Professor Hinds

Hinds EA, Kohnen M, Succo M, Petrov, Nyman, Trupke Met al., 2010, An array of integrated atom-photon junctions, Nature Photonics, ISSN: 1749-4885

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Garcia IL, Darquie B, Curtis EA, Sinclair CDJ, Hinds EAet al., 2010, Experiments on a videotape atom chip: fragmentation and transport studies, NEW JOURNAL OF PHYSICS, Vol: 12, ISSN: 1367-2630

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• Citations: 7

Sewell RJ, Dingjan J, Baumgaertner F, Llorente-Garcia I, Eriksson S, Hinds EA, Lewis G, Srinivasan P, Moktadir Z, Gollasch CO, Kraft Met al., 2010, Atom chip for BEC interferometry, JOURNAL OF PHYSICS B-ATOMIC MOLECULAR AND OPTICAL PHYSICS, Vol: 43, ISSN: 0953-4075

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• Citations: 19

Wall TE, Tokunaga SK, Hinds EA, Tarbutt MRet al., 2010, Nonadiabatic transitions in a Stark decelerator, PHYSICAL REVIEW A, Vol: 81, ISSN: 1050-2947

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• Citations: 28

Llorente Garcia I, Darquie B, Curtis EA, Sinclair CDJ, Hinds EAet al., 2010, Experiments on a videotape atom chip: fragmentation and transport studies., New Journal of Physics, Vol: 12

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Skoff SM, Hendricks RJ, Sinclair CDJ, Tarbutt MR, Hudson JJ, Segal DM, Sauer BE, Hinds EAet al., 2009, Doppler-free laser spectroscopy of buffer-gas-cooled molecular radicals, NEW JOURNAL OF PHYSICS, Vol: 11, ISSN: 1367-2630

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• Citations: 20

Venkatesh BP, Trupke M, Hinds EA, O'Dell DHJet al., 2009, Atomic Bloch-Zener oscillations for sensitive force measurements in a cavity, PHYSICAL REVIEW A, Vol: 80, ISSN: 1050-2947

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• Citations: 22

Wall TE, Armitage S, Hudson JJ, Sauer BE, Dyne JM, Hinds EA, Tarbutt MRet al., 2009, Transport of polar molecules by an alternating-gradient guide, PHYSICAL REVIEW A, Vol: 80, ISSN: 1050-2947

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• Citations: 13

Pollock S, Cotter JP, Laliotis A, Hinds EAet al., 2009, Integrated magneto-optical traps on a chip using silicon pyramid structures, OPTICS EXPRESS, Vol: 17, Pages: 14109-14114, ISSN: 1094-4087

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• Citations: 42

Tokunaga SK, Dyne JM, Hinds EA, Tarbutt MRet al., 2009, Stark deceleration of lithium hydride molecules, NEW JOURNAL OF PHYSICS, Vol: 11, ISSN: 1367-2630

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• Citations: 23

Sauer BE, Kara DM, Hudson JJ, Tarbutt MR, Hinds EAet al., 2009, Response to "Comment on 'A robust floating nanoammeter'" [Rev. Sci. Instrum. 80, 057101 (2009)], REVIEW OF SCIENTIFIC INSTRUMENTS, Vol: 80, ISSN: 0034-6748

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Lewis GN, Moktadir Z, Gollasch C, Kraft M, Pollock S, Ramirez-Martinez F, Ashmore JP, Laliotis A, Trupke M, Hinds EAet al., 2009, Fabrication of Magnetooptical Atom Traps on a Chip, JOURNAL OF MICROELECTROMECHANICAL SYSTEMS, Vol: 18, Pages: 347-353, ISSN: 1057-7157

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• Citations: 14

Hinds EA, Barnett SM, 2009, Momentum Exchange between Light and a Single Atom: Abraham or Minkowski?, PHYSICAL REVIEW LETTERS, Vol: 102, ISSN: 0031-9007

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• Citations: 66

Tarbutt MR, Hudson JJ, Sauer BE, Hinds EAet al., 2009, Preparation and manipulation of molecules for fundamental physics tests, Pages: 555-596

Atoms and atomic ions have long held a place at the very heart of precision measurement and metrology. For example, the second is defined in terms of the Cs hyperfine structure interval, the Rydberg constant is measured by spectroscopy of atomic hydrogen, and the ratio of electron-to-proton mass is known from the oscillation frequencies of trapped atomic ions. The importance of atoms in this field lies partly in the detailed understanding that we have of atomic structure but also in the technical capabilities that exist for preparing and manipulating atoms and ions. In recent years, both the computational methods for understanding molecules more fully and the experimental methods for producing and controlling them have advanced enormously. This has led to a surge of interest in using molecules for precision measurements, especially where they offer new properties that are not available from atoms and atomic ions. For example, the rotational, vibrational, and electronic structures within a molecule offer a wider range of coexisting frequencies than one finds in atomic systems. Moreover, polar diatomic molecules have a built-in cylindrical symmetry, whilst more complex molecules can have a handedness—structural conformations that atoms cannot offer. In this chapter, we discuss some applications of molecules to current problems in precision measurement and we outline recent technical advances that make some of these applications possible.

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• Citations: 7

Tarbutt MR, Hudson JJ, Sauer BE, Hinds EAet al., 2009, Prospects for measuring the electric dipole moment of the electron using electrically trapped polar molecules, FARADAY DISCUSSIONS, Vol: 142, Pages: 37-56, ISSN: 1359-6640

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• Citations: 58

Wall TE, Kanem JF, Hudson JJ, Sauer BE, Cho D, Boshier MG, Hinds EA, Tarbutt MRet al., 2008, Lifetime of the A(v<SUP>'</SUP>=0) state and Franck-Condon factor of the A-X(0-0) transition of CaF measured by the saturation of laser-induced fluorescence, PHYSICAL REVIEW A, Vol: 78, ISSN: 1050-2947

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• Citations: 45

Sauer BE, Kara DM, Hudson JJ, Tarbutt MR, Hinds EAet al., 2008, A robust floating nanoammeter, REVIEW OF SCIENTIFIC INSTRUMENTS, Vol: 79, ISSN: 0034-6748

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• Citations: 10

Buhmann SY, Tarbutt MR, Scheel S, Hinds EAet al., 2008, Surface-induced heating of cold polar molecules, PHYSICAL REVIEW A, Vol: 78, ISSN: 1050-2947

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• Citations: 46

Goldwin J, Hinds EA, 2008, Tight focusing of plane waves from micro-fabricated spherical mirrors, OPTICS EXPRESS, Vol: 16, Pages: 17808-17816, ISSN: 1094-4087

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• Citations: 7

Tarbutt MR, Hinds EA, 2008, Nonlinear dynamics in an alternating gradient guide for neutral particles, NEW JOURNAL OF PHYSICS, Vol: 10, ISSN: 1367-2630

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• Citations: 13

Hinds EA, 2008, Cold atoms on atom chips

Cold atoms trapped and manipulated on atom chips can provide a basis for sensitive detection and for quantum information processing devices. © 2008 OSA.

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Hinds EA, 2008, Cold atoms on atom chips

Cold atoms trapped and manipulated on atom chips can provide a basis for sensitive detection and for quantum information processing devices. © 2008 OSA.

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Hinds EA, Trupke M, Darquie B, Goldwin J, Dutier Get al., 2008, Progress in atom chips and the integration of optical microcavities, Pages: 271-282

We review recent progress at the Centre for Cold Matter in developing atom chips. An important advantage of miniaturizing atom traps on a chip is the possibility of obtaining very tight trapping structures with the capability of manipulating atoms on the micron length scale. We recall some of the pros and cons of bringing atoms close to the chip surface, as is required in order to make small static structures, and we discuss the relative merits of metallic, dielectric and superconducting chip surfaces. We point out that the addition of integrated optical devices on the chip can enhance its capability through single atom detection and controlled photon production. Finally, we review the status of integrated microcavities that have recently been demonstrated at our Centre and discuss their prospects for future development. © 2008 World Scientific Publishing Co. Pte. Ltd.

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Gollasch CO, Moktadir Z, Lewis G, Kraft M, Trupke M, Eriksson S, Hinds EAet al., 2007, Integration of a tunable optical micro-cavity for single atom detection on an atom chip

Recent experiments demonstrated single-atom detection using microscopic optical cavities. Here we present an optical micro-cavity whose length can be tuned using an electrostatic comb-drive. This design is suitable for integration into a silicon atom chip. ©2006 Optical Society of America.

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Baeten JCM, Phillips ICC, 2007, Preface, Publisher: ELSEVIER SCIENCE BV, Pages: 167-168

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hudson J, ashworth H, kara D, tarbutt M, sauer B, hinds Eet al., 2007, Pulsed beams as field probes for precision measurement, Physical Review A, Vol: 76

We describe a technique for mapping the spatial variation of static electric, static magnetic, and rf magnetic fields using a pulsed atomic or molecular beam. The method is demonstrated using a beam designed to measure the electric dipole moment of the electron. We present maps of the interaction region, showing sensitivity to (i) electric field variation of 1.5 V/cm at 3.3 kV/cm with a spatial resolution of 15 mm; (ii) magnetic field variation of 5 nT with 25 mm resolution; (iii) radio-frequency magnetic field amplitude with 15 mm resolution. This diagnostic technique is very powerful in the context of high-precision atomic and molecular physics experiments, where pulsed beams have not hitherto found widespread application.

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Hohenester U, Eiguren A, Scheel S, Hinds EAet al., 2007, Spin-flip lifetimes in superconducting atom chips: Bardeen-Cooper-Schrieffer versus Eliashberg theory, PHYSICAL REVIEW A, Vol: 76, ISSN: 1050-2947

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• Citations: 40

Moktadir Z, Darquié B, Kraft M, Hinds EAet al., 2007, The effect of self-affine fractal roughness of wires on atom chips, Journal of Modern Optics, Vol: 54, Pages: 2149-2160

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Trupke M, Goldwin J, Darquie B, Dutier G, Eriksson S, Ashmore J, Hinds EAet al., 2007, Atom detection and photon production in a scalable, open, optical microcavity, PHYSICAL REVIEW LETTERS, Vol: 99, ISSN: 0031-9007

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• Citations: 90

Scheel S, Fermani R, Hinds EA, 2007, Feasibility of studying vortex noise in two-dimensional superconductors with cold atoms, PHYSICAL REVIEW A, Vol: 75, ISSN: 1050-2947

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• Citations: 19