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Project > Atomic Waveguides > Publications

RELATED PUBLICATIONS

  1. Passive Ring Resonator Method for Sensitive Inertial RotationMeasurements in Geo-Physics and Relativity, G. A. Sanders, M.Prentiss,and S. Ezekiel, Opt Lett 6, 569-571 (1981).
  2. Distortion in Atomic Beam Absorption Lineshapes, B. W. Peuse,M. Prentiss, and S. Ezekiel, Journal de Physique, Colloque C8, Supplementau numero 12, vol. 42 Dec (1981).
  3. Closed Loop, High Sensitivity Fiberoptic Gyroscope, M. Prentiss,J. L. Davis, and S. Ezekiel, Fiber-Optic Rotation Sensors and Related Technologies,Springer-Verlag, 297-301 (1982).
  4. Observation of Resonant Light Diffraction by an Atomic Beam,B. W. Peuse, M. Prentiss, and S. Ezekiel, Phys. Rev. Lett. 49, 269-272(1982).
  5. Elimination of Line-shape Distortion in Laser AbsorptionSpectroscopy in Atomic Beams, B. W. Peuse, M. Prentiss, and S. Ezekiel,Opt. Lett. 8, 54-156 (1983).
  6. Observation of Intensity Dependent Fluorescent LineshapeAsymmetry for Two-Level Atoms in a Standing Wave Field, M. Prentiss andS. Ezekiel, Phys. Rev. Lett. 56, 46-49 (1985).
  7. Influence of Atomic Recoil on the Spectrum of Resonance FluorescenceFrom a Two-Level Atom, M. Prentiss and S. Ezekiel, Phys. Rev. A 35, 922-925(1985).
  8. Trapping of Neutral Sodium Atoms with Radiation Pressure,E. L. Raab, M. Prentiss, A. E. Cable, S. Chu, and D. E. Pritchard, Phys.Rev. Lett. 59, 2631-2634 (1987).
  9. Laser Cooling and Trapping of Atoms, S. Chu, A. E. Cable,M. Prentiss, and J. E. Bjorkholm, Laser Spectroscopy VIII: Proceedingsof Eighth International Conference, Are, Sweden, Springer-Verlag, 58-63(1987).
  10. Atomic-Density Dependent Losses in an Optical Trap, M. Prentiss,A. E. Cable, J. E. Bjorkholm, S. Chu, E. L. Raab, and D. E. Pritchard,Opt. Lett. 13, 453-454 (1988).
  11. Coupled-Pendulum Model of the Stimulated Raman Effect, P.R. Hemmer and M. Prentiss, JOSA B 5, 1614-1625 (1988).
  12. Slowing and Cooling an Atomic Beam Using an Intense OpticalStanding Wave, M. Prentiss and A. E. Cable, Phys. Rev. Lett. 62, 1354-1357(1989).
  13. The Effect of Transverse Guiding on the Velocity Distributionof an Atomic Beam, M. Prentiss, A. E. Cable, and N. P. Bigelow, JOSA B6, 2155-2158 (1989).
  14. The Effect of Detuning on the Median Velocity of an AtomicBeam Slowed and Cooled by an Intense Optical Standing Wave, N. P. Bigelow,M. Prentiss, and A. E. Cable, Proceedings of the Ninth International Conferenceon Laser Spectroscopy , Bretton Woods, NH, 20-22 (1989).
  15. Observations of Sodium Atoms in a Magnetic Molasses TrapLoaded by a Continuous Uncooled Source, A. E. Cable, M. Prentiss, and N.P. Bigelow, Opt. Lett. 15, 507-509 (1990).
  16. Observation of Channeling of Atoms in the Three-DimensionalInterference Pattern of Optical Standing Waves, N. P. Bigelow and M. Prentiss,Phys. Rev. Lett. 65, 29-32 (1990).
  17. Direct Observation of the Influence of Doppler-Induced Resonanceson Atomic Velocities, N. P. Bigelow and M. Prentiss, Phys. Rev. Lett. 65,555-558 (1990).
  18. Decreased Damping of Ultra-Cold Atoms in Optical Molasses:Predictions and a Possible Solution, N. P. Bigelow and M. Prentiss, Opt.Lett. 15, 1479-1481 (1990).
  19. Forces on Three Level Atoms Including Coherent PopulationTrapping, M. Prentiss, N. P. Bigelow, M. S. Shahriar, and P. R. Hemmer,Opt. Lett. 16,1695-1697 (1991).
  20. Laser Manipulation of Atoms and Ions, M. Prentiss, J. Mervis,K. K. Berggren, M. S. Shahriar, P. R. Hemmer, and N. P. Bigelow, Proceedingsof the School of Physics Enrico Fermi, North Holland: Amsterdam, 225-237(1992).
  21. Nanostructures and Mesoscopic Systems, G. L. Timp, M. Prentiss,N. P. Bigelow, R. E. Behringer, and J. E. Cunningham, Proceedings of theInternational Symposium, Santa Fe, New Mexico, Academic Press, Inc., HarcourtBrace Jovanovich, 75-84 (1992).
  22. Optical Force on Raman Dark State in Two Standing Waves,P. R. Hemmer, M. , Prentiss, M. S. Shahriar, N. P. Bigelow, Optics Communications89, 335-342 (1992).
  23. Neutral Atom Nanolithography, K. K. Berggren, M. Prentiss,G. L. Timp, and R. E. Behringer, Proceedings of the Quantum Effect Physics,Electronics and Applications Workshop, Luxor, Egypt 6-10, Institute ofPhysics, Bristol, England, 79-84 (1992).
  24. Calculation of Enhanced Slowing and Cooling Due to the Additionof a Traveling Wave to an Intense Optical Standing Wave, D. Gottesman,J. Mervis, M. Prentiss, and N. P. Bigelow, Phys. Rev. A 46, 356-363 (1992).
  25. Using Light as a Stencil, M. Prentiss, G. L. Timp, N. P.Bigelow, R. E. Behringer and J. E. Cunningham, Appl. Phys. Lett. 60, 1027-1029(1992).
  26. First Observation of Forces on Three-Level Atoms in RamanResonant Standing-Wave Optical Fields, P. R . Hemmer, M. S. Shahriar, M.Prentiss, D. P. Katz, K. K. Berggren, J. Mervis, and N. P. Bigelow, Phys.Rev. Lett. 68, 3148-3151 (1992).
  27. Using Light as a Lens for Submicron, Neutral-Atom Lithography,G. Timp, R. E. Behringer, D. M. Tennant, J. E. Cunningham, M. Prentiss,and K. K. Berggren, Phys. Rev. Lett. 69, 1636-1639 (1992).
  28. Aligning and Attaching a Lens to an Optical Fiber Using LightPressure Force, J. Mervis, A. H. Bloom, G. Bravo, L. Mills, F. Zarinetchi,S.P. Smith, and M. Prentiss, Opt. Lett. 18, 325-327 (1992).
  29. Demonstration of a Fiber-Optical Light-Force Trap, A. Constable,J. Kim, J. Mervis, F. Zarinetchi, and M. Prentiss, Opt. Lett. 8, 1867-1869(1992).
  30. Bound by Light, M. Prentiss, Science Magazine 260 , 1078-1080(1993).
  31. Phase-Dependent Velocity Selective Coherent Population Trappingin a Folded Three-Level (Lambda) Under Standing Wave Excitation, M.S. Shahirar,P.R. Hemmer, M. G. Prentiss, A. Chu, D.P. Katz, and N.P. Bigelow, OpticsCommunications 103, 453-460 (1993).
  32. Continuous Polarization Gradient Precooling-Assisted VelocitySelective Coherent Population Trapping, M. S. Shahriar, P. R. Hemmer, M.G. Prentiss, P. Marte, J. Mervis, D. P. Katz, N. P. Bigelow, and T. Cai,Phys. Rev. A 48, 4035-4038 (1993).
  33. Polarization Gradient Assisted Subrecoil Cooling: QuantumCalculations in One Dimension, P. Marte, R. Dum, R. Taieb, P. Zoller, M.S. Shahriar, and M. Prentiss, Phys. Rev. A 49, 4826-4836 (1994).
  34. Demonstration of a Novel Atomic Beam Splitter, J. Lawalland M. Prentiss, Phys. Rev. Lett. 72, 993-996 (1994).
  35. Semiclassical Calculation of Diffusion Constant for (Lambda)System Momentum, A. Chu, D. P. Katz, and M. Prentiss, Phys. Rev. A 51,2289-2293 (1995).
  36. Calculation of Atomic Positions in Nanomater-Scale DirectWrite Optical Lithography with an Optical Standing Wave, K. Berggren, M.Prentiss, G. L. Timp, and R. E. Behringer, JOSA B 11, 1166-1176 (1994).
  37. Cooling and Confinement Assisted Velocity Selective CoherentPopulation Trapping, M. S. Shahriar, D. P. Katz, A. Chu, M. Prentiss, P.Marte, P. Zoller, T. Cai, N. Bigelow, and P. Hemmer, Laser Physics 4, 848(1994).
  38. Polarization Gradient Assisted Velocity Selective C coherentPopulation Trapping, A. Chu, M. Prentiss, D. P. Katz, M. S. Shahriar, P.Hemmer, P. Marte, P. Zoller, Phys. Rev. A 51, 2289 (1995).
  39. Demonstration of Non-Magnetic "Blazed Grating" Atomic BeamSplitter, K. S. Johnson, A. Chu, T. W. Lynn, K. K Berggren, M. S. Shahriar,and M. Prentiss, Optics Letters 20, 1310-1312 (1995).
  40. Fabrication of Arrays of Channel Waveguides by Three-DimensionalSelf-Assembly Using Patterned Organic Monolayers as Templates, E. Kim,G. M. Whitesides, L. K. Lee, S. P. Smith, and M. Prentiss, Advanced Materials8, 139-141 (1996).
  41. Demonstration of a blazed grating beam splitter for two levelatoms, K.S. Johnson, A.P. Chu, K. K. Berggren and M. Prentiss, Optics Communications126, 326-338 (1996).
  42. Atomic Beam Splitters with Acromatic Transverse-MomentumTransfer, A.P. Chu, K. S. Johnson, and M. G. Prentiss, JOSA B 13, 1352-1361(1996).
  43. Microlithography Using Neutral Metastable Atoms and Self-AssembledMonolayers, K. K. Berggren, A. Bard, J. L. Wilbur, J. D. Gillaspy, A. G.Heig, J. J. McClelland, Steven L. Rolston, William D. Phillips, Mara Prentiss,and George M. Whitesides, Science 269, 1255-1257 (1995).
  44. Large Angle Atomic Beam Splitters, A.P. Chu, K.S. Johnson,J. R. Lawall, and M. G. Prentiss, IEEE LEOS 9, 16-18 (1995).
  45. Elastomeric Optics, J. L. Wilbur, R. J. Jackman, G.M. Whitesides,E.C. Cheung,, L. Lee, and M. G. Prentiss, Chemistry of Materials 8, 1380-1385(1996).
  46. Fabrication of Single-Mode Polymetric Waveguides Using Micromoldingin Capillaries, X. Zhao, A. Stoddart, S. P. Smith, E. Kim, Y. Xia, M. G.Prentiss, and G.M. Whitesides, Advanced Materials 8, 420-424 (1996).
  47. Atomic Beamsplitter Based on Multiple Adiabatic Passage inthe Optical Interference Pattern, OlShanii, M., J. Vanicek, and M. Prentiss,Quantum Semiclassical Optics 8, 655-663 (1996).
  48. A Virtual Slit for Atom Optics and Nanolithography, A. Chu,K. Johnson and M. Prentiss, Quantum Semiclassical Optics 8, 521-529 (1996).
  49. Complex Optical Surfaces by Replica Molding Against ElastomericMasters, Xia, Y., E. Kim, X. Zia, J.A. Rogers, M. Prentiss, and G. Whitesides,Science 273, 347-349 (1996).
  50. Self-assembled Monolayers Exposed by Metastable Argon andMetastable Helium for Neutral Atom Lithography and Atom Beam Imaging, A.Bard, K. Berggren, J. Wilbur, J. Gillaspy, S. Rolston, J. McClelland, W.D.Phillips, M. Prentiss, and G. Whitesides, J. Vac. Sci. Technol. B 15, 1805-1810(1997).
  51. Virtual Amplitude Grating for Atomic Optics, A.P. Chu, K.S.Johnson, K. K. Berggren, and M. Prentiss, Optics Communications 134, 105-111 (1997).
  52. Using Neutral Metastable Argon Atoms and Contamination Lithographyto form Nanostructures in Silicon, Silicon Dioxide and Gold, K.S. Johnson,K. K. Berggren, A. Black, C. Black, A.P. Chu, N. Dekker, D. Ralph, J. H.Thywissen, R. Younkin, M. Prentiss, M. Tinkham, and G. Whitesides, Appl.Phys. Lett. 69 , 2773-2775 (1996). HTML
  53. Planar Anchoring of Nematic Phases of 4-n-Pentyl-4'- Cyanobiphenylon Self Assembled Monolayers Formed from Alkanethiols on Gold, W. Miller,N. Abbott, J.D. Paul, and M. Prentiss, Appl. Phys. Lett. 69, 1852-1854(1996). HTML
  54. Demonstration of a Nanolithographic Technique Using a Self-Assembled Monolayer Resist for Neutral Atomic Cesium, K. K. Berggren, R.Younkin, E. Cheung, M. Prentiss, A. Black, G.M. Whitesides, D.C. Ralph,C.T. Black, M. Tinkham, Advanced Materials 9, 52-55 (1997).
  55. Demonstration of Waveguide Couplers Fabricated Using MicrotransferMolding, X. Zhao, S. P. Smith, S. J. Waldman, G. M. Whitesides, M. Prentiss,Appl. Phys. Lett. 71, 1017-1019 (1997). HTML
  56. Nanostructure fabrication in silicon using cesium to patterna self-assembled monolayer, R. Younkin, K. K. Berggren, K. S. Johnson,M. Prentiss, D. C. Ralph, G. M. Whitesides, Applied Physics Letters 71,1261 (1997).
  57. Trapped Bose Gas: The Canonical Versus Grand Canonical Statistics,C. Herzog and Maxim Olshanii, Phys. Rev. A 55, 3254-3256 (1997).HTML
  58. Micro-Electromagnets for Atom Manipulation, M. Drndic, K.S. Johnson, J. H. Thywissen, M. Prentiss, and R. M. Westervelt, App.Phys. Lett. 72, 2906 (1998). HTML
  59. Formation and Detection of Atomic Wavepackets Localized tothe Heisenberg Uncertainty Limit: A new Nanolithographic Technique, K.S. Johnson, J. H. Thywissen, N. H. Dekker, K. K. Berggren. A. P. Chu, R.Younkin, M. Prentiss, Science 280, 1583 (1998).
  60. Fabrication of Liquid-core Waveguides by Soft Lithography,O. J. Schueller, Xiao-Mei Zhao, G. Whitesides, S. Smith, and M. Prentiss,AdvancedMaterials 11, 37 (1999)..
  61. Resist-based Neutral Atom Lithography, J. H. Thywissen, K.S.Johnson, R. Younkin, N. Dekker, K. Berggren, A.P. Chu, and M. Prentiss,OSA Trends in Optics and Photonics Series, Vol. 23, Symposium on Electro-optics:Present and Future
  62. Design and Fabrication of Topologically Complex, Three-DimensionalMicrostructures, Rebecca J. Jackman, Scott T. Brittain, Allan Adams, MaraG. Prentiss, George M. Whitesides, Science 280, 1583-1586 (1998).
  63. Fabrication of Glass Microstructures by Micro-Molding ofSol-Gel Precursors, C. Marzolin, S.P. Smith, M. Prentiss, and G.M. Whitesides,Adv.Mater. 10, 571-574 (1998).
  64. Dark-state-based three-element vector model for the stimulatedRaman interaction, M. S. Shahriar, P. R. Hemmer, D. P. Katz, A. Lee, andM. G. Prentiss, Phys. Rev.A 55, 2272-2282 (1997). HTML
  65. Atomic Deflection Using an Adaptive Micro-ElectromagneticMirror, K.S. Johnson, M. Drndic, J. H. Thywissen, G. Zabow, R. M. Westervelt,and M. Prentiss, Phys. Rev. Lett. 81, 1137-1141 (1998). HTML
  66. Three-Dimensional Metallic Microstructures Fabricated bySoft Lithography and Microelectrodeposition, R.J. Jackman, S. T. Brittain,A. Adams, H. Wu, M. G. Prentiss, G.M. Whitesides, Langmuir 15, 826-836(1999).
  67. Using neutral atoms and standing light waves to form a calibrationartifact for length metrology, J. H. Thywissen, K. S. Johnson, N. H. Dekker,A. P. Chu, M. Prentiss, J. Vac. Sci. Technol. 16B , 3841 (1998).
  68. Microfabrication of Two Layer Structures of ElectricallyIsolated Wires Using Self-Assembly to Guide the Deposition of InsulatingOrganic Polymer", Andrew J. Black, Paul F. Nealy, Joseph H. Thywissen,Mandar Deshpande, Nada El-Zein, George N. Marcus, Mara Prentiss, GeorgeM. Whitesides, submitted to Sensors and Actuators, 1998.
  69. Metastable-atom-activated growth of an ultrathin carbonaceousresist for reactive ion etching of SiO2 and Si3N4, J. H. Thywissen, K.S. Johnson, N. H. Dekker, M. Prentiss, S. S. Wong, M. Weiss, M. Grunze,J.Vac. Sci. Technol. B16, 1155 (1998).
  70. Improving the specularity of magnetic mirrors for atoms,G. Zabow, M. Drndic', J. H. Thywissen, K. S. Johnson, R. M. Westervelt,and M. Prentiss, Euro. Phys. J. D 7, 351 (1999).
  71. Inexpensive Optical Tweezers for Undergraduate Laboratories,S.P. Smith, S.R. Bhalotra, A. Brody, B. L. Brown, E. K. Boyda, and M. Prentiss, Amer.J. of Phys. 67, 26 (1999). PDF
  72. de-Broglie Wave Front Engineering, M. Olshanii, N. Dekker,C. Herzog, and M. Prentiss, submitted to PRL. VariousFormats
  73. Properties of Microelectromagnet Mirrors as Reflectors ofCold Rb Atoms, G. Zabow, C.S. Lee, J. H. Thywissen, K.S. Johnson and M.Prentiss, R. M. Westervelt, P. D. Featonby, V. Savalli, L. Cognet, K. Helmerson,N. Westbrook, C. I. Westbrook, W. D. Phillips, A. Aspect, Phys. Rev.A 60, 4012 (1999),
  74. Microfabricated Magnetic Waveguides for Neutral Atoms, J.H. Thywissen, M. Olshanii, G. Zabow, M. Drndic', K. S. Johnson, R. M. Westervelt,and M. Prentiss, Euro. Phys. J. D 7, 261 (1999). PS
  75. Tightly Confining Magnetic Waveguides for Atoms, J. H. Thywissen,M. Olshanii, G. Zabow, M. Drndic, K. S. Johnson, R. M. Westervelt, M. Prentiss,TechnicalDigest (Summaries of papers presented at the Quantum Electronicsand Laser Science Conference), 81 (1999).
  76. Quantum Point Contacts for Neutral Atoms, J. H. Thywissen,R. M. Westervelt, M. Prentiss, Phys. Rev. Lett. 83, 3762 (1999).
  77. Smoothing a Current Carrying Atomic Matter, L. Cognet, V.Savalli, P. D. Featonby, K. Helmerson, N. Westbrook, C.I. Westbrook, W.D. Phillips, A. Aspect, G. Zabow, M. Drndic, C. S. Lee, R. M. Westervelt,M Prentiss, Europhys. Lett. 47. 539 (1999).
  78. Atom Lithography Using Standing-wave Quenching, K. S. Johnson,J. H. Thywissen, N. H. Dekker, A. P. Chu, R. Younkin, K. K. Berggren, M.Prentiss, Technical Digest Series (Technical Digest Summaries of papers presented at the Internation Quantum Electronics Conference, Edition1998), 166 (1999).
  79. Substrate-based Atom Waveguide using Guided Two-color Evanescent LightFields, A. H. Barnett, S. P. Smith, M. Olshanii, K. S. Johnson, A. W. Adams,M. Prentiss, accepted PRA 1999.
  80. Guiding Neutral Atoms on a Chip, N. H. Dekker, C. S. Lee,V. Lorent, J. H. Thywissen, M. Drndic, S. P. Smith, R. M. Westervelt, and M. Prentiss, Phys. Rev. Lett. 84, 1124 (2000).
  81. Tightly Confining Waveguide for Cold Atom Interferometry, W. Rooijakkers, M. Vengalattore, G. Zabow and M. Prentiss, CLEO/ QUELS 2001 Technical Digest, 113 (2001).
  82. A Tube-MOT of Cesium Atoms for Loading Microstructures, M. Vengalattore, W. Rooijakkers, T. Deng, G. Whitesides and M. Prentiss, CLEO/QUELS 2001 Technical Digest, 112 (2001).
  83. Massively Parallel Binding-Force Measurements and Assembly of Macromolecules, F. Assi, R. Jenks, G. Zabow, and M. Prentiss, Biophysics, Boston (2001)
  84. R. Jenks, F. Assi, G. Zabow, and M. Prentiss. "Massively Parallel Manipulation of Biopolymers and Cells Using Magnetic Tweezers," presented at Principles of Soft Condensed Matter, Santa Fe, 21-25 May 2001.
  85. M. Vengalattore, W. Rooijakkers and M. Prentiss. “Novel Ferromagnetic Atom Waveguide with in situ Loading”, Phys. Rev. A 66, 053403 (2002).
  86. W. Rooijakkers, M. Vengalattore and M. Prentiss, “Ferromagnetic Waveguides for Atom Interferometry”,  ’Proceedings of the XV International Conference on Laser Spectroscopy’, Snowbird, Utah (10-15 June 2001), World Scientific, pp 313-316.
  87. Towards a high flux continuous atom laser, W. Rooijakkers, M. Vengalattore, R. Conroy and M. Prentiss, CLEO/QUELS 2002 Technical Digest, 67 (2002).
  88. A continuous source of magnetically guided dark state atoms, W. Rooijakkers, R. Conroy, M. Vengalattore and M. Prentiss, Bull. Am. Phys. Soc. 47, 11 (2002).
  89. Trapping and control of ultracold atoms near a surface, M. Vengalattore, W. Rooijakkers, R. Conroy and M. Prentiss, Bull. Ams. Phys. Soc. 47, 13 (2002).
  90. Guided microfluidics by electromagnetic capillary focusing, G. Zabow, F. Assi, R. Jenks and M. Prentiss, Appl. Physics Letters 80, 1483 (2002)
  91. Suppression of photon rescattering due to spatial anisotropy in a cold atomic gas, M. Vengalattore, W. Rooijakkers, R. Conroy and M. Prentiss, Phys. Rev. A (2003)
  92. DNA unzipped under a constant force exhibits multiple metastable intermediates, C.Danilowicz, V.W.Coljee, C.Bouzigues, D.K.Lubensky, D.R.Nelson, M.Prentiss, Proc. Natl. Acad. Sci. U.S.A, 108, 1694-1699 (2003)
PIs
Mara Prentiss
Wolfgang Ketterle

Postdocs
Wilbert Rooijakkers
Richard Conroy

Graduate Students
Mukund Vengalattore
Scott Sanders
Yanhong Xiao

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