ORCID Profile
0000-0002-4495-7926
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In Research Link Australia (RLA), "Research Topics" refer to ANZSRC FOR and SEO codes. These topics are either sourced from ANZSRC FOR and SEO codes listed in researchers' related grants or generated by a large language model (LLM) based on their publications.
Quantum Physics | Quantum Optics | Quantum Information, Computation and Communication | Degenerate Quantum Gases and Atom Optics
Expanding Knowledge in the Physical Sciences | Scientific Instruments |
Publisher: IOP Publishing
Date: 29-11-2011
Publisher: American Physical Society (APS)
Date: 08-08-2014
Publisher: AIP Publishing
Date: 08-2012
DOI: 10.1063/1.4747163
Abstract: Partial-transfer absorption imaging is a tool that enables optimal imaging of atomic clouds for a wide range of optical depths. In contrast to standard absorption imaging, the technique can be minimally destructive and can be used to obtain multiple successive images of the same s le. The technique involves transferring a small fraction of the s le from an initial internal atomic state to an auxiliary state and subsequently imaging that fraction absorptively on a cycling transition. The atoms remaining in the initial state are essentially unaffected. We demonstrate the technique, discuss its applicability, and compare its performance as a minimally destructive technique to that of phase-contrast imaging.
Publisher: The Optical Society
Date: 04-04-2013
DOI: 10.1364/OE.21.009011
Publisher: American Physical Society (APS)
Date: 02-04-2007
Publisher: American Physical Society (APS)
Date: 03-11-2009
Publisher: IOP Publishing
Date: 28-06-2011
Publisher: American Physical Society (APS)
Date: 12-02-2020
Publisher: IEEE
Date: 06-2007
Publisher: American Physical Society (APS)
Date: 02-11-2016
Publisher: American Physical Society (APS)
Date: 10-07-2017
Publisher: IOP Publishing
Date: 06-02-2013
Publisher: IOP Publishing
Date: 12-04-2017
Publisher: American Physical Society (APS)
Date: 12-2017
Publisher: AIP Publishing
Date: 08-2013
DOI: 10.1063/1.4817213
Abstract: We present the labscript suite, an open-source experiment control system for automating shot-based experiments and their analysis. Experiments are composed as Python code, which is used to produce low-level hardware instructions. They are queued up and executed on the hardware in real time, synchronized by a pseudoclock. Experiment parameters are manipulated graphically, and analysis routines are run as new data are acquired. With this system, we can easily automate exploration of parameter spaces, including closed-loop optimization.
Publisher: American Physical Society (APS)
Date: 22-08-2011
Publisher: American Physical Society (APS)
Date: 05-03-2008
Publisher: Springer Science and Business Media LLC
Date: 2000
Abstract: To examine the disposition of fexofenadine in the isolated perfused rat liver and the influence of erythromycin and dibromosulphthalein (DBSP) on the hepatic uptake and biliary excretion of fexofenadine. Livers from four groups of rats were perfused in a recirculatory manner with fexofenadine HCl added as a bolus (125, 250, 500, or 1000 microg) to perfusate. Livers from another three groups of rats were perfused with 250 microg of fexofenadine HCl. With one group as control, erythromycin (4.0 microg/ml) or DBSP (136 microg/ml) was added to the perfusate of the other groups. In all experiments, perfusate and bile were collected for 60 min in addition, livers from the second experiment were retained for assay. Fexofenadine was determined in perfusate, bile, and homogenized liver by HPLC. The area under the curve (AUC) of fexofenadine was linearly related to concentration. It was unchanged from control (12,800 +/- 200 ng x h/ml) by erythromycin (14,400 +/- 2000 ng x h/ml), but was increased 95% by DBSP (25,000 +/- 2600 ng x h/ml, P <0.001). The ratios of the concentrations of fexofenadine in liver erfusate were decreased significantly by DBSP those for bile/liver were increased by erythromycin. Erythromycin reduced the canalicular transport of fexofenadine into bile, whereas DBSP reduced uptake across the sinusoidal membrane.
Publisher: American Physical Society (APS)
Date: 05-08-2009
Publisher: American Physical Society (APS)
Date: 16-01-2018
Publisher: American Physical Society (APS)
Date: 17-01-2007
Publisher: American Physical Society (APS)
Date: 26-02-2020
Publisher: SPIE
Date: 30-12-2019
DOI: 10.1117/12.2541255
Publisher: Wiley
Date: 05-02-2013
DOI: 10.1002/JCC.23234
Abstract: A new program, PHI, with the ability to calculate the magnetic properties of large spin systems and complex orbitally degenerate systems, such as clusters of d-block and f-block ions, is presented. The program can intuitively fit experimental data from multiple sources, such as magnetic and spectroscopic data, simultaneously. PHI is extensively parallelized and can operate under the symmetric multiprocessing, single process multiple data, or GPU paradigms using a threaded, MPI or GPU model, respectively. For a given problem PHI is been shown to be almost 12 times faster than the well-known program MAGPACK, limited only by available hardware.
Publisher: American Physical Society (APS)
Date: 05-11-2015
Start Date: 09-2013
End Date: 12-2016
Amount: $410,000.00
Funder: Australian Research Council
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