Abstract

We demonstrate guiding of cold 85Rb atoms through a 100-micron-diameter hollow core dielectric waveguide using cylindrical hollow modes. We have transported atoms using blue-detuned light in the 1st order, azimuthally-polarized TE01 hollow mode, and the 2nd order hollow modes (HE31, EH11, and HE12), and compared these results with guidance in the red-detuned, fundamental HE11 mode. The blue-detuned hollow modes confine atoms to low intensity along the capillary axis, far from the walls. We determine scattering rates in the guides by directly measuring the effect of recoil on the atoms. We observe higher atom numbers guided using red-detuned light in the HE11 mode, but a 10-fold reduction in scattering rate using the 2nd order modes, which have an r4 radial intensity profile to lowest order. We show that the red-detuned guides can be used to load atoms into the blue-detuned modes when both high atom number and low perturbation are desired.

© 2012 OSA

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    [CrossRef] [PubMed]
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    [CrossRef]
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    [CrossRef] [PubMed]
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    [CrossRef] [PubMed]
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    [CrossRef] [PubMed]
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    [CrossRef] [PubMed]
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    [CrossRef] [PubMed]

2011 (3)

M. Bajcsy, S. Hofferberth, T. Peyronel, V. Balic, Q. Liang, A. S. Zibrov, V. Vuletic, and M. D. Lukin, “Laser-cooled atoms inside a hollow-core photonic-crystal fiber,” Phys. Rev. A 83(6), 063830 (2011).
[CrossRef]

M. L. Terraciano, S. E. Olson, and F. K. Fatemi, “Temperature dependent photon scattering in blue-detuned optical traps,” Phys. Rev. A 84(2), 025402 (2011).
[CrossRef]

F. K. Fatemi, “Cylindrical vector beams for rapid polarization-dependent measurements in atomic systems,” Opt. Express 19(25), 25143–25150 (2011).
[CrossRef] [PubMed]

2010 (1)

2009 (2)

A. A. Ishaaya, C. J. Hensley, B. Shim, S. Schrauth, K. W. Koch, and A. L. Gaeta, “Highly-efficient coupling of linearly- and radially-polarized femtosecond pulses in hollow-core photonic band-gap fibers,” Opt. Express 17(21), 18630–18637 (2009).
[CrossRef] [PubMed]

M. Bajcsy, S. Hofferberth, V. Balic, T. Peyronel, M. Hafezi, A. S. Zibrov, V. Vuletic, and M. D. Lukin, “Efficient all-optical switching using slow light within a hollow fiber,” Phys. Rev. Lett. 102(20), 203902 (2009).
[CrossRef] [PubMed]

2008 (2)

2007 (3)

Y. Yirmiyahu, A. Niv, G. Biener, V. Kleiner, and E. Hasman, “Excitation of a single hollow waveguide mode using inhomogeneous anisotropic subwavelength structures,” Opt. Express 15(20), 13404–13414 (2007).
[CrossRef] [PubMed]

S. E. Olson, M. L. Terraciano, M. Bashkansky, and F. K. Fatemi, “Cold-atom confinement in an all-optical dark ring trap,” Phys. Rev. A 76(6), 061404 (2007).
[CrossRef]

T. Takekoshi and R. J. Knize, “Optical guiding of atoms through a hollow-core photonic band-gap fiber,” Phys. Rev. Lett. 98(21), 210404 (2007).
[CrossRef] [PubMed]

2006 (1)

2005 (3)

T. Grosjean, A. Sabac, and D. Courjon, “A versatile and stable device allowing the efficient generation of beams with radial, azimuthal, or hybrid polarizations,” Opt. Commun. 252(1-3), 12–21 (2005).
[CrossRef]

F. K. Fatemi, M. Bashkansky, and S. Moore, “Side-illuminated hollow-core optical fiber for atom guiding,” Opt. Express 13(13), 4890–4895 (2005).
[CrossRef] [PubMed]

A. Kaplan, M. F. Andersen, T. Grunzweig, and N. Davidson, “Hyperfine spectroscopy of optically trapped atoms,” J. Opt. B Quantum Semiclassical Opt. 7(8), R103–R125 (2005).
[CrossRef]

2002 (1)

N. Friedman, A. Kaplan, and N. Davidson, “Dark optical traps for cold atoms,” Adv. At. Mol. Opt. Phys. 48, 99–151 (2002).
[CrossRef]

2001 (1)

K. M. O’Hara, S. R. Granade, M. E. Gehm, and J. E. Thomas, “Loading dynamics of CO2 laser traps,” Phys. Rev. A 63(4), 043403 (2001).
[CrossRef]

2000 (2)

R. Grimm, M. Weidemuller, and Y. B. Ovchinnikov, “Optical dipole traps for neutral atoms,” Adv. At. Mol. Opt. Phys. 42, 95–170 (2000).
[CrossRef]

D. Müller, E. A. Cornell, D. Z. Anderson, and E. R. I. Abraham, “Guiding laser-cooled atoms in hollow-core fibers,” Phys. Rev. A 61(3), 033411 (2000).
[CrossRef]

1999 (2)

R. Ozeri, L. Khaykovich, and N. Davidson, “Long spin relaxation times in a single-beam blue-detuned optical trap,” Phys. Rev. A 59(3), R1750–R1753 (1999).
[CrossRef]

Y. Song, D. Milam, and W. T. Hill, “Long, narrow all-light atom guide,” Opt. Lett. 24(24), 1805–1807 (1999).
[CrossRef] [PubMed]

1998 (1)

K. Dholakia, “Atom hosepipes,” Contemp. Phys. 39(5), 351–369 (1998).
[CrossRef]

1997 (1)

H. S. Pilloff, “Enhanced atom guiding in metal-coated, hollow-core optical fibers,” Opt. Commun. 143(1-3), 25–29 (1997).
[CrossRef]

1996 (2)

M. J. Renn, E. A. Donley, E. A. Cornell, C. E. Wieman, and D. Z. Anderson, “Evanescent-wave guiding of atoms in hollow optical fibers,” Phys. Rev. A 53(2), R648–R651 (1996).
[CrossRef] [PubMed]

H. Ito, T. Nakata, K. Sakaki, M. Ohtsu, K. I. Lee, and W. Jhe, “Laser spectroscopy of atoms guided by evanescent waves in micron-sized hollow optical fibers,” Phys. Rev. Lett. 76(24), 4500–4503 (1996).
[CrossRef] [PubMed]

1995 (1)

M. J. Renn, D. Montgomery, O. Vdovin, D. Z. Anderson, C. E. Wieman, and E. A. Cornell, “Laser-guided atoms in hollow-core optical fibers,” Phys. Rev. Lett. 75(18), 3253–3256 (1995).
[CrossRef] [PubMed]

1994 (1)

1964 (1)

E. A. J. Marcatili and R. A. Schmeltzer, “Hollow metallic and dielectric waveguides for long distance optical transmission and lasers,” Bell Syst. Tech. J. 43, 1783–1809 (1964).

Abdolvand, A.

Abraham, E. R. I.

D. Müller, E. A. Cornell, D. Z. Anderson, and E. R. I. Abraham, “Guiding laser-cooled atoms in hollow-core fibers,” Phys. Rev. A 61(3), 033411 (2000).
[CrossRef]

Andersen, M. F.

A. Kaplan, M. F. Andersen, T. Grunzweig, and N. Davidson, “Hyperfine spectroscopy of optically trapped atoms,” J. Opt. B Quantum Semiclassical Opt. 7(8), R103–R125 (2005).
[CrossRef]

Anderson, D. Z.

D. Müller, E. A. Cornell, D. Z. Anderson, and E. R. I. Abraham, “Guiding laser-cooled atoms in hollow-core fibers,” Phys. Rev. A 61(3), 033411 (2000).
[CrossRef]

M. J. Renn, E. A. Donley, E. A. Cornell, C. E. Wieman, and D. Z. Anderson, “Evanescent-wave guiding of atoms in hollow optical fibers,” Phys. Rev. A 53(2), R648–R651 (1996).
[CrossRef] [PubMed]

M. J. Renn, D. Montgomery, O. Vdovin, D. Z. Anderson, C. E. Wieman, and E. A. Cornell, “Laser-guided atoms in hollow-core optical fibers,” Phys. Rev. Lett. 75(18), 3253–3256 (1995).
[CrossRef] [PubMed]

Bajcsy, M.

M. Bajcsy, S. Hofferberth, T. Peyronel, V. Balic, Q. Liang, A. S. Zibrov, V. Vuletic, and M. D. Lukin, “Laser-cooled atoms inside a hollow-core photonic-crystal fiber,” Phys. Rev. A 83(6), 063830 (2011).
[CrossRef]

M. Bajcsy, S. Hofferberth, V. Balic, T. Peyronel, M. Hafezi, A. S. Zibrov, V. Vuletic, and M. D. Lukin, “Efficient all-optical switching using slow light within a hollow fiber,” Phys. Rev. Lett. 102(20), 203902 (2009).
[CrossRef] [PubMed]

Balic, V.

M. Bajcsy, S. Hofferberth, T. Peyronel, V. Balic, Q. Liang, A. S. Zibrov, V. Vuletic, and M. D. Lukin, “Laser-cooled atoms inside a hollow-core photonic-crystal fiber,” Phys. Rev. A 83(6), 063830 (2011).
[CrossRef]

M. Bajcsy, S. Hofferberth, V. Balic, T. Peyronel, M. Hafezi, A. S. Zibrov, V. Vuletic, and M. D. Lukin, “Efficient all-optical switching using slow light within a hollow fiber,” Phys. Rev. Lett. 102(20), 203902 (2009).
[CrossRef] [PubMed]

Bashkansky, M.

Biener, G.

Chen, J. S. Y.

Cline, R. A.

Cornell, E. A.

D. Müller, E. A. Cornell, D. Z. Anderson, and E. R. I. Abraham, “Guiding laser-cooled atoms in hollow-core fibers,” Phys. Rev. A 61(3), 033411 (2000).
[CrossRef]

M. J. Renn, E. A. Donley, E. A. Cornell, C. E. Wieman, and D. Z. Anderson, “Evanescent-wave guiding of atoms in hollow optical fibers,” Phys. Rev. A 53(2), R648–R651 (1996).
[CrossRef] [PubMed]

M. J. Renn, D. Montgomery, O. Vdovin, D. Z. Anderson, C. E. Wieman, and E. A. Cornell, “Laser-guided atoms in hollow-core optical fibers,” Phys. Rev. Lett. 75(18), 3253–3256 (1995).
[CrossRef] [PubMed]

Courjon, D.

T. Grosjean, A. Sabac, and D. Courjon, “A versatile and stable device allowing the efficient generation of beams with radial, azimuthal, or hybrid polarizations,” Opt. Commun. 252(1-3), 12–21 (2005).
[CrossRef]

Davidson, N.

A. Kaplan, M. F. Andersen, T. Grunzweig, and N. Davidson, “Hyperfine spectroscopy of optically trapped atoms,” J. Opt. B Quantum Semiclassical Opt. 7(8), R103–R125 (2005).
[CrossRef]

N. Friedman, A. Kaplan, and N. Davidson, “Dark optical traps for cold atoms,” Adv. At. Mol. Opt. Phys. 48, 99–151 (2002).
[CrossRef]

R. Ozeri, L. Khaykovich, and N. Davidson, “Long spin relaxation times in a single-beam blue-detuned optical trap,” Phys. Rev. A 59(3), R1750–R1753 (1999).
[CrossRef]

Dholakia, K.

K. Dholakia, “Atom hosepipes,” Contemp. Phys. 39(5), 351–369 (1998).
[CrossRef]

Donley, E. A.

M. J. Renn, E. A. Donley, E. A. Cornell, C. E. Wieman, and D. Z. Anderson, “Evanescent-wave guiding of atoms in hollow optical fibers,” Phys. Rev. A 53(2), R648–R651 (1996).
[CrossRef] [PubMed]

Euser, T. G.

Fatemi, F. K.

F. K. Fatemi, “Cylindrical vector beams for rapid polarization-dependent measurements in atomic systems,” Opt. Express 19(25), 25143–25150 (2011).
[CrossRef] [PubMed]

M. L. Terraciano, S. E. Olson, and F. K. Fatemi, “Temperature dependent photon scattering in blue-detuned optical traps,” Phys. Rev. A 84(2), 025402 (2011).
[CrossRef]

F. K. Fatemi, M. Bashkansky, E. Oh, and D. Park, “Efficient excitation of the TE01 hollow metal waveguide mode for atom guiding,” Opt. Express 18(1), 323–332 (2010).
[CrossRef] [PubMed]

M. L. Terraciano, M. Bashkansky, and F. K. Fatemi, “Faraday spectroscopy of atoms confined in a dark optical trap,” Phys. Rev. A 77(6), 063417 (2008).
[CrossRef]

S. E. Olson, M. L. Terraciano, M. Bashkansky, and F. K. Fatemi, “Cold-atom confinement in an all-optical dark ring trap,” Phys. Rev. A 76(6), 061404 (2007).
[CrossRef]

F. K. Fatemi and M. Bashkansky, “Cold atom guidance using a binary spatial light modulator,” Opt. Express 14(4), 1368–1375 (2006).
[CrossRef] [PubMed]

F. K. Fatemi, M. Bashkansky, and S. Moore, “Side-illuminated hollow-core optical fiber for atom guiding,” Opt. Express 13(13), 4890–4895 (2005).
[CrossRef] [PubMed]

Friedman, N.

N. Friedman, A. Kaplan, and N. Davidson, “Dark optical traps for cold atoms,” Adv. At. Mol. Opt. Phys. 48, 99–151 (2002).
[CrossRef]

Gaeta, A. L.

Gehm, M. E.

K. M. O’Hara, S. R. Granade, M. E. Gehm, and J. E. Thomas, “Loading dynamics of CO2 laser traps,” Phys. Rev. A 63(4), 043403 (2001).
[CrossRef]

Granade, S. R.

K. M. O’Hara, S. R. Granade, M. E. Gehm, and J. E. Thomas, “Loading dynamics of CO2 laser traps,” Phys. Rev. A 63(4), 043403 (2001).
[CrossRef]

Grimm, R.

R. Grimm, M. Weidemuller, and Y. B. Ovchinnikov, “Optical dipole traps for neutral atoms,” Adv. At. Mol. Opt. Phys. 42, 95–170 (2000).
[CrossRef]

Grosjean, T.

T. Grosjean, A. Sabac, and D. Courjon, “A versatile and stable device allowing the efficient generation of beams with radial, azimuthal, or hybrid polarizations,” Opt. Commun. 252(1-3), 12–21 (2005).
[CrossRef]

Grunzweig, T.

A. Kaplan, M. F. Andersen, T. Grunzweig, and N. Davidson, “Hyperfine spectroscopy of optically trapped atoms,” J. Opt. B Quantum Semiclassical Opt. 7(8), R103–R125 (2005).
[CrossRef]

Hafezi, M.

M. Bajcsy, S. Hofferberth, V. Balic, T. Peyronel, M. Hafezi, A. S. Zibrov, V. Vuletic, and M. D. Lukin, “Efficient all-optical switching using slow light within a hollow fiber,” Phys. Rev. Lett. 102(20), 203902 (2009).
[CrossRef] [PubMed]

Hasman, E.

Heinzen, D. J.

Hensley, C. J.

Hill, W. T.

Hofferberth, S.

M. Bajcsy, S. Hofferberth, T. Peyronel, V. Balic, Q. Liang, A. S. Zibrov, V. Vuletic, and M. D. Lukin, “Laser-cooled atoms inside a hollow-core photonic-crystal fiber,” Phys. Rev. A 83(6), 063830 (2011).
[CrossRef]

M. Bajcsy, S. Hofferberth, V. Balic, T. Peyronel, M. Hafezi, A. S. Zibrov, V. Vuletic, and M. D. Lukin, “Efficient all-optical switching using slow light within a hollow fiber,” Phys. Rev. Lett. 102(20), 203902 (2009).
[CrossRef] [PubMed]

Ishaaya, A. A.

Ito, H.

H. Ito, T. Nakata, K. Sakaki, M. Ohtsu, K. I. Lee, and W. Jhe, “Laser spectroscopy of atoms guided by evanescent waves in micron-sized hollow optical fibers,” Phys. Rev. Lett. 76(24), 4500–4503 (1996).
[CrossRef] [PubMed]

Jhe, W.

H. Ito, T. Nakata, K. Sakaki, M. Ohtsu, K. I. Lee, and W. Jhe, “Laser spectroscopy of atoms guided by evanescent waves in micron-sized hollow optical fibers,” Phys. Rev. Lett. 76(24), 4500–4503 (1996).
[CrossRef] [PubMed]

Kaminski, C. F.

Kaplan, A.

A. Kaplan, M. F. Andersen, T. Grunzweig, and N. Davidson, “Hyperfine spectroscopy of optically trapped atoms,” J. Opt. B Quantum Semiclassical Opt. 7(8), R103–R125 (2005).
[CrossRef]

N. Friedman, A. Kaplan, and N. Davidson, “Dark optical traps for cold atoms,” Adv. At. Mol. Opt. Phys. 48, 99–151 (2002).
[CrossRef]

Khaykovich, L.

R. Ozeri, L. Khaykovich, and N. Davidson, “Long spin relaxation times in a single-beam blue-detuned optical trap,” Phys. Rev. A 59(3), R1750–R1753 (1999).
[CrossRef]

Kleiner, V.

Knize, R. J.

T. Takekoshi and R. J. Knize, “Optical guiding of atoms through a hollow-core photonic band-gap fiber,” Phys. Rev. Lett. 98(21), 210404 (2007).
[CrossRef] [PubMed]

Koch, K. W.

Lee, K. I.

H. Ito, T. Nakata, K. Sakaki, M. Ohtsu, K. I. Lee, and W. Jhe, “Laser spectroscopy of atoms guided by evanescent waves in micron-sized hollow optical fibers,” Phys. Rev. Lett. 76(24), 4500–4503 (1996).
[CrossRef] [PubMed]

Liang, Q.

M. Bajcsy, S. Hofferberth, T. Peyronel, V. Balic, Q. Liang, A. S. Zibrov, V. Vuletic, and M. D. Lukin, “Laser-cooled atoms inside a hollow-core photonic-crystal fiber,” Phys. Rev. A 83(6), 063830 (2011).
[CrossRef]

Lukin, M. D.

M. Bajcsy, S. Hofferberth, T. Peyronel, V. Balic, Q. Liang, A. S. Zibrov, V. Vuletic, and M. D. Lukin, “Laser-cooled atoms inside a hollow-core photonic-crystal fiber,” Phys. Rev. A 83(6), 063830 (2011).
[CrossRef]

M. Bajcsy, S. Hofferberth, V. Balic, T. Peyronel, M. Hafezi, A. S. Zibrov, V. Vuletic, and M. D. Lukin, “Efficient all-optical switching using slow light within a hollow fiber,” Phys. Rev. Lett. 102(20), 203902 (2009).
[CrossRef] [PubMed]

Marcatili, E. A. J.

E. A. J. Marcatili and R. A. Schmeltzer, “Hollow metallic and dielectric waveguides for long distance optical transmission and lasers,” Bell Syst. Tech. J. 43, 1783–1809 (1964).

Matthews, M. R.

Milam, D.

Miller, J. D.

Montgomery, D.

M. J. Renn, D. Montgomery, O. Vdovin, D. Z. Anderson, C. E. Wieman, and E. A. Cornell, “Laser-guided atoms in hollow-core optical fibers,” Phys. Rev. Lett. 75(18), 3253–3256 (1995).
[CrossRef] [PubMed]

Moore, S.

Müller, D.

D. Müller, E. A. Cornell, D. Z. Anderson, and E. R. I. Abraham, “Guiding laser-cooled atoms in hollow-core fibers,” Phys. Rev. A 61(3), 033411 (2000).
[CrossRef]

Nakata, T.

H. Ito, T. Nakata, K. Sakaki, M. Ohtsu, K. I. Lee, and W. Jhe, “Laser spectroscopy of atoms guided by evanescent waves in micron-sized hollow optical fibers,” Phys. Rev. Lett. 76(24), 4500–4503 (1996).
[CrossRef] [PubMed]

Niv, A.

Nold, J.

O’Hara, K. M.

K. M. O’Hara, S. R. Granade, M. E. Gehm, and J. E. Thomas, “Loading dynamics of CO2 laser traps,” Phys. Rev. A 63(4), 043403 (2001).
[CrossRef]

Oh, E.

Ohtsu, M.

H. Ito, T. Nakata, K. Sakaki, M. Ohtsu, K. I. Lee, and W. Jhe, “Laser spectroscopy of atoms guided by evanescent waves in micron-sized hollow optical fibers,” Phys. Rev. Lett. 76(24), 4500–4503 (1996).
[CrossRef] [PubMed]

Olson, S. E.

M. L. Terraciano, S. E. Olson, and F. K. Fatemi, “Temperature dependent photon scattering in blue-detuned optical traps,” Phys. Rev. A 84(2), 025402 (2011).
[CrossRef]

S. E. Olson, M. L. Terraciano, M. Bashkansky, and F. K. Fatemi, “Cold-atom confinement in an all-optical dark ring trap,” Phys. Rev. A 76(6), 061404 (2007).
[CrossRef]

Ovchinnikov, Y. B.

R. Grimm, M. Weidemuller, and Y. B. Ovchinnikov, “Optical dipole traps for neutral atoms,” Adv. At. Mol. Opt. Phys. 42, 95–170 (2000).
[CrossRef]

Ozeri, R.

R. Ozeri, L. Khaykovich, and N. Davidson, “Long spin relaxation times in a single-beam blue-detuned optical trap,” Phys. Rev. A 59(3), R1750–R1753 (1999).
[CrossRef]

Park, D.

Peyronel, T.

M. Bajcsy, S. Hofferberth, T. Peyronel, V. Balic, Q. Liang, A. S. Zibrov, V. Vuletic, and M. D. Lukin, “Laser-cooled atoms inside a hollow-core photonic-crystal fiber,” Phys. Rev. A 83(6), 063830 (2011).
[CrossRef]

M. Bajcsy, S. Hofferberth, V. Balic, T. Peyronel, M. Hafezi, A. S. Zibrov, V. Vuletic, and M. D. Lukin, “Efficient all-optical switching using slow light within a hollow fiber,” Phys. Rev. Lett. 102(20), 203902 (2009).
[CrossRef] [PubMed]

Pilloff, H. S.

H. S. Pilloff, “Enhanced atom guiding in metal-coated, hollow-core optical fibers,” Opt. Commun. 143(1-3), 25–29 (1997).
[CrossRef]

Renn, M. J.

M. J. Renn, E. A. Donley, E. A. Cornell, C. E. Wieman, and D. Z. Anderson, “Evanescent-wave guiding of atoms in hollow optical fibers,” Phys. Rev. A 53(2), R648–R651 (1996).
[CrossRef] [PubMed]

M. J. Renn, D. Montgomery, O. Vdovin, D. Z. Anderson, C. E. Wieman, and E. A. Cornell, “Laser-guided atoms in hollow-core optical fibers,” Phys. Rev. Lett. 75(18), 3253–3256 (1995).
[CrossRef] [PubMed]

Russell, P. St. J.

Sabac, A.

T. Grosjean, A. Sabac, and D. Courjon, “A versatile and stable device allowing the efficient generation of beams with radial, azimuthal, or hybrid polarizations,” Opt. Commun. 252(1-3), 12–21 (2005).
[CrossRef]

Sakaki, K.

H. Ito, T. Nakata, K. Sakaki, M. Ohtsu, K. I. Lee, and W. Jhe, “Laser spectroscopy of atoms guided by evanescent waves in micron-sized hollow optical fibers,” Phys. Rev. Lett. 76(24), 4500–4503 (1996).
[CrossRef] [PubMed]

Scharrer, M.

Schmeltzer, R. A.

E. A. J. Marcatili and R. A. Schmeltzer, “Hollow metallic and dielectric waveguides for long distance optical transmission and lasers,” Bell Syst. Tech. J. 43, 1783–1809 (1964).

Schrauth, S.

Shim, B.

Song, Y.

Takekoshi, T.

T. Takekoshi and R. J. Knize, “Optical guiding of atoms through a hollow-core photonic band-gap fiber,” Phys. Rev. Lett. 98(21), 210404 (2007).
[CrossRef] [PubMed]

Terraciano, M. L.

M. L. Terraciano, S. E. Olson, and F. K. Fatemi, “Temperature dependent photon scattering in blue-detuned optical traps,” Phys. Rev. A 84(2), 025402 (2011).
[CrossRef]

M. L. Terraciano, M. Bashkansky, and F. K. Fatemi, “Faraday spectroscopy of atoms confined in a dark optical trap,” Phys. Rev. A 77(6), 063417 (2008).
[CrossRef]

S. E. Olson, M. L. Terraciano, M. Bashkansky, and F. K. Fatemi, “Cold-atom confinement in an all-optical dark ring trap,” Phys. Rev. A 76(6), 061404 (2007).
[CrossRef]

Thomas, J. E.

K. M. O’Hara, S. R. Granade, M. E. Gehm, and J. E. Thomas, “Loading dynamics of CO2 laser traps,” Phys. Rev. A 63(4), 043403 (2001).
[CrossRef]

Vdovin, O.

M. J. Renn, D. Montgomery, O. Vdovin, D. Z. Anderson, C. E. Wieman, and E. A. Cornell, “Laser-guided atoms in hollow-core optical fibers,” Phys. Rev. Lett. 75(18), 3253–3256 (1995).
[CrossRef] [PubMed]

Vuletic, V.

M. Bajcsy, S. Hofferberth, T. Peyronel, V. Balic, Q. Liang, A. S. Zibrov, V. Vuletic, and M. D. Lukin, “Laser-cooled atoms inside a hollow-core photonic-crystal fiber,” Phys. Rev. A 83(6), 063830 (2011).
[CrossRef]

M. Bajcsy, S. Hofferberth, V. Balic, T. Peyronel, M. Hafezi, A. S. Zibrov, V. Vuletic, and M. D. Lukin, “Efficient all-optical switching using slow light within a hollow fiber,” Phys. Rev. Lett. 102(20), 203902 (2009).
[CrossRef] [PubMed]

Weidemuller, M.

R. Grimm, M. Weidemuller, and Y. B. Ovchinnikov, “Optical dipole traps for neutral atoms,” Adv. At. Mol. Opt. Phys. 42, 95–170 (2000).
[CrossRef]

Whyte, G.

Wieman, C. E.

M. J. Renn, E. A. Donley, E. A. Cornell, C. E. Wieman, and D. Z. Anderson, “Evanescent-wave guiding of atoms in hollow optical fibers,” Phys. Rev. A 53(2), R648–R651 (1996).
[CrossRef] [PubMed]

M. J. Renn, D. Montgomery, O. Vdovin, D. Z. Anderson, C. E. Wieman, and E. A. Cornell, “Laser-guided atoms in hollow-core optical fibers,” Phys. Rev. Lett. 75(18), 3253–3256 (1995).
[CrossRef] [PubMed]

Yirmiyahu, Y.

Zibrov, A. S.

M. Bajcsy, S. Hofferberth, T. Peyronel, V. Balic, Q. Liang, A. S. Zibrov, V. Vuletic, and M. D. Lukin, “Laser-cooled atoms inside a hollow-core photonic-crystal fiber,” Phys. Rev. A 83(6), 063830 (2011).
[CrossRef]

M. Bajcsy, S. Hofferberth, V. Balic, T. Peyronel, M. Hafezi, A. S. Zibrov, V. Vuletic, and M. D. Lukin, “Efficient all-optical switching using slow light within a hollow fiber,” Phys. Rev. Lett. 102(20), 203902 (2009).
[CrossRef] [PubMed]

Adv. At. Mol. Opt. Phys. (2)

N. Friedman, A. Kaplan, and N. Davidson, “Dark optical traps for cold atoms,” Adv. At. Mol. Opt. Phys. 48, 99–151 (2002).
[CrossRef]

R. Grimm, M. Weidemuller, and Y. B. Ovchinnikov, “Optical dipole traps for neutral atoms,” Adv. At. Mol. Opt. Phys. 42, 95–170 (2000).
[CrossRef]

Bell Syst. Tech. J. (1)

E. A. J. Marcatili and R. A. Schmeltzer, “Hollow metallic and dielectric waveguides for long distance optical transmission and lasers,” Bell Syst. Tech. J. 43, 1783–1809 (1964).

Contemp. Phys. (1)

K. Dholakia, “Atom hosepipes,” Contemp. Phys. 39(5), 351–369 (1998).
[CrossRef]

J. Opt. B Quantum Semiclassical Opt. (1)

A. Kaplan, M. F. Andersen, T. Grunzweig, and N. Davidson, “Hyperfine spectroscopy of optically trapped atoms,” J. Opt. B Quantum Semiclassical Opt. 7(8), R103–R125 (2005).
[CrossRef]

Opt. Commun. (2)

H. S. Pilloff, “Enhanced atom guiding in metal-coated, hollow-core optical fibers,” Opt. Commun. 143(1-3), 25–29 (1997).
[CrossRef]

T. Grosjean, A. Sabac, and D. Courjon, “A versatile and stable device allowing the efficient generation of beams with radial, azimuthal, or hybrid polarizations,” Opt. Commun. 252(1-3), 12–21 (2005).
[CrossRef]

Opt. Express (7)

Opt. Lett. (2)

Phys. Rev. A (8)

K. M. O’Hara, S. R. Granade, M. E. Gehm, and J. E. Thomas, “Loading dynamics of CO2 laser traps,” Phys. Rev. A 63(4), 043403 (2001).
[CrossRef]

D. Müller, E. A. Cornell, D. Z. Anderson, and E. R. I. Abraham, “Guiding laser-cooled atoms in hollow-core fibers,” Phys. Rev. A 61(3), 033411 (2000).
[CrossRef]

M. J. Renn, E. A. Donley, E. A. Cornell, C. E. Wieman, and D. Z. Anderson, “Evanescent-wave guiding of atoms in hollow optical fibers,” Phys. Rev. A 53(2), R648–R651 (1996).
[CrossRef] [PubMed]

M. Bajcsy, S. Hofferberth, T. Peyronel, V. Balic, Q. Liang, A. S. Zibrov, V. Vuletic, and M. D. Lukin, “Laser-cooled atoms inside a hollow-core photonic-crystal fiber,” Phys. Rev. A 83(6), 063830 (2011).
[CrossRef]

M. L. Terraciano, M. Bashkansky, and F. K. Fatemi, “Faraday spectroscopy of atoms confined in a dark optical trap,” Phys. Rev. A 77(6), 063417 (2008).
[CrossRef]

M. L. Terraciano, S. E. Olson, and F. K. Fatemi, “Temperature dependent photon scattering in blue-detuned optical traps,” Phys. Rev. A 84(2), 025402 (2011).
[CrossRef]

S. E. Olson, M. L. Terraciano, M. Bashkansky, and F. K. Fatemi, “Cold-atom confinement in an all-optical dark ring trap,” Phys. Rev. A 76(6), 061404 (2007).
[CrossRef]

R. Ozeri, L. Khaykovich, and N. Davidson, “Long spin relaxation times in a single-beam blue-detuned optical trap,” Phys. Rev. A 59(3), R1750–R1753 (1999).
[CrossRef]

Phys. Rev. Lett. (4)

M. Bajcsy, S. Hofferberth, V. Balic, T. Peyronel, M. Hafezi, A. S. Zibrov, V. Vuletic, and M. D. Lukin, “Efficient all-optical switching using slow light within a hollow fiber,” Phys. Rev. Lett. 102(20), 203902 (2009).
[CrossRef] [PubMed]

T. Takekoshi and R. J. Knize, “Optical guiding of atoms through a hollow-core photonic band-gap fiber,” Phys. Rev. Lett. 98(21), 210404 (2007).
[CrossRef] [PubMed]

M. J. Renn, D. Montgomery, O. Vdovin, D. Z. Anderson, C. E. Wieman, and E. A. Cornell, “Laser-guided atoms in hollow-core optical fibers,” Phys. Rev. Lett. 75(18), 3253–3256 (1995).
[CrossRef] [PubMed]

H. Ito, T. Nakata, K. Sakaki, M. Ohtsu, K. I. Lee, and W. Jhe, “Laser spectroscopy of atoms guided by evanescent waves in micron-sized hollow optical fibers,” Phys. Rev. Lett. 76(24), 4500–4503 (1996).
[CrossRef] [PubMed]

Other (1)

D. A. Steck, http://steck.us/alkalidata/

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