Todd P. Meyrath scite author profile

Bose-Einstein condensates have been produced in an optical box trap. This novel optical trap type has strong confinement in two directions comparable to that which is possible in an optical lattice, yet produces individual condensates rather than the thousands typical of a lattice. The box trap is integrated with single atom detection capability, paving the way for studies of quantum atom statistics.

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Direct Observation of Sub-Poissonian Number Statistics in a Degenerate Bose Gas

Chuu

et al. 2005

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Babinet’s principle for optical frequency metamaterials and nanoantennas

et al. 2007

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Optical resonances of bowtie slot antennas and their geometry and material dependence

et al. 2008

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In order to provide a guide for the design and optimization of bowtie slot antennas in the visible and near infrared spectral regime, their optical properties have been investigated with emphasis on geometry and materials. Although primarily theoretical, experimental investigations for reduced thickness cases are also included. As characterized by their field patterns, two types of resonances are discussed: plasmonic and Fabry-Pérot-like resonances. These resonance types show a linear dependence on aperture perimeter and film thickness, respectively, while showing a complementary behavior with near independence of the other respective parameter. Metal properties, as in the Drude model, are also considered. Various metals with respectively different skin depths are studied, showing a nearly linear dependence of the resonance wavelength on skin depth.

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A high frequency optical trap for atoms using Hermite-Gaussian beams

Meyrath¹,

Schreck²,

Hanssen³

et al. 2005

Opt. Express

104

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We present an experimental method to create a single high frequency optical trap for atoms based on an elongated HermiteGaussian TEM 01 mode beam. This trap results in confinement strength similar to that which may be obtained in an optical lattice. We discuss an optical setup to produce the trapping beam and then detail a method to load a Bose-Einstein Condensate (BEC) into a TEM 01 trap. Using this method, we have succeeded in producing individual highly confined lower dimensional condensates. 77 5315 (1996). 23. We use values for the D 2 line of rubidium 87: Is ∼ = 1.67 mW/cm 2 , Γ ∼ = 2π · 6.065 MHz, ω 0 ∼ = 2π · 384.23 THz, and m ∼ = 1.443 × 10 −25 kg. In Eq. (3), it is important not to use the common rotating wave approximation (which is to assume |ω 0 − ω| ≪ ω 0 + ω and neglect the second term in parenthesis) because the detuning is too far for this to be valid. This is a larger effect than explicitly including the D 1 line which is typically done for nearer detunings. 24. This is a gradium index lens with f /# = 2.2.

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Todd P. Meyrath

Bose-Einstein condensate in a box

Direct Observation of Sub-Poissonian Number Statistics in a Degenerate Bose Gas

Babinet’s principle for optical frequency metamaterials and nanoantennas

Optical resonances of bowtie slot antennas and their geometry and material dependence

A high frequency optical trap for atoms using Hermite-Gaussian beams

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