Atom ChipsJakob Reichel, Vladan Vuletic John Wiley & Sons, 24.08.2011 - 445 Seiten This stimulating discussion of a rapidly developing field is divided into two parts. The first features tutorials in textbook style providing self-contained introductions to the various areas relevant to atom chip research. Part II contains research reviews that provide an integrated account of the current state in an active area of research where atom chips are employed, and explore possible routes of future progress. Depending on the subject, the length of the review and the relative weight of the 'review' and 'outlook' parts vary, since the authors include their own personal view and style in their accounts. |
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adiabatic amplitude approximation array atom chip atom number atomic cloud beam bias field Bose gas Bose-Einstein condensates Casimir-Polder cavity chemical potential chip surface clock coherence cold atoms cooling coupling decoherence dielectric diffraction orders dipole distance double-well potential electric field electrodes energy etching evaporation experimental experiments fabrication Fermi fermions fiber Figure film fluctuations gases geometry Hänsch heating hyperfine integrated interaction interference interferometer laser layer Lett magnetic field magnetic lattice magnetic mirror magnetic potentials magnetic trap magneto-optical trap manipulation matter-wave measurements microtraps microwave mirror neutral atoms noise optical oscillation parameters pattern Paul trap photon Phys quadrupole quantum gate quantum information quantum information processing quantum reflection quasi-condensate qubit radial regime Reichel relative phase resonator Schmiedmayer Section shift spatial spin-flip splitter splitting static structures substrate superconducting temperature thermal transition transverse trap frequencies trapped atoms trapping potential typical ultra-cold atoms vacuum wave function waveguide wire