. Saffman, Rydberg-Mediated Entanglement in a Two-Dimensional Neutral Atom Qubit Array Phys. Rev. Lett. 123, 230501 (2019)

135 D. Petrosyan, K. Mølmer, J. Fortagh,and M. Saffman, Microwave to optical conversion with atoms on a superconducting chip New J. Phys. 21, 073033 (2019)

134 J. P. Covey, A. Sipahigil, and M. Saffman, Microwave-to-optical conversion via four-wave mixing in a cold ytterbium ensemble P hys. Rev. A 100, 012307 (2019)

133 M. Saffman, Quantum computing with neutral atoms Nat. Sci. Rev.6, 24 (2019)

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2018

132 I. I. Beterov, I. N. Ashkarin, E. A. Yakshina, D. B. Tretyakov, V. M. Entin, I. I. Ryabtsev, P. Cheinet, P. Pillet, and M. Saffman, Fast three-qubit Toffoli quantum gate based on three-body Förster resonances in Rydberg atoms Phys. Rev. A 98, 042704, (2018).

131 F. Robicheaux, D. W. Booth, and M. Saffman Theory of long range interactions for Rydberg states attached to hyperfine-split cores Phys. Rev. A 97, 022508 (2018)

130 D. W. Booth, J. Isaacs, and M. Saffman, Reducing the sensitivity of Rydberg atoms to dc electric fields using two-frequency ac field dressing Phys. Rev. A 97, 112515 (2018)

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2017

129 M. Kwon, M. F. Ebert, T. G. Walker, and M. Saffman, Parallel low-loss measurement of multiple atomic qubits Phys. Rev. Lett. 119, 180504 (2017).

128 D. Petrosyan, F. Motzoi, M. Saffman, and K. Mølmer, High-fidelity Rydberg quantum gate via a two-atom dark state Phys. Rev. A 96, 042306 (2017).

127 D. S. Weiss and M. Saffman, Quantum computing with neutral atoms Phys. Today 70, 44 (2017).

126 B. T. Gard, K. Jacobs, R. McDermott, and M. Saffman, Microwave-to-optical frequency conversion using a cesium atom coupled to a superconducting resonator Phys. Rev. A 96, 013833 (2017).

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2016

125 I.I. Beterov, M. Saffman, E.A. Yakshina, D.B. Tretyakov, V.M. Entin, S. Bergamini, E.A. Kuznetsova, and  I.I. Ryabtsev, Two-qubit gates using adiabatic passage of the Stark-tuned Förster resonances in Rydberg atoms Phys. Rev. A 94, 062307 (2016)

124 A. W. Carr and M. Saffman, Doubly magic trapping for Cs atom hyperfine clock transitions Phys. Rev. Lett. 117, 150801 (2016)

123 M. Saffman, Quantum computing with atomic qubits and Rydberg interactions: Progress and challenges J. Phys. B 49, 202001 (2016)

122 D. Crow, R. Joynt, and M. Saffman, Improved error thresholds for measurement-free error correction Phys. Rev. Lett. 117, 130503 (2016)

121 L. S. Theis, F. Motzoi, F. K. Wilhelm, and M. Saffman, High fidelity Rydberg blockade entangling gate using shaped, analytic pulses Phys. Rev. A 94, 032306 (2016)

120 M. A. Beck, J. A. Isaacs, D. Booth, J. D. Pritchard, M. Saffman, and R. McDermott, Optimized Coplanar Waveguide Resonators for a Superconductor–Atom Interface Appl. Phys. Lett. 109, 092602 (2016)

119 J.D. Pritchard, J.A. Isaacs, and M. Saffman, Long working distance objective lenses for single atom trapping and imaging Rev. Sci. Instrum. 87, 073107 (2016)

118 I. I. Beterov, M. Saffman, E. A. Yakshina, D. B. Tretyakov, V. M. Entin, G. N. Hamzina, and I I Ryabtsev, Simulated quantum process tomography of quantum gates with Rydberg superatoms J. Phys. B 49, 114007 (2016).

117 D. Petrosyan, M. Saffman, and K. Mølmer, Grover search algorithm with Rydberg-blockaded atoms: Quantum Monte Carlo simulations J. Phys. B 49, 094004 (2016)

116 K. Christandl-Gillen, G. D. Gillen, M. Piotrowicz, and M. Saffman, Comparison of Gaussian and super Gaussian laser beams for addressing atomic qubits Appl. Phys. B 122, 131 (2016)

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2015

115 I. I. Beterov and M. Saffman, Rydberg blockade, Förster resonances, and quantum state measurements with different atomic species Phys. Rev. A 92, 042710 ( 2015)

114 M. Ebert, M. Kwon, T. G. Walker, and M. Saffman, Coherence and Rydberg blockade of atomic ensemble qubits Phys. Rev. Lett. 115, 093601 (2015)

113 K. M. Maller, M. T. Lichtman, T. Xia, Y. Sun, M. J. Piotrowicz, A. W. Carr, L. Isenhower, and M. Saffman, Rydberg-blockade controlled-NOT gate and entanglement in a two-dimensional array of neutral-atom qubits Phys. Rev. A 92, 022336 (2015)

112 Physics synopsis T. Xia, M. Lichtman, K. Maller, A. W. Carr, M. J. Piotrowicz, L. Isenhower, and M. Saffman, Randomized benchmarking of single qubit gates in a 2D array of neutral atom qubits, Phys. Rev. Lett. 114, 100503 (2015)

111 J. Hostetter, J. D. Pritchard, J. E. Lawler, and M. Saffman, Measurement of Holmium Rydberg series through magneto-optical trap depletion spectroscopy (December 2014)

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2014

110 I. I. Beterov, M. Saffman, V. P. Zhukov, D. B. Tretyakov, V. M. Entin, E. A. Yakshina, I. I. Ryabtsev, C. W. Mansell, C. MacCormick, S. Bergamini, and M. P. Fedoruk, Coherent control of mesoscopic atomic ensembles for quantum information, Laser Phys. 24, 074013 (2014).

109 J. Miao, J. Hostetter, G. Stratis, and M. Saffman, Magneto-Optical Trapping of Holmium Atoms, Phys. Rev. A 89, 041401(R) (2014).

108 M. Ebert, A. Gill, M. Gibbons, X. Zhang, M. Saffman, and T. G. Walker, Atomic Fock state preparation using Rydberg blockade, Phys. Rev. Lett. 112, 043602 (2014).

107 J. D. Pritchard, J. A. Isaacs, M. A. Beck, R. McDermott, and M. Saffman, Hybrid Atom–Photon Quantum Gate in a Superconducting Microwave Resonator, Phys. Rev. A 89, 010301(R) (2014).

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2013

106 T. Xia, X. L. Zhang and M. Saffman, Analysis of a controlled phase gate using circular Rydberg states, Phys. Rev. A 88, 062337 (2013).

105 M. J. Piotrowicz, M. Lichtman, K. Maller, G. Li, S. Zhang, L. Isenhower, and M. Saffman, A two-dimensional lattice of blue detuned atom traps using a projected Gaussian beam array, Phys. Rev. A 88, 013420 (2013).

104 I. I. Beterov, M. Saffman, E. A. Yakshina, V. P. Zhukov, D. B. Tretyakov, V. M. Entin, I. I. Ryabtsev, C. W. Mansell, C. MacCormick, S. Bergamini, and M. P. Fedoruk, Quantum gates in mesoscopic atomic ensembles based on adiabatic passage and Rydberg blockade, Phys. Rev. A 88, 010303(R) (2013).

103 A. W. Carr and M. Saffman, Preparation of entangled and antiferromagnetic states by dissipative Rydberg pumping, Phys. Rev. Lett. 111, 033607 (2013).

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2012

102 T. G. Walker, and M. Saffman, Entanglement of Two Atoms using Rydberg blockade, Adv. At. Mol. Opt. Phys. 61, 81 (2012)

101. X. L. Zhang, A. T. Gill, L. Isenhower, T. G. Walker, and M. Saffman, Fidelity of a Rydberg blockade quantum gate from simulated quantum process tomography, Phys. Rev. A 85, 042310 (2012)

100 G. Li, S. Zhang, L. Isenhower, K. Maller, and M. Saffman, A crossed vortex bottle beam trap for single-atom qubits, Opt. Lett. 37, 851 (2012)

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2011

99 S. Zhang, F. Robicheaux, and M. Saffman, Magic-wavelength optical traps for Rydberg atoms, Phys. Rev. A 84, 043408 (2011)

98 L. Isenhower, M. Saffman, and K. Mølmer, Multibit CkNOT quantum gates via Rydberg blockade, Quant. Inf. Proc. 10, 755 (2011)

97 K. Mølmer, L. Isenhower, and M. Saffman, Efficient Grover search with Rydberg blockade, J. Phys. B 44, 184016 (2011).

96 F. Maucher, N. Henkel, M. Saffman, W. Krolikowski, S. Skupin, and T. Pohl, Rydberg-induced Solitons: Three-dimensional Self-trapping of Matter Waves, Phys. Rev .Lett. 106, 170401 (2011).

95 M. Saffman, X. L. Zhang, A. T. Gill, L. Isenhower, and T. G. Walker, Rydberg state mediated quantum gates and entanglement of pairs of neutral atoms, J. Phys.: Conf. Ser. 264, 012023 (2011).

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2010

94 C. Knoernschild, X. L. Zhang, L. Isenhower, A. T. Gill, F. P. Lu, M. Saffman, and J. Kim, Independent individual addressing of multiple neutral atom qubits with a MEMS beam steering system, Appl. Phys. Lett. 97, 134101 (2010).

93. X. L. Zhang, L. Isenhower, A. T. Gill, T. G. Walker, and M. Saffman, Deterministic entanglement of two neutral atoms via Rydberg blockade, Phys. Rev. A 82, 030306(R) (2010).

87. E. Urban, T. A. Johnson, T. Henage, L. Isenhower, D. D. Yavuz, T. G. Walker, and M. Saffman, Observation of Rydberg blockade between two atoms, Nature Phys. 5, 110 (2009).

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2008

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2007

79. E. Brion, K. Mølmer, and M. Saffman, Quantum computing with collective ensembles of multi-level systems, Phys. Rev. Lett. 99, 260501 (2007).

78. S. Skupin, M. Saffman, and W. Królikowski, Nonlocal stabilization of nonlinear beams in a self-focusing atomic vapor, Phys. Rev. Lett. 98, 263902 (2007).

77. O.-K. Lim, B. Boland, and M. Saffman, Observation of twin beam correlations and quadrature entanglement by frequency doubling in a two-port resonator, Europhys. Lett. 78, 40004 (2007).

76. E. Brion, L. H. Pedersen, K. Mølmer, S. Chutia, and M. Saffman, Universal quantum computation in a neutral atom decoherence free subspace, Phys. Rev. A 75, 032328 (2007).

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2006

75. O.-K. Lim and M. Saffman, Intensity correlations and entanglement by frequency doubling in a two-port resonator, Phys. Rev. A 74, 023816 (2006).

74. W. Williams and M. Saffman, Two-dimensional atomic lithography by submicrometer focusing of atomic beams, J. Opt. Soc. Am. B 23, 1161 (2006).

73. D. D. Yavuz, P. B. Kulatunga, E. Urban, T. A. Johnson, N. Proite, T. Henage, T. G. Walker, and M. Saffman, Fast Ground State Manipulation of Neutral Atoms in Microscopic Optical Traps, Phys. Rev. Lett. 96, 063001

2005

72. M. Peckus, K. Staliunas, M. Saffman, G. Slekys, V. Sirutkaitis, V. Smilgevicius, and R. Grigonis, "Multiconical transverse patterns of a monolithic mini-cavity optical parametric oscillator", Lithuan. J. Phys. 45, 81 (2005).

71. M. Saffman and T. G. Walker, "Entangling single and N atom qubits for fast quantum state detection and transmission", Phys. Rev. A 72, 042302 (2005).

70. M. Saffman and T. G. Walker, "Analysis of a quantum logic device based on dipole-dipole interactions of optically trapped Rydberg atoms", Phys. Rev. A 72, 022347 (2005).

69. M. Peckus, K. Staliunas, M. Saffman, G. Slekys, V. Sirutkaitis, V. Smilgevicius, and R. Grigonis, "Multiconical Emission of a monolithic mini-cavity Optical Parametric Oscillator", Optics Commun. 251, 165-171 (2005).

68. T. G. Walker and M. Saffman, "Zeros of Rydberg-Rydberg Föster interactions", J. Phys. B: At. Mol. Opt. Phys. 38, S309-S319 (2005).

2004

67. Y. Wang and M. Saffman, "Z-scan formula for two-level atoms", Opt. Commun. 241, 513-520 (2004).

66. Y. Wang and M. Saffman, "Experimental study of nonlinear focusing in a magneto-optical trap using a Z-scan technique", Phys. Rev. A 70, 013801 (2004).

65. M. Saffman, G. McCarthy, and W. Królikowski, "Two dimensional modulational instability in photorefractive media", J. Opt. B: Quantum Semiclass. Opt. 6, S397-S403 (2004).

64. A. V. Mamaev, M. Saffman, and A. A. Zozulya, "Propagation of a mutually incoherent optical vortex pair in anisotropic nonlinear media", J. Opt. B: Quantum Semiclass. Opt. 6, S318–S322 (2004).

63. M. Saffman, "Addressing atoms in optical lattices with Bessel beams", Opt. Lett. 29, 1016-1018 (2004).

62. O.-K. Lim, B. Boland, M. Saffman, and W. Królikowski, "Creation, doubling, and splitting, of vortices in intracavity second harmonic generation", J. Opt. A: Pure Appl. Opt. 6, 486-489 (2004).

2003

61. A. V. Mamaev, P. Lodahl, and M. Saffman, "Observation of spatial modulation instability in intracavity second-harmonic generation", Opt. Lett. 28, 31-33 (2003).

2002

60. M. Saffman and T. G. Walker, "Creating single atom and single photon sources from entangled atomic ensembles", Phys. Rev. A 66, 065403-1--4 (2002).

59. N. P. Basse, P. K. Michelsen, S. Zoletnik, M. Saffman, M. Endler, and M. Hirsch, "Spatial distribution of turbulence in the Wendelstein 7-AS stellarator", Plasma Sources Sci. Technol. 11, A138-A142 (2002).

58. S.Zoletnik, N.P.Basse, M. Saffman, W. Svendsen, M. Endler, M. Hirsch, J. Baldzuhn, A. Werner, Ch. Fuchs, and the W7-AS team, "Changes in density fluctuations associated with confinement transitions close to a rational edge rotational transform in the W7-AS stellarator", Plasma Phys. Control. Fusion 44, 1581-1607 (2002).

57. M. Bache, P. Scotto, R. Zambrini, M. San Miguel, and M. Saffman, “Quantum properties of transverse pattern formation in second-harmonic generation”, Phys. Rev. A 66, 013809-1--17 (2002).

56. N. P. Basse, S. Zoletnik, M. Saffman, J. Baldzuhn, M. Endler, M. Hirsch, J. P. Knauer, G. Kühner, K. McCormick, A. Werner, and the W7-AS Team, “L- and H-mode separation of short wavelength turbulence in dithering Wendelstein 7-AS plasmas”, Physics of Plasmas 9, 3035-3049 (2002).

55. M. Bache, P. Lodahl, A. V. Mamaev, M. Marcus, and M. Saffman, "Observation of self-pulsing in singly resonant optical second-harmonic generation with competing nonlinearities", Phys. Rev. A 65, 033811-1--6 (2002).

54. P. Lodahl and M. Saffman, “Spatial quantum noise in singly resonant second-harmonic generation”, Opt. Lett. 27, 110-112 (2002); erratum 551 (2002).

2001

53. M. Schwab, C. Denz, A. V. Mamaev, and M. Saffman, “Manipulation of optical patterns by frequency detuning of the pump beams”, J. Opt. B: Quantum Semiclass. Opt. 3, 318-327 (2001).

52. M. Saffman, S. Zoletnik,  N. P. Basse, W. Svendsen, G. Kocsis, and M. Endler, “CO₂ laser based two-volume collective scattering instrument for spatially localized turbulence measurements”, Rev. Sci. Instrum. 72, 2579-2592 (2001).

51. M. Schwab, C. Denz, and M. Saffman, “Transverse modulational instability in counterpropagating two-wave mixing with frequency detuned pump beams”, J. Opt. Soc. Am. B 18, 628-638 (2001).

50. P. Lodahl, M. Bache, and M. Saffman, “Spatio-temporal structures in the internally pumped optical parametric oscillator”, Phys. Rev. A 63, 023815 1-12 (2001).

2000

49. P. Lodahl, M. Bache, and M. Saffman, “Spiral intensity patterns in the internally pumped optical parametric oscillator”, Phys. Rev. Lett. 85, 4506-4509 (2000).

48. P. Lodahl and M. Saffman, “Nonlinear Analysis of Pattern Formation in Singly Resonant Second Harmonic Generation", Opt. Commun. 184, 493-505 (2000).

47. P. M. Lushnikov and M. Saffman, “Collapse in a forced three dimensional nonlinear Schrödinger equation", Phys. Rev. E 62, 5793-5796 (2000).

46. P. Lodahl, M. Bache, and M. Saffman, “Modification of pattern formation in doubly resonant second harmonic generation by competing parametric oscillation", Opt. Lett. 25, 654-656 (2000).

1999

45. M. Schwab, C. Denz, and M. Saffman, “Multiple pattern stability in a photorefractive feedback system", Appl. Phys. B 69, 429-433 (1999).

44. M. Schwab, M. Saffman, C. Denz, T. Tschudi, “Fourier control of pattern formation in an interferometric feedback configuration", Opt. Commun. 170, 129-136 (1999).

43. P. Lodahl and M. Saffman, “Pattern formation in singly resonant second harmonic generation with competing parametric oscillation", Phys. Rev. A 60, 3251-3261 (1999).

42. P.-Y. Wang and M. Saffman, “Selecting optical patterns with spatial phase modulation", Opt. Lett. 24, 1118-1120 (1999).

1998

41. W. Królikowski, C. Denz, M. Saffman, B. Luther-Davies, and S. H. Holmstrom, “Interaction of coherent and incoherent photorefractive spatial solitons", Asian J. Phys. 7, 698-712 (1998).

40. W. Królikowski, C. Denz, A. Stepken, M. Saffman, and B. Luther-Davies, “Interaction of spatial photorefractive solitons", Quantum Semicl. Opt. 10, 823-837 (1998).

39. P. M. Lushnikov, P. Lodahl, and M. Saffman, “Transverse modulational instability of counterpropagating quasi-phase-matched beams in a quadratically nonlinear medium” Opt. Lett. 23, 1650-1652 (1998).

38. M. Saffman and A. A. Zozulya, “Circular solitons do not exist in photorefractive media", Opt. Lett. 23, 1579-1581 (1998).

37. M. Saffman, “Self-induced dipole force and filamentation instability of a matter wave", Phys. Rev. Lett. 81, 65-68 (1998).

36. A. V. Mamaev, M. Saffman, and A. A. Zozulya, “Phase dependent collisions of (2+1)D spatial solitons", J. Opt. Soc. Am. B 15, 2079-2082 (1998).

35. A. V. Mamaev and M. Saffman, “Selection of unstable patterns and control of optical turbulence by Fourier plane filtering", Phys. Rev. Lett. 80, 3499-3502 (1998).

34. W. Królikowski, M. Saffman, B. Luther-Davies, and C. Denz, “Anomalous interaction of spatial solitons in photorefractive media", Phys. Rev. Lett. 80, 3240-3243 (1998).

33. A. A. Zozulya, D. Z. Anderson, A. V. Mamaev, and M. Saffman, “Solitary attractors and low-order filamentation in anisotropic self-focusing media", Phys. Rev. A 57, 522-534 (1998).

1997

32. A. V. Mamaev, M. Saffman, and A. A. Zozulya, “Time dependent evolution of an optical vortex in photorefractive media", Phys. Rev. A 56, R1713-R1716 (1997).

31. A. V. Mamaev, A. A. Zozulya, V. K. Mezentsev, D. Z. Anderson, and M. Saffman, “Bound dipole solitary solutions in anisotropic nonlocal self-focusing media", Phys. Rev. A 56, R1110-R1113 (1997).

30. L. Lading, M. Saffman, and R. V. Edwards, “Laser anemometry based on collective scattering: the effects of propagating and nonpropagating fluctuations", Opt. Lasers in Engineer. 27, 531-542 (1997).

29. S. Juul Jensen and M. Saffman, “Transfer of temporal perturbations in photorefractive two-beam coupling", Appl. Phys. Lett. 70, 1494-1496 (1997).

28. A. V. Mamaev, M. Saffman, and A. A. Zozulya, “Decay of high order optical vortices in anisotropic nonlinear optical media", Phys. Rev. Lett. 78, 2108-2111 (1997).

27. A. V. Mamaev and M. Saffman, “Modulational instability and pattern formation in the field of noncollinear pump beams", Opt. Lett. 22, 283-285 (1997).

1996

26. A. V. Mamaev and M. Saffman, “Optical vortex patterns in a unidirectional ring oscillator", Physica Scripta T67, 21-25 (1996).

25. A. V. Mamaev, M. Saffman, and A. A. Zozulya, “Vortex evolution and bound pair formation in anisotropic nonlinear media", Phys. Rev. Lett. 77, 4544-4547 (1996).

24. A. A. Zozulya, D. Z. Anderson, A. V. Mamaev, and M. Saffman, “Self-focusing and soliton formation in media with anisotropic nonlocal material response", Europhys. Lett. 36, 419-424 (1996).

23. A. V. Mamaev and M. Saffman, “Pattern formation in a linear photorefractive oscillator", Opt. Commun. 128, 281-286 (1996).

22. A. V. Mamaev, M. Saffman, D. Z. Anderson, and A.A. Zozulya, “Propagation of light beams in anisotropic nonlinear media: from symmetry breaking to spatial turbulence", Phys. Rev. A, 54, 870-879 (1996).

21. A. V. Mamaev, M. Saffman, and A. A. Zozulya, “Breakup of two-dimensional bright spatial solitons due to transverse modulation instability", Europhys. Lett. 35, 25-30 (1996).

20. A. V. Mamaev and M. Saffman, “Hexagonal optical patterns in anisotropic nonlinear media", Europhys. Lett. 34, 669-674 (1996).

19. L. Lading, M. Saffman, S.G. Hanson, and R.V. Edwards, “A combined Doppler and time-of-flight laser anemometer for measurement of density fluctuations in plasmas", J. Atmos. and Terr. Phys. 58, 1013-1019 (1996).

18. A. V. Mamaev, M. Saffman, and A.A. Zozulya, “Propagation of dark stripe beams in nonlinear media: snake instability and creation of optical vortices", Phys. Rev. Lett. 76, 2262-2265 (1996).

17. A. A. Zozulya, D.Z. Anderson, and M. Saffman, “Control of mutual spatial coherence of temporal features by reflexive photorefractive coupling", J. Opt. Soc. Am. B 13, 41-49 (1996).

1995

16. A. A. Zozulya, M. Saffman, and D.Z. Anderson, “Stability analysis of two photorefractive ring resonator circuits: the flip-flop and the feature extractor", J. Opt. Soc. Am. B 12, 1036-1047 (1995).

15. M. Saffman and T. M. Jørgensen, “On the optimum spatial code of a laser anemometer", Opt. Commun. 116, 300-306 (1995).

14. J. Glückstad and M. Saffman, “Spontaneous pattern formation in a thin film of bacteriorhodopsin with mixed absorptive-dispersive nonlinearity", Opt. Lett. 20, 551-553 (1995).

13. A. A. Zozulya, M. Saffman, and D. Z. Anderson, “Double Phase Conjugate Mirror: convection and diffraction", J. Opt. Soc. Am. B 12, 255-264 (1995).

12. D. Z. Anderson, M. Saffman, and A. Hermanns, “Manipulating the information carried by an optical beam with reflexive photorefractive beam coupling", J. Opt. Soc. Am. B 12, 117-123 (1995).

1994

11. M. Saffman, D. Montgomery, A. A. Zozulya, and D. Z. Anderson, “Topology-preserving mappings in a self-imaging photorefractively pumped ring resonator", Chaos, Solitons & Fractals 4, 2077-2092 (1994).

10. M. Saffman, A. A. Zozulya, and D.Z. Anderson, “Transverse instability of energy- exchanging counterpropagating waves in photorefractive media", J. Opt. Soc. Am. B 11, 1409-1417 (1994).

9. A. A. Zozulya, M. Saffman, and D. Z. Anderson, “Propagation of light beams in photorefractive media: fanning, self-bending and formation of self-pumped four-wave mixing phase conjugation geometries", Phys. Rev. Lett. 73, 818-821 (1994).

8. M. Saffman, D. Montgomery, and D. Z. Anderson, “Collapse of a transverse mode continuum in a self-imaging photorefractively pumped ring resonator", Opt. Lett. 19, 518-520 (1994).

1993

7. M. Saffman, D. Montgomery, A. A. Zozulya, K. Kuroda, and D.Z. Anderson, “Transverse instability of counterpropagating waves in photorefractive media", Phys. Rev. A 48, 3209-3215 (1993).

1991

6. M Saffman, C. Benkert, and D. Z. Anderson, “Self-organizing photorefractive frequency demultiplexer", Opt. Lett. 16, 1993-1995 (1991).

5. R. T. Weverka, K. Wagner, and M. Saffman, “Fully interconnected, two dimensional neural arrays using wavelength multiplexed volume holograms", Opt. Lett. 16, 826-828 (1991).  

4. M. Saffman and D. Z. Anderson, “Mode-multiplexing and holographic demultiplexing communication channels on a multimode fiber", Opt. Lett. 16, 300-302 (1991).

1990

3. G. Pitcher, G. Wigley, and M. Saffman, “Velocity and drop size measurements in fuel sprays in a direct injection diesel engine", Part. Part. Syst. Charact. 7, 160-168 (1990).

1987

2. M. Saffman, “Automatic calibration of LDA measurement volume size", Appl. Opt. 26, 2592-2597, (1987).

1984

1. M. Saffman, “Parametric studies of a side wall quench layer", Comb. and Flame 55, 141-159 (1984).