Your search keyword '"Martinez, J. S."' showing total 4 results

1. Nonlinear light-output calibration of the oxygenated xylene scintillators used in OMEGA neutron time-of-flight spectrometers.

Author

Martinez, J. S., Knauer, J. P., Forrest, C. J., Glebov, V. Yu., Stoeckl, C., Rosenberg, M. J., and Regan, S. P.

Subjects

NEUTRON temperature, PHOTOMULTIPLIERS, NEUTRON spectrometers, SCINTILLATORS, MEASURING instruments, IMPLOSIONS, INERTIAL confinement fusion

Abstract

Neutron time-of-flight (nTOF) spectrometers are essential instruments for measuring and evaluating the performance of inertial confinement fusion implosions. The neutron spectrometers utilized for the OMEGA laser include two liquid-based scintillators, each consisting of a large volume filled with xylene that is coupled to four photomultiplier tubes. Analysis of the signal from these detectors requires detailed knowledge of the scintillator's light output, which is needed to fit the nTOF spectrum, from which the neutron energy spectrum is informed. The light output is nonlinearly proportional to the neutron energy, which, in turn, affects the interpretation of the neutron energy spectrum from a TOF signal. A recent campaign on OMEGA was performed to calibrate the xylene detectors and infer the shape of the light-output curve. The campaign utilized materials with increasing Z placed in the OMEGA target chamber to initiate scattering events with the 14 MeV fusion neutrons. This process leads to the production of backscatter neutrons of varying energies that appear as peaks in the nTOF data. Simulations using a neutron transport code were combined with the measured deuterium–tritium neutron yields to calculate the expected backscattered neutron yields from the well-known scattering cross sections of each material. The neutron-energy dependent light output of the scintillator inferred from the experiment is compared to the light-output curve simulated with a neutron transport code for the following neutron energies: 1.5, 2.5, 6, and 14 MeV. [ABSTRACT FROM AUTHOR]

Published

2024

2. Twenty-two years later: consistent dose estimation of an accidental overexposure by retrospective biological dosimetry.

Author

Martinez, J S, Grégoire, E, Fernandez, P, Dugué, D, Jikia, D, and Gruel, G

Subjects

CHROMOSOMAL translocation, EXPOSURE dose, BLOOD sampling, LYMPHOCYTES, FLUORESCENCE

Abstract

The goal of this study was to retrospectively estimate the exposure dose of a victim from the Lilo radiological accident in Georgia after 22 y and compare it with the original cytogenetics-based analysis performed in our laboratory. Similar types of studies have been published, notably involving victims of the Chernobyl, Goiânia and Tammiku accidents. Nevertheless, their estimations were done after shorter periods of time post-exposure, and in some cases, the exposure might not have been exclusively of an external nature. In this study, Fluorescence In Situ Hybridization (FISH) was used to score chromosomal translocations in lymphocytes from a recent blood sample of the victim and the dose assessment was performed using our laboratory's FISH calibration curve. The resulting whole-body exposure dose of 0.35 Gy [0.12, 0.72] was similar to the one obtained when reanalysing the original scoring data from 1997 (0.38 Gy [0.13–0.75]), suggesting that our current calibration curve could be used for relative dose estimations long time after external exposure. [ABSTRACT FROM AUTHOR]

Published

2023

3. A new pH sensitive fluorescent and white light emissive material through controlled intermolecular charge transfer.

Author

Park, Y. I., Postupna, O., Zhugayevych, A., Shin, H., Park, Y.-S., Kim, B., Yen, H.-J., Cheruku, P., Martinez, J. S., Park, J. W., Tretiak, S., and Wang, H.-L.

Published

2015

4. Identification of a natural desferrioxamine siderophore produced by a marine bacterium.

Author

Martinez, J. S., Haygood, M. G., and Butler, Alison

Published

2001