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Referencias:

• Nye, J.F., Berry, M.V., Dislocations in wave trains (1974) Proc. R. Soc. Lond. A, 336, pp. 165-190
• Wesfreid, J.E., Zaleski, S., (1984) Cellular Structures in Instabilities, 210. , Springer
• Dennis, M.R., Kivshar, Y.S., Soskin, M.S., Swartzlande, G.A., Jr., Singular optics: More ado about nothing (2009) J. Opt. A, 11, p. 090201
• Yao, A.M., Padgett, M.J., Orbital angular momentum: Origins, behavior and applications (2011) Adv. Opt. Photon., 3, pp. 161-204
• Allen, L., Beijersbergen, M., Spreeuw, R., Woerdman, J., Orbital angular momentum of light and the transformation of Laguerre-Gaussian laser modes (1992) Phys. Rev. A, 45, pp. 8185-8189
• Van Enk, S., Nienhuis, G., Spin and orbital angular momentum of photons (1994) Europhys. Lett., 25, pp. 497-501
• Sztul, H., Alfano, R., Double-slit interference with Laguerre–Gaussian beams (2006) Opt. Lett., 31, pp. 999-1001
• Bliokh, K.Y., Rodríguez-Fortuño, F., Nori, F., Zayats, A.V., Spin-orbit interactions of light (2015) Nat. Photonics, 9, pp. 796-808
• Milione, G., Sztul, H., Nolan, D., Alfano, R., Higher-order Poincaré sphere, Stokes parameters, and the angular momentum of light (2011) Phys. Rev. Lett., 107, p. 053601
• Surzhykov, A., Seipt, D., Serbo, V.G., Fritzsche, S., Interaction of twisted light with many-electron atoms and ions (2015) Phys. Rev. A, 91, p. 013403
• Schmiegelow, C.T., Schulz, J., Kaufmann, H., Ruster, T., Poschinger, U.G., Schmidt-Kaler, F., Transfer of optical orbital angular momentum to a bound electron (2016) Nat. Commun., 7, p. 12998
• Quinteiro, G.F., Schmidt-Kaler, F., Schmiegelow, C.T., Twisted-light-ion interaction: The role of longitudinal fields (2017) Phys. Rev. Lett., 119, p. 253203
• Padgett, M.J., Orbital angular momentum 25 years on (2017) Opt. Express, 25, pp. 11265-11274
• Brunet, C., Rusch, L.A., Optical fibers for the transmission of orbital angular momentum modes (2016) Opt. Fiber Technol., 31, pp. 172-177
• Krenn, M., Handsteiner, J., Fink, M., Fickler, R., Ursin, R., Malik, M., Zeilinger, A., Twisted light transmission over 143 km (2016) Proc. Natl. Acad. Sci. USA, 113, pp. 13648-13653
• Mair, A., Vaziri, A., Weihs, G., Zeilinger, A., Entanglement of the orbital angular momentum states of photons (2001) Nature, 412, pp. 313-316
• Fickler, R., Lapkiewicz, R., Plick, W.N., Krenn, M., Schaeff, C., Ramelow, S., Zeilinger, A., Quantum entanglement of high angular momenta (2012) Science, 338, pp. 640-643
• Krenn, M., Malik, M., Erhard, M., Zeilinger, A., Orbital angular momentum of photons and the entanglement of Laguerre–Gaussian modes (2017) Phil. Trans. R. Soc. A, 375, p. 20150442
• Monticone, F., Alù, A., Metamaterial, plasmonic and nanophotonic devices (2017) Rep. Prog. Phys., 80, p. 036401
• Swartzlander, G.A., Peering into darkness with a vortex spatial filter (2001) Opt. Lett., 26, pp. 497-499
• Maurer, C., Jesacher, A., Bernet, S., Ritsch-Marte, M., What spatial light modulators can do for optical microscopy (2011) Laser Photon. Rev., 5, pp. 81-101
• Trichili, A., Rosales-Guzmán, C., Dudley, A., Ndagano, B., Salem, A.B., Zghal, M., Forbes, A., Optical communication beyond orbital angular momentum (2016) Sci. Rep., 6, p. 27674
• Yao, A., Padgett, M., Orbital angular momentum: Origins, behavior and applications (2011) Adv. Opt. Photon., 3, pp. 161-204
• Barnett, S.M., Allen, L., Padgett, M.J., (2016) Optical Angular Momentum, , CRC Press
• Wisniewski-Barker, E., Padgett, M., Orbital angular momentum (2015) Photonics: Scientific Foundations, Technology and Applications, pp. 321-340. , Wiley
• Veysi, M., Guclu, C., Capolino, F., Focused azimuthally polarized vector beam and spatial magnetic resolution below the diffraction limit (2016) J. Opt. Soc. Am. B, 33, pp. 2265-2277
• Quinteiro, G., Reiter, D., Kuhn, T., Formulation of the twisted-light-matter interaction at the phase singularity: Beams with strong magnetic fields (2017) Phys. Rev. A, 95, p. 012106
• Babiker, M., Bennett, C., Andrews, D., Romero, L.D., Orbital angular momentum exchange in the interaction of twisted light with molecules (2002) Phys. Rev. Lett., 89, p. 143601
• Scholz-Marggraf, H., Fritzsche, S., Serbo, V., Afanasev, A., Surzhykov, A., Absorption of twisted light by hydrogenlike atoms (2014) Phys. Rev. A, 90, p. 013425
• Quinteiro, G., Lucero, A., Tamborenea, P., Electronic transitions in quantum dots and rings induced by inhomogeneous off-centered light beams (2010) J. Phys. Condens. Matter, 22, p. 505802
• Quinteiro, G.F., Reiter, D., Kuhn, T., Magnetic-optical transitions induced by twisted light in quantum dots (2017) J. Phys. Condens. Matter, 906, p. 012014
• Afanasev, A., Carlson, C.E., Solyanik, M., Atomic spectroscopy with twisted photons: Separation of M1–E2 mixed multipoles (2018) Phys. Rev. A, 97, p. 023422
• Van Enk, S., Selection rules and centre-of-mass motion of ultracold atoms (1994) Quantum Opt, 6, pp. 445-457
• Franke-Arnold, S., Optical angular momentum and atoms (2017) Phil. Trans. R. Soc. A, 375, p. 20150435
• Peshkov, A., Seipt, D., Surzhykov, A., Fritzsche, S., Photoexcitation of atoms by Laguerre-Gaussian beams (2017) Phys. Rev. A, 96, p. 023407
• Afanasev, A., Carlson, C.E., Schmiegelow, C., Schulz, J., Schmidt-Kaler, F., Solyanik, M., Experimental verification of position-dependent angular-momentum selection rules for absorption of twisted light by a bound electron (2018) New J. Phys., 20, p. 023032
• Afanasev, A., Carlson, C.E., Mukherjee, A., High-multipole excitations of hydrogen-like atoms by twisted photons near a phase singularity (2016) J. Phys. Condens. Matter, 18, p. 074013
• Häffner, H., Roos, C.F., Blatt, R., Quantum computing with trapped ions (2008) Phys. Rep., 469, pp. 155-203
• Schmöger, L., Versolato, O., Schwarz, M., Kohnen, M., Windberger, A., Piest, B., Feuchtenbeiner, S., López-Urrutia, J.R.C., Coulomb crystallization of highly charged ions (2015) Science, 347, pp. 1233-1236
• Lu, P., Nakano, H., Nishikawa, T., Uesugi, N., Commercial terawatt femtosecond laser-driven tabletop x-ray lasers in gases (2000) Proc. SPIE, 3886, pp. 294-306
• Chen, H., Beiersdorfer, P., Heeter, L., Liedahl, D., Naranjo-Rivera, K., Träbert, E., Gu, M., Lepson, J., Experimental and theoretical evaluation of density-sensitive N VI, Ar XIV, and Fe XXII line ratios (2004) Astrophys. J., 611, pp. 598-604
• Olmschenk, S., Younge, K., Moehring, D., Matsukevich, D., Maunz, P., Monroe, C., Manipulation and detection of a trapped Yb + hyperfine qubit (2007) Phys. Rev. A, 76, p. 052314
• Welinski, S., Ferrier, A., Afzelius, M., Goldner, P., High-resolution optical spectroscopy and magnetic properties of Yb 3+ in Y2SiO5 (2016) Phys. Rev. B, 94, p. 155116
• Ortu, A., Tiranov, A., Welinski, S., Fröwis, F., Gisin, N., Ferrier, A., Goldner, P., Afzelius, M., Simultaneous coherence enhancement of optical and microwave transitions in solid-state electronic spins (2018) Nat. Mater., 17, pp. 671-675
• Wcislo, P., Ablewski, P., Beloy, K., Bilicki, S., Bober, M., Brown, R., Fasano, R., Hachisu, H., (2018) First Observation with Global Network of Optical Atomic Clocks Aimed for a Dark Matter Detection
• Rynkun, P., Jönsson, P., Gaigalas, G., Fischer, C.F., Energies and E1, M1, E2, M2 transition rates for states of the 2S 2 2p, 2S 2 p 2 , and 2p 3 configurations in boron-like ions between N III and Zn XXVI (2012) At. Data Nucl. Data Tables, 98, pp. 481-556
• Varshalovich, D., Moskalev, A., Khersonskii, V., (1988) Quantum Theory of Angular Momentum, , World Scientific
• Siegman, A.E., (1986) Lasers, 37. , University Science Books
• Rodrigues, J., Marcassa, L., Mendonça, J., Excitation of high orbital angular momentum Rydberg states with Laguerre–Gauss beams (2016) J. Phys. B, 49, p. 074007
• Edmonds, A., (1957) Angular Momentum in Quantum Mechanics, , Princeton University
• Condon, E.U., Condon, E., Shortley, G.H., (1951) The Theory of Atomic Spectra, , Cambridge University Press
• Afanasev, A., Carlson, C.E., Mukherjee, A., Off-axis excitation of hydrogenlike atoms by twisted photons (2013) Phys. Rev. A, 88, p. 033841
• James, D.F., Quantum dynamics of cold trapped ions with application to quantum computation (1998) Appl. Phys. B, 66, pp. 181-190
• Roos, C., (2000) Controlling the Quantum State of Trapped Ions, , Ph.D. thesis Graz Karl-Franzens University
• Schmiegelow, C.T., Schmidt-Kaler, F., Light with orbital angular momentum interacting with trapped ions (2012) Eur. Phys. J. D, 66, p. 157
• Afanasev, A., Carlson, C.E., Solyanik, M., Circular dichroism of twisted photons in non-chiral atomic matter (2017) J. Opt., 19, p. 105401
• Fischer, C.F., Multiconfiguration Hartree-Fock Breit-Pauli results for 2P1/2-2P3/2 transitions in the Boron sequence (1983) J. Phys. B, 16, pp. 157-165
• Huntemann, N., Sanner, C., Lipphardt, B., Tamm, C., Peik, E., Single-ion atomic clock with 3 × 10 -18 systematic uncertainty (2016) Phys. Rev. Lett., 116, p. 063001
• Dzuba, V., Flambaum, V., Hyperfine-induced electric dipole contributions to the electric octupole and magnetic quadrupole atomic clock transitions (2016) Phys. Rev. A, 93, p. 052517
• Lodahl, P., Mahmoodian, S., Stobbe, S., Rauschenbeutel, A., Schneeweiss, P., Volz, J., Pichler, H., Zoller, P., Chiral quantum optics (2017) Nature, 541, pp. 473-480
• Quinteiro, G., Tamborenea, P., Theory of the optical absorption of light carrying orbital angular momentum by semiconductors (2009) Europhys. Lett., 85, p. 47001
• Solyanik, M., Afanasev, A., Interband absorption of topologically structured photon beams by semiconducting quantum dots (2017) Laser Science, , Optical Society of America, paper JTu3A-79
• Akhiezer, A., Berestetskii, V., (1959) Quantum Electrodynamics, , Interscience

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