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Displaying 901 - 925 of 1133

The water-vapor continuum and selective absorption in the 3 to 5 micrometer spectral region at temperatures from 311 K to 363 K.

May 15, 2011

Author(s)

Yuri I. Baranov, Walter J. Lafferty

Experimental data on the water vapor continuum, which are based on pure H2O spectra recorded recently at NIST with a resolution of 0.1 cm-1, are presented. The sample temperatures and pressures varied from 311 K to 364 K and from 2.8 kPa (21 torr) to 15.1

Recent developments in the NIST Atomic Databases

May 11, 2011

Author(s)

Alexander Kramida

New versions of the NIST Atomic Spectra Database (ASD, v. 4.0) and three bibliographic databases (Atomic Energy Levels and Spectra, v. 2.0, Atomic Transition Probabilities, v. 9.0, and Atomic Line Broadening and Shapes, v. 3.0) have recently been released

Spatial separation in a thermal mixture of ultracold174Yb and 87Rb atoms

April 21, 2011

Author(s)

F. Baumer, F. Munchow, A. Gorlitz, Stephen Maxwell, Paul S. Julienne, Eite Tiesinga

We report on the observation of unusually strong interactions in a thermal mixture of ultracold atoms which cause a significant modification of the spatial distribution. A mixture of 87Rb and 174Yb with a temperature of a few μK is prepared in a hybrid

Feshbach spectroscopy and analysis of the interaction potentials of ultracold sodium

April 8, 2011

Author(s)

T. Schuster, R. Scelle, A. Trautmann, J. Appmeier, S. Knoop, Eite Tiesinga, E. Tiemann

We have studied magnetic Feshbach resonances in an ultracold sample of Na prepared in the absolute hyperfine ground. W e report on the observation of three s-, eight d-, and three g-wave Feshbach resonances, including a more precis e determination of the

Time Dependent Acceleration Measurements Through Synthetic Gauge Fields

March 3, 2011

Author(s)

Brandon Anderson, Jacob Taylor, Victor Galitski

We propose an atom interferometry scheme for measuring weak, time- dependent accelerations. Our proposal uses an ensemble of dilute bosons with two internal states that couple to a synthetic gauge ﬁeld with opposite charges. The gauge ﬁeld couples spin to

Thermal Correction to the Molar Polarizability of a Boltzmann Gas (Brief Report)

March 1, 2011

Author(s)

Ulrich D. Jentschura, M. Puchalski, Peter Mohr

The metrology of fundamental quantities in atomic physics has been crucial for a number of advanced determinations of fundamental constants. In addition to very accurate frequency measurements, the molar polarizability of atomic gases has recently been

The program LOPT for least-squares optimization of energy levels

February 1, 2011

Author(s)

Alexander Kramida

The article describes a program that solves the least-squares optimization problem for finding the energy levels of a quantum-mechanical system based on a set of measured energy separations or wavelengths of transitions between those energy levels, as well

Femtotesla atomic magnetometry in a microfabricated vapor cell

December 20, 2010

Author(s)

William C. Griffith, Svenja A. Knappe, John Kitching

We describe an optically pumped 87Rb magnetometer with 4.5 fT/Hz 1/2 sensitivity when operated in the spin-exchange relaxation free (SERF) regime. The magnetometer uses a microfabricated vapor cell, consisting of a cavity etched in a 1 mm thick silicon

Progress at NIST in measuring the D-lines of Li isotopes using an optical frequency comb

December 20, 2010

Author(s)

Clayton Simien, Samuel M. Brewer, Joseph N. Tan, John D. Gillaspy, Craig J. Sansonetti

Precise spectroscopic experiments with light atoms can provide information about nuclear properties that are very difficult to obtain in electron scattering experiments. For example, relative nuclear radii of low-Z isotopes can be determined accurately

Low loss superconducting titanium nitride coplanar waveguide resonators

December 9, 2010

Author(s)

Michael Vissers, Jiansong Gao, David S. Wisbey, David P. Pappas, C. C. Tsuei, A. D. Corcoles, Matthias Steffen

Thin films of TiN were sputter-deposited onto Si and sapphire wafers with and without SiN buffer layers. The films were fabricated into RF coplanar waveguide resonators, and internal quality factor measurements were taken at millikelvin temperatures in

Decoherence due to elastic Rayleigh scattering

November 12, 2010

Author(s)

Hermann Uys, Michael J. Biercuk, Aaron Vandevender, Christian Ospelkaus, Dominic Meiser, R. Ozeri, John Bollinger

We present theoretical and experimental studies of the decoherence of hyperfine ground-state superpositions due to elastic Rayleigh scattering of off-resonant light. We demonstrate that under appropriate conditions, elastic Rayleigh scattering can be the

A Microwave Study of Hydrogen-Transfer-Triggered Methyl-Group Rotation in 5-Methyltropolone

November 10, 2010

Author(s)

Vadim V. Ilyushin, Emily A. Cloessner, Yung-Ching Chou, Laura B. Picraux, Jon T. Hougen, Richard Lavrich

We present here the first experimental and theoretical study of the microwave spectrum of 5-methyltropolone, which can be visualized as a 7-membered aromatic carbon ring with a five-membered hydrogen-bonded cyclic structure at the top and a methyl group at

Consistency of atomic data for the interpretation of beam emission spectra

November 8, 2010

Author(s)

E. Delabie, M. Brix, R. J. Jasper, C. Giroud, O. Marchuk, M. G. O'Mullane, Yuri Ralchenko, E Surrey, M. G. von Hellermann, K. Zastrow, JET-EFDA Contributors

Several collisional-radiative (CR) models \citeanderson,hutchinson,marchuk:htpd} have been developed to calculate the attenuation and the population of excited states of hydrogen or deuterium beams injected into tokamak plasmas. The datasets generated by