Atom Mirror Bibliography

Last Revised: 24 OCT 99

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  1. ADAMS, C. S. (1994). Atom Optics, Contemporary Physics, 35, 1-19.

  2. ADAMS, C. S., SIGEL, M., and MLYNEK, J. (1994b). Atom Optics, Physics Reports, 240, 143-210.

  3. AL-AWFI S, BABIKER M, Atom dynamics between conducting plates, Phys Rev A 58: (3) 2274-2281 SEP 1998.

  4. Al-Awfi S, Babiker M, Submicron rectangular cylinders as atom guides, PHYS REV A 58: (6) 4768-4778 DEC 1998.

  5. ALMAAS, E. and BREVIK, I. (1995). Radiation Forces on a Micrometer-Sized Sphere in Evanescent Field, Journal of the Optical Society of America B, 12, 2429-2438.

  6. AMINOFF, C. G., BOUYER, P., and DESBIOLLES, P. (1993a). Multiple Reflection of Cold Cesium Atoms on a Parabolic Electromagnetic Mirror, Comptes Rendus Hebdomadaires des Seances de l'Academie des Sciences, Serie II, 316, 1535-1541.

  7. AMINOFF, C. G., STEANE, A., BOUYER, M. P., DESBIOLLES, P., DALIBARD, J., and COHEN-TANNOUDJI, C. (1993b). Cesium Atoms Bouncing in a Stable Gravitational Cavity, Physical Review Letters, 71, 3083-3086.

  8. ANDERSON, A., HAROCHE, S., HINDS, E. A., JHE, W., MESCHEDE, D., and MOI, L. (1986). Reflection of Thermal Cs Atoms Grazing a Polished Glass Surface, Physical Review A, 34, 3513-3516.

  9. ARNDT M, SZRIFTGISER P, DALIBARD J, et al., Atom optics in the time domain, Phys Rev A 53: (5) 3369-3378 MAY 1996.

  10. ASHKIN, A. (1970). Acceleration and Trapping of Particles by Radiation Pressure, Physical Review Letters, 24, 156-159.

  11. ASHKIN, A. (1978). Trapping of Atoms by Resonance Radiation Pressure, Physical Review Letters, 40, 729-732.

  12. ASPECT, A., KAISER, R., VANSTEENKISTE, N., VIGNOLO, P., and WESTBROOK, C. I. (1995). Nondestructive Detection of Atoms Bouncing on an Evanescent Wave, Physical Review A, 52, 4704-4708.

  13. Babiker M, Al-Awfi S, Light-induced rotational effects in atom guides, OPT COMMUN 168: (1-4) 145-150 SEP 1 1999.

  14. BALDWIN, K. G. H., HAJNAL, J. V., and FISK, P. T. H. (1990). Optics for Neutral Atomic Beams: A Reflection and Diffraction of Sodium Atoms by Evanescent Laser Light Fields, Journal Of Modern Optics, 37, 1839-1848.

  15. BALYKIN, V. I., (1989). On the Possibility of Velocity Monochromatization of Atomic Beams Below Recoil Velocity, Applied Physics B, 49, 383-388.

  16. BALYKIN, V. I. and LETOKHOV, V. S. (1989a). Atomic Cavity with Light-Induced Mirrors, Applied Physics B, 48, 517-523.

  17. BALYKIN, V. I. and LETOKHOV, V. S. (1989b). Laser Optics of Neutral Atomic Beams, Physics Today, 48 (April), 23-28.

  18. BALYKIN, V. I. and LETOKHOV, V. S. (1990). The Laser Optics of Neutral Atomic Beams, Soviet Physics-Uspekhi, 33, 79-85.

  19. BALYKIN, V. I., LETOKHOV, V. S., OVCHINNIKOV, YU. B., and SIDOROV, A. I. (1987). Reflection of an Atomic Beam from a Gradient of an Optical Field, JETP Letters, 45, 353-356. [Translation from: (1987) Pis'ma v Zhurnal Eksperimental'noi i Teoreticheskoi Fiziki, 45, 282-285.]

  20. BALYKIN, V. I., LETOKHOV, V. S., OVCHINNIKOV, and YU. B., SIDOROV, A. I. (1988). Quantum-State-Selective Mirror Reflection of Atoms by Laser Light, Physical Review Letters, 60, 2137-2140.

  21. Bell AS, Brezger B, Drodofsky U, Nowak S, Pfau T, Stuhler J, Schulze T, Mlynek J, Nano-lithography with atoms, SURF SCI 435: 40-47 AUG 2 1999.

  22. BERKHOUT, J. J., LUITEN, O. J. , SETIJA, I. D., HIJMANS, T. W, MIZUSAKI, T., and WALRAVEN, J. T. M. (1989). Quantum Reflection: Focusing of Hydrogen Atoms with a Concave Mirror, Physical Review Letters, 63, 1689-1692.

  23. BERKHOUT, J. J. and WALRAVEN, J. T. M. (1993). Scattering of Hydrogen Atoms from Liquid-Helium Surfaces, Physical Review B, 47, 8886-8904.

  24. CHANG, S., JO, J. H., and LEE, S. S. (1994). Theoretical Calculations of Optical Force Exerted on a Dielectric Sphere in the Evanescent Field Generated with a Totally-Reflected, Focused Gaussian Beam, Optics Communications, 108, 133-143.

  25. CHEN, W.-Y. and MILBURN, G. J. (1995). Fractional Quantum Revivals in the Atomic Gravitational Cavity, Physical Review A, 51, 2327-2333.

  26. CHRIST, M., SCHOLZ, A., SCHIFFER, M., DEUTSCHMANN, R., and ERTMER, W. (1994). Diffraction and Reflection of a Slow Metastable Neon Beam by an Evanescent Light Grating, Optics Communications, 107, 211-217.

  27. CHU, S. and WIEMAN, C. (eds.) (1989). Laser Cooling and Trapping of Atoms, special issue of the Journal of the Optical Society of America B, 6.

  28. Cognet L, Savalli V, Horvath G, Holleville D, Marani R, Westbrook N, Westbrook C, Aspect A, Atomic interference in grazing incidence diffraction from an evanescent wave mirror, Physical Review Letters -- December 7, 1998 -- Volume 81, Issue 23, pp. 5044-5047.

  29. Cognet L, Horvath GZK, Holleville D, Savalli V, Westbrook CI, Westbrook N, Aspect A, Induced Raman transition diffraction between magnetic sublevels of Rb atoms on an evanescent-wave mirror, ANN PHYS-PARIS 23: 175-176 Suppl. C1 1998.

  30. Cognet L, Savalli V, Featonby PD, Helmerson K, Westbrook N, Westbrook CI, Phillips WD, Aspect A, Zabow G, Drndic M, Lee CS, Westervelt RM, Prentiss M Smoothing a current-carrying atomic mirror, EUROPHYS LETT 47: (5) 538-544 SEP 1 1999.

  31. COOK, R. J. (1979). Atomic Motion in Resonant Radiation: An Application of Ehrenfest's Theorem, Physical Review A, 20, 224-228.

  32. COOK, R. J. and HILL, R. K. (1982). An Electromagnetic Mirror for Neutral Atoms, Optics Communications, 43, 258-260.

  33. Cote R, Segev B, Raizen MG, Retardation effects on quantum reflection from an evanescent-wave atomic mirror, PHYS REV A 58: (5) 3999-4013 NOV 1998.

  34. DALIBARD, J. and COHEN-TANNOUDJI, C. (1985). Dressed-Atom Approach to Atomic Motion in Laser Light: The Dipole Force Revisited, Journal of the Optical Society of America B, 2, 1707-1720.

  35. Davis TJ Atomic de Broglie waveguides and integrated atom-optics using permanent magnets, J OPT B-QUANTUM S O 1: (4) 408-414 AUG 1999.

  36. Denschlag J, Cassettari D, Schmiedmayer J Guiding neutral atoms with a wire, PHYS REV LETT 82: (10) 2014-2017 MAR 8 1999.

  37. Denschlag J, Cassettari D, Chenet A, Schneider S, Schmiedemayer J, A neutral atom and a wire: towards mesoscopic atom optics, APPL PHYS B-LASERS O 69: (4) 291-301 OCT 1999.

  38. DESBIOLLES P, ARNDT M, SZRIFTGISER P, ET AL., Elementary Sisyphus process close to a dielectric surface, Phys Rev A 54: (5) 4292-4298 NOV 1996.

  39. DESBIOLLES P, ARNDT M, SZRIFTGISER P, DALIBARD J, Dissipative atom optics, Journal Of Modern Optics 44: (10) 1827-1836 OCT 1997.

  40. DEUTSCHMANN, R., ERTMER, W., and WALLIS, H. (1993a). Reflection and Diffraction of Atomic de Broglie Waves by an Evanescent Laser Wave, Physical Review A, 47, 2169-2185

  41. DEUTSCHMANN, R., ERTMER, W., and WALLIS, H. (1993b). Reflection Beam Splitter for Multilevel Atoms, Physical Review A, 48, R4023-R4026.

  42. DHOLAKIA K, Atom hosepipes, Contemp Phys 39: (5) 351-369 SEP-OCT 1998.

  43. DOWLING, J. P. and GEA-BANACLOCHE, J. (1995). Schrödinger Modal Structure of Cubical, Pyramidal, and Conical, Evanescent Light-Wave Gravitational Atom Traps, Physical Review A, 52, 3997-4003.

  44. DOWLING, J. P. and GEA-BANACLOCHE, J. (1996) Evanescent Light -Wave Atom Mirrors, Resonators, Waveguides, and Traps, Advances in Atomic, Molecular, and Optical Physics, Vol. 36, edited by B. Bederson and H. Walther (Academic Press HBJ, Boston, 1996) pp.1-94.

  45. DOWLING, J. P. (1997). Hollow-Fiber, Evanescent Light-Wave, Atom-Bottle Trap, in the Proceedings of the SPIE Photonics West meeting: Conference on Atom Optics, held in San Jose, California, 8-14 February 1997, edited by M. G. Prentiss and W. D. Phillips, (SPIE Proceedings 2995, Bellingham, 1997) pp. 126-137.

  46. Drndic M, Johnson KS, Thywissen JH, Prentiss M, Westervelt RM, Micro-electromagnets for atom manipulation, APPL PHYS LETT 72: (22) 2906-2908 JUN 1 1998.

  47. Dubetsky B, Berman PR Conical lens for atom focusing, PHYS REV A 58: (3) 2413-2416 SEP 1998.

  48. DUTTA, G. S. and AGARWAL, G. S. (1995). Strong-Coupling Cavity Physics in Microspheres with Whispering-Gallery Modes, Optics Communications, 115, 597-605.

  49. ENGLER, H., I. MANEK, A. U. MOSLENER, M. NILL, YU. B. OVCHINNIKOV,U. SCHL…DER, U. SCH†NEMANN, M. ZIELONKOWSKI, M. WEIDEM†LLER, R. GRIMM, Optical traps for quantum gases, Appl. Phys. B 67, 709 (1998).

  50. ESSLINGER, T., WEIDEMULLER, M., HEMMERICH, A., and HÄNSCH, T. W. (1993). Surface-Plasmon Mirror for Atoms, Optics Letters, 18, 450-452.

  51. FERON, S., REINHARDT, J., LE BOITEUX, S., GORCEIX, O., BAUDON, J., DUCLOY, M., ROBERT, J., MINIATURA, CH., NIC-CHORMAIC, S., HABERLAND, H., and LORENT, V. (1993). Reflections of Metastable Neon Atoms by a Surface Plasmon Wave, Optics Communications, 102, 83-88.

  52. FERON, S., REINHARDT, J., and DUCLOY, M. (1994). Doppler-Tuned Multiphoton Resonances in an Atom by a Standing Evanescent Wave, Physical Review A, 49, 4733-4741.

  53. Fortagh J, Grossmann A, Zimmermann C, Hansch TW, Miniaturized wire trap for neutral atoms, PHYS REV LETT 81: (24) 5310-5313 DEC 14 1998.

  54. Friedman N, Ozeri R, Davidson N, Quantum reflection of atoms from a periodic dipole potential, J OPT SOC AM B 15: (6) 1749-1756 JUN 1998.

  55. Gauck H, Hartl M, Schneble D, Schnitzler H, Pfau T, Mlynek J, Quasi-2D gas of laser cooled atoms in a planar matter waveguide, PHYS REV LETT 81: (24) 5298-5301 DEC 14 1998.

  56. GLASGOW, S., MEYSTRE, P., WILKINS, M., and WRIGHT, E. M. (1991). Theory of an Atomic Beam Splitter Based on Velocity-Tuned Resonances, Physical Review A, 43, 2455-2463.

  57. GORDON, J. P. and ASHKIN, A. (1980). Motion of Atoms in a Radiation Trap, Physical Review A, 21, 1606-1617.

  58. GORDON, D. and SAVAGE, C. (1996). Evanescent Wave Diffraction Of Multi-Level Atoms, Optics Communications, 130, 34-40.

  59. MANEK I, OVCHINNIKOV YB, GRIMM R, Generation of a hollow laser beam for atom trapping using an axicon, Opt Commun 147: (1-3) 67-70 FEB 1 1998.

  60. HAJNAL, J. V. and OPAT, G. I. (1989). Diffraction of Atoms by a Standing Evanescent Light Wave - A Reflection Grating for Atoms, Optics Communications, 71, 119-124.

  61. HAJNAL, J. V., BALDWIN, K. G. H., FISK, P. T. H., BACHOR, H. -A., and OPAT, G. I. (1989). Reflection and Diffraction of Sodium Atoms by Evanescent Laser Light Fields, Optics Communications, 73, 331-336.

  62. HARRIS, D. J. and SAVAGE, C. M. (1995). Atomic Gravitational Cavities from Hollow Optical Fibers, Physical Review A, 51, 3967-3971.

  63. HENKEL C, STEANE AM, KAISER R, DALIBARD J, A modulated mirror for atomic interferometry, Journal de Physique II 4: (11) 1877-1896 NOV 1994.

  64. Henkel C, Courtois JY, Aspect A, Atomic diffraction by a thin phase grating, J. Phys II (France), 4, 1955 (1994).

  65. HENKEL, C., KAISER, R., WESTBROOK, C., COURTOIS J.-Y., and ASPECT, A. (1994). Phase Shifts of Atomic de Broglie Waves at an Evanescent Wave Mirror, Laser Physics, 4, 1042-1049.

  66. HENKEL, C., WESTBROOK, C. I., and ASPECT, A. (1996). Quantum Reflection: Atomic Matter-Wave Optics In An Attractive Exponential Potential, Journal of the Optical Society of America B, 13, 233-243.

  67. HENKEL, C., MOLMER, K., KAISER, R., VANSTEENKISTE, N., WESTBROOK, C. I., and ASPECT, A. (1997). Diffuse Atomic Reflection At A Rough Mirror, Physical Review, 55, 1160-1178.

  68. HENKEL C, MOELMER K, KAISER R, WESTBROOK C, Atomic diffraction assisted by a stimulated Raman transition, Phys. Rev. A56, R9 (1997).

  69. Henkel C, Wallis H, Westbrook N, Westbrook CI, Aspect A, Sengstock K, Ertmer W, Theory of atomic diffraction from evanescent waves, APPL PHYS B-LASERS O 69: (4) 277-289 OCT 1999.

  70. HINDS EA, BOSHIER MG, HUGHES IG, Magnetic waveguide for trapping cold atom gases in two dimensions, Phys Rev Lett 80: (4) 645-649 JAN 26 1998.

  71. Hinds EA, Controlling cold atoms above a magnetic reflector, PHILOS T ROY SOC A 357: (1755) 1409-1420 MAY 15 1999.

  72. Hinds EA and Hughes IG, Magnetic atom optics: mirrors, guides, traps and chips for atoms, Journal of Physics D , R119-R146, volume 32, number 18, 21 September 1999.

  73. HOPE, J. and SAVAGE, C. M. (1996). Band Gaps For Atoms In Light Based Waveguides, Physical Review A, 53, 3449-3455 (1996).

  74. HORI, H., OHTSU, M., and OHSAWA, H. (1992). A Nanometer-Resolution Photon Tunneling Microscope and Proposal of Single Atom Manipulation, International Quantum Electronics and Laser Sciences Conference Technical Digest 9, 48-49.

  75. HUGHES IG, BARTON PA, ROACH TM, BOSHIER MG, HINDS EA, Atom optics with magnetic surfaces I: Storage of cold atoms in a curved 'floppy disk', Journal of Physics B-Atomic Molecular and Optical Physics 30: (3) 647-658 FEB 14 1997.

  76. HUGHES, I. G., P.A. BARTON, T.M. ROACH, AND E.A. HINDS, Atom Optics with Magnetic Surfaces II: Microscopic Analysis of the Floppy Disk Mirror, J. Phys. B. 30 2119 (1997).

  77. ITO, H., SAKAKI, K., NAKATA, T., JHE, W., and OHTSU, M. (1995). Optical Potential for Atom Guidance in Cylindrical-Core Hollow Fiber, Optics Communications, 115, 57-64.

  78. ITO, H., NAKATA, T., SAKAHI, K., OHTSU, M., LEE, K. I., and JHE, W. (1996). Laser Spectroscopy of Atoms Guided by Evanescent Waves in a Small Hollow Fiber, Physical Review Letters, 76, 4500-4503.

  79. ITO, H., SAKAHI, K., OHTSU, M., AND JHE, W. (1997). Evanescent-Light Guiding Of Atoms Through Hollow Optical Fiber For Optically Controlled Atomic Deposition, Applied Physics Letters, 70, 2496-2498.

  80. ITO H, SAKAKI K, JHE W, OHTSU M Evanescent-light induced atom-guidance using a hollow optical fiber with light coupled sideways, Optics Communications 141: (1-2) 43-47 AUG 15 1997.

  81. JHE, W., OHTSU, M., and FRIBERG, S. R. (1994). Atomic Waveguide Using Evanescent Waves Near Optical Fibers, Japanese Journal of Applied Physics Part 2, 33, L1680-L1682.

  82. Johnson KS, Drndic M, Thywissen JH, Zabow G, Westervelt RM, Prentiss M, Atomic deflection using an adaptive microelectromagnet mirror, PHYS REV LETT 81: (6) 1137-1141 AUG 10 1998.

  83. KAISER, R., LEVY, Y., VANSTEENKISTE, N., ASPECT, A., SEIFERT, W., LEIPOLD, D., and MLYNEK, J. (1994). Resonant Enhancement of Evanescent Waves with a Thin Dielectric Waveguide, Optics Communications, 104, 234-240.

  84. KASEVICH, M. A., WEISS, D. S., and CHU, S. (1990). Normal-Incidence Reflection of Slow Atoms from an Optical Evanescent Wave, Optics Letters, 15, 607-609.

  85. KAWATA, S. and SUGIURA, T. (1992). Movement of Micrometer-Sized Particles in the Evanescent Field of a Laser Beam, Optics Letters, 17, 772-774.

  86. KAZANTSEV, A. P., RYABENKO, G. A., SURDATOWICH, G. I., and YAKOVLEV, V. P., SCATTERING OF ATOMS BY LIGHT, (1985). Physics Reports, 129, 75.

  87. KAZANTSEV, A. P., SURDUTOVICK, G. I., and YAKOVLEV, V. P. (1990). Mechanical Action Of Light On Atoms. World Scientific, Singapore & Teaneck, New Jersey.

  88. KEITH, D. W., SCHATTENBURG, M. L., SMITH, H. I., and PRITCHARD, D. E. (1988). Diffraction of Atoms by a Transmission Grating, Physical Review Letters, 61, 1580-1583.

  89. KEITH, D. W., EKSTROM, C. R., TURCHETTE, Q. A., and PRITCHARD, D. E. (1991a). An Interferometer for Atoms, Physical Review Letters, 66, 2693-2696.

  90. KETTERLE, W. and PRITCHARD, D. E. (1992). Trapping and Focusing Ground-State Atoms with Static Fields, Applied Physics B, 54, 403-406.

  91. KIERSNOWSKI K, JOZEFOWSKI L, DOHNALIK T, Effective optical anisotropy in evanescent wave propagation in atomic vapor, Phys Rev A 57: (6) R4079-R4081 JUN 1998.

  92. Kim JA, Lee KI, Nha H, Noh HR, Jhe W, Simple atom trap in a conical hollow mirror: Numerical analysis, J KOREAN PHYS SOC 30: (2) 387-390 Part 2 APR 1997.

  93. KIM, J. A., LEE, K. I., NOH, H. R., JHE, W, and OHTSU, M. (1997). Single Beam Atom Trap in a Pyramidal and a Conical Hollow Mirror, Optics Letters, 22, 117-119.

  94. KIM JA, LEE KI, NHA H, et al., Cold atoms in a hollow mirror trap, Int J Mod Phys B 11: (28) 3311-3317 NOV 10 1997.

  95. KIM JA, LEE KI, NOH HR, et al., Atom trap in an axicon mirror, Opt Lett 22: (2) 117-119 JAN 15 1997.

  96. Kobayashi K, Ohtsu M Quantum theoretical approach to a near-field optical system, J MICROSC-OXFORD 194: 249-254 Part 2-3 MAY-JUN 1999.

  97. KORSCH, H. J. and LANG, J. (1991). A New Integrable Gravitational Billiard, Journal of Physics A: 24, 45-52.

  98. LABEYRIE G, LANDRAGIN A, VON-ZANTHIER J,KAISER R, VANSTEENKISTE N, WESTBROOK C, ASPECT A, Detailed study of a high finesse planar waveguide for evanescent wave mirrors, Quantum and Semiclass. Opt., 8, 603 (1996)

  99. LANDRAGIN, A., HENKEL, C., KAISER, R., VANSTEENKISTE, N., WESTBROOK, C. I. and ASPECT, A. (1996). Specular versus diffuse reflection of atoms from an evanescent-wave mirror, Optics Letters, 21, 1591-1593.

  100. LANDRAGIN, A., COURTOIS, J.-Y., LABEYRIE, G., VANSTEENKISTE, N., WESTBROOK, C. I. and ASPECT, A. (1996). Measurement of the van der Waals Force in an Atomic Mirror, Physical Review Letters, 77, 1464-1467.

  101. LANDRAGIN A, COGNET L, HORVATH G, WESTBROOK C, WESTBROOK N, ASPECT A, A reflection grating for atoms at normal incidence, Europhys. Lett., 39, 485 (1997).

  102. Lau DC, Sidorov AI, Opat GI, McLean RJ, Rowlands WJ, Hannaford P, Reflection of cold atoms from an array of current-carrying wires, EUR PHYS J D 5: (2) 193-199 FEB 1999.

  103. Lau DC, McLean RJ, Sidorov AI, Gough DS, Koperski J, Rowlands WJ, Sexton BA, Opat GI, Hannaford P, Magnetic mirrors with micron-scale periodicities for slowly moving neutral atoms, J OPT B-QUANTUM S O 1: (4) 371-377 AUG 1999.

  104. Lee KI, Kim KH, Kim JA, Noh HR, Jhe W, Ohtsu M, Pulsed cold atomic beam from an axicon trap, J KOREAN PHYS SOC 33: (3) 365-370 SEP 1998.

  105. Lee K, Kim JA, Kim K, Won CY, Yoo SH, Shim U, Xu X, Jhe W, Oh K, Paek UC, Cold atoms in hollow optical systems, J KOREAN PHYS SOC 35: (3) 115-121 SEP 1999.

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  107. LENZ, G., MEYSTRE, P., and WRIGHT, E. M. (1994). Nonlinear Atom Optics: General Formalism and Atomic Solitons, Physical Review A, 50, 1681-1691.

  108. Li DJ, Huang H, Lu XH, Li SQ, A magnetic tube structure for atom guidance, OPT COMMUN 160: (1-3) 72-74 FEB 1 1999.

  109. LISTON, G. J., TAN, S. M., and WALLS, D. F. (1995a). Quantum Dynamics of Bouncing Atoms in a Stable Gravitational Cavity, Applied Physics B, 60, 211-227.

  110. LISTON, G. J., TAN, S. M., and WALLS, D. F. (1995b). Effect of Spontaneous Emission on the Atomic Modes in a Stable Gravitational Cavity, Physical Review A, 52, 3057-3073.

  111. MABUCHI, H. and KIMBLE, H. J. (1994). Atom Galleries for Whispering Atoms: Binding Atoms in Stable Orbits Around an Optical Resonator, Optics Letters, 19, 749-751.

  112. MARKSTEINER, S., SAVAGE, C. M., ZOLLER, P., and ROLSTON, S. L. (1994). Coherent Atomic Waveguides from Hollow Optical Fibers: Quantized Atomic Motion, Physical Review A, 50, 2680-2690.

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  115. MARTI, O. and BALYKIN, V. I. (1993). Light Forces on Dielectric Particles and Atoms, in POHL, D. W., and CORJON, D. (eds.), Near Field Optics. Kluwer Academic Press, Amsterdam, pp. 121-130.

  116. Marzlin KP, Audretsch J, Gravito-optical trapping of three-level atoms, PHYS REV A 53: (6) 4352-4359 JUN 1996.

  117. McLean RJ, Sidorov AI, Gough DS, Koperski J, Rowlands WJ, Sexton BA, Hannaford P, Lau DC, Opat GI, Magnetic atom optical elements for laser-cooled atoms, J KOREAN PHYS SOC 35: (3) 127-132 SEP 1999.

  118. MEYSTRE, P. and STENHOLM, S., (eds.) (1985). Mechanical Effects of Light, special issue of the Journal of the Optical Society of America B, 2.

  119. MINOGIN, V. G. and LETOKHOV, V. S. (1987). Laser Light Pressure on Atoms. Gordon and Breach Science Publishers, New York.

  120. MLYNEK, J., BALYKIN, V., and MEYSTRE, P. (eds.) (1992). Optics and Interferometry with Atoms, special issue of Applied Physics B, 54, 319-485.

  121. MURPHY, J., GOODMAN, P., and SMITH, A. (1993). Calculation of Back-Reflected Intensities of a Na-Atom by a Standing Evanescent E-M Field, Journal of Physics: Condensed Matter, 5, 4665-4676.

  122. MURPHY, J. E., HOLLENBERG, C. L., and SMITH, A. E. (1994). Velocity-Tuned Resonances in the Diffraction of Atoms by an Evanescent Field, Physical Review A, 49, 3100-3103.

  123. MURPHY, J. E., GOODMAN, P., and SIDOROV, A. (1995). Proposal for a New Transmission-Reflection Beam Splitter for Multi-Level Atoms, Optics Communications, 117, 83-89.

  124. NHA H, JHE W, Sisyphus cooling on the surface of a hollow-mirror atom trap, Phys Rev A 56: (1) 729-736 JUL 1997.

  125. Opat GI, Chormaic SN, Cantwell BP, Richmond JA, Optical elements for slowly moving neutral atoms based on magnetic fields, J OPT B-QUANTUM S O 1: (4) 415-419 AUG 1999.

  126. OL'SHANII, M. A., OVCHINNIKOV, Yu. B., and LETOKHOV, V. S. (1993). Laser Guiding of Atoms in a Hollow Optical Fiber, Optics Communications, 98, 77-79.

  127. OL'SHANII M, Atomic scattering in the presence of an external confinement and a gas of impenetrable bosons, Phys Rev Lett 81: (5) 938-941 AUG 3 1998.

  128. OVCHINNIKOV, Yu. B., SHUL'GA, S. V., and BALYKIN, V. I. (1991). An Atomic Trap Based on Evanescent Light Waves, Journal of Physics B, 24, 3173-3178.

  129. OVCHINNIKOV, YU. B., S…DING, J., and GRIM, R. (1995a). Cooling Atoms in Dark Gravitational Laser Traps, JETP Letters, 61, 21-25. [Translation from: (1995) Pis'ma v Zhurnal Ekperimental'noi i Teoreticheskoi Fiziki, 61, 23-27].

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