Contact + Bio: see Pure

My theses: MSc, DPhil
Office: JA 8.22

Research:

Atom opticsQuantum Technologies


Publications (see also: Web of ScienceGoogle, ResearchGate, Orcid)

  • S. Abend, B. Allard, A.S. Arnold,…, O. S. Burrow,…, P. F. Griffin,…, E. Riis, et al., Technology roadmap for cold-atoms based quantum inertial sensor in space, AVS Quantum Sci. 5, 019201 (2023).
  • B. Lewis, R. Elvin, A.S. Arnold, E. Riis, & P.F. Griffin, A grating-chip atomic fountain, Appl. Phys. Lett. 121, 164001 (2022).
  • S. Dyer, P.F. Griffin, A.S. Arnold, F. Mirando, D.P. Burt, E. Riis, & J.P. McGilligan, Micro-machined deep silicon atomic vapor cells, J. Appl. Phys. 132, 134401 (2022).
  • J.P. McGilligan, K. Gallacher, P.F. Griffin, D.J. Paul, A.S. Arnold, & E. Riis, Micro-fabricated components for cold atom sensors, Rev. Sci. Instrum. 93, 091101 (2022).
  • A. Bregazzi, P.F. Griffin, A.S. Arnold, D.P. Burt, G. Martinez, R. Boudot, J. Kitching, E. Riis & J.P. McGilligan, A simple imaging solution for chip-scale laser cooling, Appl. Phys. Lett. 119, 184002 (2021).
  • O.S. Burrow, P.F. Osborn, E. Boughton, F. Mirando, D.P. Burt, P.F. Griffin, A.S. Arnold & E. Riis, Stand-alone vacuum cell for compact ultracold quantum technologies, Appl. Phys. Lett. 119, 124002 (2021).
  • L. Amico, M. Boshier, G. Birkl, A. Minguzzi, C. Miniatura, L.-C. Kwek, …, A. S. Arnold et al., Roadmap on Atomtronics: State of the art and perspective, AVS Quantum Sci. 3, 039201 (2021).
  • A. Daffurn, R.F. Offer, and A.S. Arnold, A simple, powerful diode laser system for atomic physics, Appl. Opt. 60, 5832 (2021).
  • R.F. Offer, A. Daffurn, E. Riis, P.F. Griffin, A.S. Arnold, & S. Franke-Arnold, Gouy phase-matched angular and radial mode conversion in four-wave mixing, Phys. Rev. A 103, L021502 (2021).
  • J.P. McGilligan, K.R. Moore, A. Dellis, G.D. Martinez, E. de Clercq, P.F. Griffin, A.S. Arnold, E. Riis, R. Boudot & J. Kitching, Laser cooling in a chip-scale platformAppl. Phys. Lett. 117, 054001 (2020).
  • V.A. Henderson, M.Y.H. Johnson, Y.B. Kale, P.F. Griffin, E. Riis, & A.S. Arnold, Optical characterisation of micro-fabricated Fresnel zone plates for atomic waveguides, Optics Express 28, 9072 (2020).
  • R. Elvin, G.W. Hoth, M. Wright, B. Lewis, J.P. McGilligan, A.S. Arnold, P.F. Griffin & E. Riis, Cold-atom clock based on a diffractive optic, Opt. Express 27, 38359 (2019).
  • R.F. Offer, D. Stulga, E. Riis, S. Franke-Arnold & A.S. Arnold, Spiral bandwidth of four-wave mixing in Rb vapourComms. Phys. 1, 84 (2018).
  • S.J. Ingleby, C. O’Dwyer, P.F. Griffin, A.S. Arnold & E. Riis, Vector magnetometry exploiting phase-geometry effects in a double-resonance alignment magnetometerPhys. Rev. Appl. 10, 034035 (2018).
  • A. Selyem, S. Fayard, T.W. Clark, A.S. Arnold, N. Radwell & S. Franke-Arnold, Holographically controlled three-dimensional atomic population patternsOpt. Express 26, 18513 (2018).
  • Y. Zhai, C.H. Carson, V.A. Henderson, P.F. Griffin, E. Riis & A.S. ArnoldTalbot-enhanced, maximum-visibility imaging of condensate interferenceOptica 5, 80 (2018).
  • B.I. Robertson, A.R. MacKellar, J. Halket, A. Gribbon, J.D. Pritchard, A.S. Arnold, E. Riis & P. F. Griffin, Detection of applied and ambient forces with a matterwave magnetic-gradiometerPhys. Rev. A 96, 053622 (2017).
  • S.J. Ingleby, C. O’Dwyer, P.F. Griffin, A.S. Arnold & E. Riis, Orientational effects on the amplitude and phase of polarimeter signals in double-resonance atomic magnetometryPhys. Rev. A 96, 013429 (2017).
  • S.J. Ingleby, P.F. Griffin, A.S. Arnold, M. Chouliara & E. Riis, High-precision control of static magnetic field magnitude, orientation, and gradient using optically pumped vapour cell magnetometryRev. Sci. Instrum. 88, 043109 (2017).
  • J.P. McGilligan, P.F. Griffin, R. Elvin, S.J. Ingleby, E. Riis & A.S. Arnold, Grating chips for quantum technologies, Sci. Rep. 7, 384 (2017).
  • J.P. McGilligan, P.F. Griffin, E. Riis & A.S. ArnoldDiffraction-grating characterization for cold-atom experimentsJOSAB 33, 1271 (2016).
  • J.P. Cotter, J.P. McGilligan, P.F. Griffin, I.M. Rabey, K. Docherty, E. Riis, A.S. Arnold & E.A. Hinds, Design and fabrication of diffractive atom chips for laser cooling and trappingAppl. Phys. B 122,172 (2016).
  • R.F. Offer, J.W.C. Conway, E. Riis, S. Franke-Arnold & A.S. ArnoldCavity-enhanced frequency up-conversion in rubidium vaporOpt. Lett. 41, 2177 (2016).
  • T.W. Clark, R.F. Offer, S. Franke-Arnold, A.S. Arnold & N. Radwell, Comparison of beam generation techniques using a phase only spatial light modulatorOpt. Express 24, 6249 (2016).
  • V.A. Henderson, P.F. Griffin, E. Riis & A.S. Arnold, Comparative simulations of Fresnel holography methods for atomic waveguides, New J. Phys. 18, 025007 (2016).
  • A. Camara, R. Kaiser, G. Labeyrie, W.J. Firth, G.L. Oppo, G.R.M. Robb, A.S. Arnold & T. Ackemann, Optical pattern formation with a two-level nonlinearity, Phys. Rev. Rev. A 92, 013820 (2015).
  • J.P. McGilligan, P.F. Griffin, E. Riis & A.S. Arnold, Phase-space properties of magneto-optical traps utilising micro-fabricated gratings, Opt. Express 23, 8948 (2015).
  • G.A. Sinuco-León, K.A. Burrows, A.S. Arnold & B.M. Garraway, Inductively guided circuits for ultracold dressed atoms, Nature Comm. 5, 5289 (2014).
  • T.C. Schratwieser, K. Balskus, R.A. McCracken, C. Farrell, C.G. Leburn, Z. Zhang, T.P. Lamour, T.I. Ferreiro, A. Marandi, A.S. Arnold & D.T. Reid, Rb-87-stabilized 375-MHz Yb: fiber femtosecond frequency comb, Opt. Express 22, 10494 (2014).
  • M. Vangeleyn, B.M. Garraway, H. Perrin & A.S. Arnold, Inductive dressed ring traps for ultracold atoms, J. Phys. B 47, 071001 (2014).
  • G. Labeyrie, E. Tesio, P.M. Gomes, G.-L. Oppo, W.J. Firth, G.R.M. Robb, A.S. Arnold, R. Kaiser & T. Ackemann, Optomechanical self-structuring in a cold atomic gas, Nature Photonics 8, 321 (2014).
  • C.C. Nshii, M. Vangeleyn, J.P. Cotter, P.F. Griffin, E.A. Hinds, C.N. Ironside, P. See, A.G. Sinclair, E. Riis & A.S. Arnold, A surface-patterned chip as a strong source of ultracold atoms for quantum technologies, Nature Nanotech. 8, 321 (2013).
  • T. Ackemann, M. Alduraibi, S. Campbell, S. Keatings, P.L. Sam, H. Fraser, A.S. Arnold, E. Riis & M. Missous, Diamond heat sinking of terahertz antennas for continuous-wave photomixing, J. Appl. Phys. 112, 123109 (2012).
  • J.D. Pritchard, A.N. Dinkelaker, A.S. Arnold, P.F. Griffin & E. Riis, Demonstration of an inductively coupled ring trap for cold atoms, New J. Phys. 14, 103047 (2012).
  • G. Walker, A.S. Arnold & S. Franke-Arnold, Trans-spectral orbital angular momentum transfer via four-wave mixing in Rb vapor, Phys. Rev. Lett. 108, 243601 (2012).
  • A.S. Arnold, Extending dark optical trapping geometries, Opt. Lett. 37, 2505 (2012).
  • M. Vangeleyn, P.F. Griffin, E. Riis & A.S. Arnold, Laser cooling with a single laser beam and a planar diffractor, Opt. Lett. 35, 3453 (2010).
  • A. Vernier, S. Franke-Arnold, E. Riis & A.S. Arnold, Enhanced frequency up-conversion in Rb vaporOpt. Express 18, 17020 (2010).
  • M.E. Zawadzki, P.F. Griffin, E. Riis & A.S. Arnold, Spatial interference from well-separated split condensates, Phys. Rev. A 81, 043608 (2010).
  • U. Dammalapati, I. Norris, C. Burrows, A.S. Arnold & E. Riis, Spectroscopy and isotope shifts of the 4s3d 1D2–4s5p 1P1 repumping transition in magneto-optically trapped calcium atoms, Phys. Rev. A 81, 023424 (2010).
  • M. Vangeleyn, P.F. Griffin, E. Riis & A.S. Arnold, Single-laser, one beam, tetrahedral magneto-optical trap, Opt. Express 17, 13601 (2009).
  • N. Houston, E. Riis & A.S. Arnold, Reproducible dynamic dark ring lattices for ultracold atoms, J. Phys. B 41, 211001 (2008).
  • D.A. Smith, A.S. Arnold, M.J. Pritchard & I.G. Hughes, Experimental single-impulse magnetic focusing of launched cold atoms, J. Phys. B 41, 125302 (2008).
  • P.F. Griffin, E. Riis & A.S. Arnold, Smooth inductively coupled ring trap for atoms, Phys. Rev. A 77, 051402(R) (2008).
  • S. Franke-Arnold & A.S. Arnold, Twisting light to trap atoms, American Scientist 96, 226 (2008).
  • S. Franke-Arnold, J. Leach, M.J. Padgett, V.E. Lembessis, D. Ellinas, A.J. Wright, J.M. Girkin, P. Öhberg & A.S. Arnold, Optical ferris wheel for ultracold atoms, Opt. Express 15, 8619 (2007).
  • M.J. Pritchard, A.S. Arnold, S.L. Cornish, D.W. Hallwood, C.V.S. Pleasant & I.G. Hughes, Transport of launched cold atoms with a laser guide and pulsed magnetic fields, New J. Phys. 8, 309 (2006).
  • A.S. Arnold, C.S. Garvie & E. Riis, Large magnetic storage ring for Bose-Einstein condensates, Phys. Rev. A 73, 041606(R), (2006).
  • A.S. Arnold, M.J. Pritchard, D.A. Smith & I.G. Hughes, Double-impulse magnetic focusing of launched cold atomsNew J. Phys. 8, 53 (2006).
  • M.J. Pritchard, A.S. Arnold, D.A. Smith & I.G. Hughes, Single-impulse magnetic focusing of launched cold atoms, J. Phys. B 37, 4435 (2004).
  • A.S. Arnold, Adaptable-radius, time-orbiting magnetic ring trap for Bose-Einstein condensates, J. Phys. B 37, L29 (2004).
  • A.S. Arnold, C. MacCormick & M.G. Boshier, Diffraction-limited focusing of Bose-Einstein condensates, J. Phys. B 37, 485 (2004).
  • C.S. Garvie, E. Riis & A.S. Arnold, A storage ring for Bose-Einstein condensates, in “LaserSpectroscopy XVI,” P. Hannaford et al. eds., p178, (World Scientific, Singapore, 2004).
  • C.S. Adams, S.G. Cox, E. Riis & A.S. Arnold, Laser cooling of calcium in a ‘golden ratio’ quasi-electrostatic lattice, J. Phys. B 36, 1933 (2003).
  • A.S. Arnold & E. Riis, Bose-Einstein condensates in ‘giant’ toroidal magnetic traps, J. Mod. Opt. 49, 959 (2002).
  • A.S. Arnold, C. MacCormick & M.G. Boshier, An adaptive inelastic magnetic mirror for Bose-Einstein condensates, Phys. Rev. A 65, 031601(R) (2002).
  • S.M. Barnett, S. Franke-Arnold, A.S. Arnold & C.J. Baxter, Coherence length for a trapped Bose gas, J. Phys. B 33, 4177 (2000).
  • A.S. Arnold & P.J. Manson, Atomic density and temperature distributions in a magneto-optical trapJ. Opt. Soc. Am. B. 17, 497 (2000).
  • A.S. Arnold, J.S. Wilson & M.G. Boshier, A simple extended-cavity diode laser, Rev. Sci. Instrum. 69, 1236 (1998).
  • P.R. Wood, A.S. Arnold & K.M. Sebo, Nonlinear models of the bump cepheid HV905 and the distance modulus to the large Magellanic cloud, Astrophys. J. 485, L25 (1997).