Your search keyword '"Guiseppe, V. E."' showing total 6 results

1. A Review and Outlook for the Removal of Radon-Generated Po-210 Surface Contamination.

Author

Guiseppe, V. E., Christofferson, C. D., Hair, K. R., and Adams, F. M.

Subjects

*RADON detectors, *RADIOACTIVE contamination, *POLONIUM, *SURFACE contamination, *ELECTROLYTIC polishing, *OXIDATION, *RADON, *PREVENTION

Abstract

The next generation low-background detectors operating deep underground aim for unprecedented low levels of radioactive backgrounds. The deposition and presence of radon progeny on detector surfaces is an added source of energetic background events. In addition to limiting the detector material's radon exposure in order to reduce potential surface backgrounds, it is just as important to clean surfaces to remove inevitable contamination. Such studies of radon progeny removal have generally found that a form of etching is effective at removing some of the progeny (Bi and Pb), however more aggressive techniques, including electropolishing, have been shown to effectively remove the Po atoms. In the absence of an aggressive etch, a significant fraction of the Po atoms are believed to either remain behind within the surface or redeposit from the etching solution back onto the surface. We explore the chemical nature of the aqueous Po ions and the effect of the oxidation state of Po to maximize the Po ions remaining in the etching solution of contaminated Cu surfaces. We present a review of the previous studies of surface radon progeny removal and our findings on the role of oxidizing agents and a cell potential in the preparation of a clean etching technique. [ABSTRACT FROM AUTHOR]

Published

2017

2. The Status and Initial Results of the Majorana Demonstrator Experiment.

Author

Guiseppe, V. E., Abgrall, N., Alvis, S. I., Arnquist, I. J., Avignone III, F. T., Barabash, A. S., Barton, C. J., Bertrand, F. E., Bode, T., Bradley, A. W., Brudanin, V., Busch, M., Buuck, M., Caldwell, T. S., Chan, Y-D., Christofferson, C. D., Chu, P.-H., Cuesta, C., Detwiler, J. A., and Dunagan, C.

Subjects

*NEUTRINOS, *DOUBLE beta decay, *LEPTONS (Nuclear physics), *NEUTRINO mass, *DETECTORS, *NUCLEAR reactions

Abstract

Neutrinoless double-beta decay searches play a major role in determining the nature of neutrinos, the existence of a lepton violating process, and the effective Majorana neutrino mass. The Majorana Collaboration assembled an array of high purity Ge detectors to search for neutrinoless double-beta decay in 76Ge. The Majorana Demonstrator is comprised of 44.1 kg (29.7 kg enriched in 76Ge) of Ge detectors divided between two modules contained in a low-background shield at the Sanford Underground Research Facility in Lead, South Dakota, USA. The initial goals of the Demonstrator are to establish the required background and scalability of a Ge-based next-generation ton-scale experiment. Following a commissioning run that started in 2015, the first detector module started low-background data production in early 2016. The second detector module was added in August 2016 to begin operation of the entire array. We discuss results of the initial physics runs, as well as the status and physics reach of the full MAJORANA DEMONSTRATOR experiment. [ABSTRACT FROM AUTHOR]

Published

2017

3. Modeling surface backgrounds from radon progeny plate-out.

Author

Perumpilly, G., Guiseppe, V. E., and Snyder, N.

Subjects

*RADON, *SURFACE contamination, *MONTE Carlo method, *NUCLEAR counters, *RADON measures, *DOUBLE beta decay

Abstract

The next generation low-background detectors operating deep underground aim for unprecedented low levels of radioactive backgrounds. The surface deposition and subsequent implantation of radon progeny in detector materials will be a source of energetic background events. We investigate Monte Carlo and model-based simulations to understand the surface implantation profile of radon progeny. Depending on the material and region of interest of a rare event search, these partial energy depositions can be problematic. Motivated by the use of Ge crystals for the detection of neutrinoless double-beta decay, we wish to understand the detector response of surface backgrounds from radon progeny. We look at the simulation of surface decays using a validated implantation distribution based on nuclear recoils and a realistic surface texture. Results of the simulations and measured α spectra are presented. [ABSTRACT FROM AUTHOR]

Published

2013

4. Removal of long-lived 222Rn daughters by electropolishing thin layers of stainless steel.

Author

Schnee, R. W., Bowles, M. A., Bunker, R., McCabe, K., White, J., Cushman, P., Pepin, M., and Guiseppe, V. E.

Subjects

ELECTROLYTIC polishing, STAINLESS steel, RADON, DARK matter, DOUBLE beta decay, SCANNING electron microscopy, ISOPROPYL alcohol, RADIOCHEMICAL purification

Abstract

Long-lived alpha and beta emitters in the 222Rn decay chain on detector surfaces may be the limiting background in many experiments attempting to detect dark matter or neutrinoless double beta decay. Removal of tens of microns of material via electropolishing has been shown to be effective at removing radon daughters implanted into material surfaces. Some applications, however, require the removal of uniform and significantly smaller thicknesses. Here, we demonstrate that electropolishing < 1 μm from stainless-steel plates reduces the contamination efficiently, by a factor > 100. Examination of electropolished wires with a scanning electron microscope confirms that the thickness removed is reproducible and reasonably uniform. Together, these tests demonstrate the effectiveness of removal of radon daughters for a proposed low-radiation, multi-wire proportional chamber (the BetaCage), without compromising the screener's energy resolution. More generally, electropolishing thin layers of stainless steel may effectively remove radon daughters without compromising precision-machined parts. [ABSTRACT FROM AUTHOR]

Published

2013

5. Screening materials with the XIA UltraLo alpha particle counter at Southern Methodist University.

Author

Nakib, M. Z., Cooley, J., Guiseppe, V. E., Kara, B., Qiu, H., Rielage, K., Schnee, R. W., and Scorza, S.

Subjects

ALPHA ray detection, NUCLEAR counter design & construction, RADON detectors, DECAY chains, SURFACE contamination, PREVENTION

Abstract

Southern Methodist University houses one of five existing commercially available UltraLo 1800 production model alpha counters made by XIA LLC. The instrument has an electron drift chamber with a 707 cm2 or 1800 cm2 counting region which is determined by selecting the inner electrode size. The SMU team operating this device is part of the SuperCDMS screening working group, and uses the alpha counter to study the background rates from the decay of radon in materials used to construct the SuperCDMS experiment. We have studied four acrylic samples obtained from the MiniCLEAN direct dark matter search with the XIA instrument demonstrating its utility in low background experiments by investigating the plate-out of 210Pb and comparing the effectiveness of cleaning procedures in removing 222Rn progenies from the samples. [ABSTRACT FROM AUTHOR]

Published

2013

6. A Radon Progeny Deposition Model.

Author

Guiseppe, V. E., Elliott, S. R., Hime, A., Rielage, K., and Westerdale, S.

Subjects

*RADON, *UNDERGROUND construction, *RADIOACTIVE decay, *SURFACE contamination, *ATMOSPHERIC deposition, *MATHEMATICAL models

Abstract

The next generation low-background detectors operating underground aim for unprecedented low levels of radioactive backgrounds. Although the radioactive decays of airborne radon (particularly 222Rn) and its subsequent progeny present in an experiment are potential backgrounds, also problematic is the deposition of radon progeny on detector materials. Exposure to radon at any stage of assembly of an experiment can result in surface contamination by progeny supported by the long half life (22 y) of 210Pb on sensitive locations of a detector. An understanding of the potential surface contamination from deposition will enable requirements of radon-reduced air and clean room environments for the assembly of low background experiments. It is known that there are a number of environmental factors that govern the deposition of progeny onto surfaces. However, existing models have not explored the impact of some environmental factors important for low background experiments. A test stand has been constructed to deposit radon progeny on various surfaces under a controlled environment in order to develop a deposition model. Results from this test stand and the resulting deposition model are presented. [ABSTRACT FROM AUTHOR]

Published

2011