Jung’s Theorem Applied in Nuclear Track Methodology.
Journal Title: Journal of Nuclear Physics, Material Sciences, Radiation and Applications - Year 2018, Vol 6, Issue 1
Abstract
Nuclear track density provides accelerator beam imaging and diagnostic employing CR-39 passive detectors. Counting charged particles related tracks by automated reading systems depend on the accuracy of microscope field view other that chemical etching procedure and frequency of overlapped tracks. The study, to propose a method to determined track density for analyser optical field view not calibrated. The approach Jungs’ theorem, provides the area value based on the maximum distance for two selected etched tracks. Results show that the new method has its importance when microscope field view calibration is not available with precision for accelerator beam diagnostics.
Authors and Affiliations
G. Chacin, L. Sajo-Bohus, J. J. Rojas Hancco
Keywords
Related Articles
- EP ID EP569138
- DOI 10.15415/jnp.2018.61008
- Views 207
- Downloads 0
Effective Atomic Number Dependence of Radiological Parameters of Some Organic Compounds at 122 KeV Gamma Rays
Mass attenuation coefficient is a fundamental parameter of radiation interaction, from which the other radiological parameters like half Value Layer [HVL], tenth Value Layer [TVL], total atomic and electronic cross-secti...
Radon in Workplaces the Urgent Need of New Measurements and Devices.
The existing passive radon monitors, their relative calibration facilities together with the past intercomparison exercises have been mission-oriented towards radon measurements in dwellings. These monitors have been suc...
Prospects of Dark Matter Direct Search under Deep Sea Water in India
There is compelling evidence from cosmological and astrophysical observations that about one quarter of the energy density of the universe can be attributed to cold dark matter (CDM), whose nature and properties are stil...
Study of Neutron From a Dense Plasma Focus Paco Instrument by Means of Nuclear Tracks Detectors
A most interesting feature of dense plasma foci is the acceleration of charge particle at energy in the range of MeV per nucleon. Using deuterium gas, this devices produce fusion D-D reactions, generation fast neutron pu...
Probable Projectile-Target Combinations for the Synthesis of Super Heavy Nucleus 286112
The fusion cross sections for the reactions of all the projectile-target combinations found in the cold valleys of 286112 have been studied using scattering potential as the sum of Coulomb and proximity...