Calculation and measurement of stimulated rotational Raman scattering in atmospheric oxygen

Calculations of the rotational Raman gain in atmospheric air that indicate that O{sub 2} has more than 75% of the peak gain of N{sub 2} have been substantiated by experiment

Echo spectroscopy and Atom Optics Billiards

We discuss a recently demonstrated type of microwave spectroscopy of trapped ultra-cold atoms known as "echo spectroscopy" [M.F. Andersen et. al., Phys. Rev. Lett., in press (2002)]. Echo spectroscopy can serve as an extremely sensitive experimental tool for investigating quantum dynamics of trapped atoms even when a large number of states are thermally populated. We show numerical results for the stability of eigenstates of an atom-optics billiard of the Bunimovich type, and discuss its behavior under different types of perturbations. Finally, we propose to use special geometrical constructions to make a dephasing free dipole trap

Recombination-Based screening for genes on chromosome 21

In previous work, a reasonably large number of genes was found to be on chromosome 21. This frequency demands the creation of new techniques to investigate the transcription of this small human autosome, and to relate these findings to the phenotype of Down syndrome. Here we describe the elaboration of new vectors and hosts, which in conjunction with flow-sorted cosmid libraries of chromosome 21 and genic (cDNA) libraries of relevant human tissues, will permit us to examine transcription of chromosome 21.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/38253/1/1320370723_ftp.pd

Emission of photon echoes in a strongly scattering medium

We observe the two- and three-pulse photon echo emission from a scattering powder, obtained by grinding a Pr$^{3+}$:Y$_2$SiO$_5$ rare earth doped single crystal. We show that the collective emission is coherently constructed over several grains. A well defined atomic coherence can therefore be created between randomly placed particles. Observation of photon echo on powders as opposed to bulk materials opens the way to faster material development. More generally, time-domain resonant four-wave mixing offers an attractive approach to investigate coherent propagation in scattering media

Coherent manipulation of atomic qubits in optical micropotentials

We experimentally demonstrate the coherent manipulation of atomic states in far-detuned dipole traps and registers of dipole traps based on two-dimensional arrays of microlenses. By applying Rabi, Ramsey, and spin-echo techniques, we systematically investigate the dephasing mechanisms and determine the coherence time. Simultaneous Ramsey measurements in up to 16 dipole traps are performed and proves the scalability of our approach. This represents an important step in the application of scalable registers of atomic qubits for quantum information processing. In addition, this system can serve as the basis for novel atomic clocks making use of the parallel operation of a large number of individual clocks each remaining separately addressable.Comment: to be published in Appl. Phys.

A small plasmid for recombination-based screening

We reported recently the construction of the 4.4-kb RoK-derived pMADI plasmid carrying supF [Stewart et al., Gene 106 (1991) 97-101] that does not share nt sequences with Co1E1 and therefore permits recombination-based screening of 2 libraries that contain Co1E1 sequences. Here we describe the construction of the 2.5-kb R6K-derived plasmid, pMAD3, that lacks the [pi]-encoding pir gene required for R6K replication. To supply [pi] [Inuzuka and Helinski, Proc. Natl. Acad. Sci. USA 75 (1978) 5381-5385] in trans we employed pPR1[Delta]22pir 116, referred to henceforth as pPR1 [McEachern et al., Proc. Natl. Acad. Sci. USA 86 (1989) 7942-7946; Dellis and Filutowicz J. Bacteriol. 173 (1991) 1279-1286]. Plasmid pMAD3 is small enough to be amplified readily by PCR [Saiki et al., Science 230 (1985) 1350-1354]. This permits the insertion of larger fragments and the retrieval of larger 2 inserts, as well as the use of a simplified PCR-based cloning protocol which utilizes annealing rather than ligation to create recombinants in pMAD3 [Nisson et al., PCR Methods and Applications 1(1991) 120-123].Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/29693/1/0000025.pd

The spatial location of laser-driven, forward-propagating waves in a National-Ignition-Facility-relevant plasma

Ion acoustic and electron plasma waves, associated with backward-propagating stimulated Brillouin scattering and stimulated Raman scattering, have been diagnosed in a long-scale-length, nearly homogenous plasma with transverse flow. Thomson scattered light from a probe beam is employed to show that these waves are well localized in space and for a time much shorter than the laser pulse duration. These plasma conditions are relevant to hohlraum design for the National Ignition Facility inertial confinement fusion laser system. [R. Sawicki et al., Fusion Technol. 34, 1097 (1998)]. © 2000 American Institute of Physics.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/71338/2/PHPAEN-7-1-323-1.pd