Your search keyword '"Soundara Pandian, Lakshmi"' showing total 3 results

1. Gamma–neutron imaging system utilizing pulse shape discrimination with CLYC.

Author

Whitney, Chad M., Soundara-Pandian, Lakshmi, Johnson, Erik B., Vogel, Sam, Vinci, Bob, Squillante, Michael, Glodo, Jarek, and Christian, James F.

Subjects

*GAMMA rays, *NEUTRONS spectra, *CESIUM compounds, *FORM perception, *PARTICLE physics

Abstract

Recently, RMD has investigated the use of CLYC (Cs 2 LiYCl 6 :Ce), a new and emerging scintillation material, in a gamma–neutron coded aperture imaging system based on RMD׳s commercial RadCam TM instrument. CLYC offers efficient thermal neutron detection, fast neutron detection capabilities, excellent pulse shape discrimination (PSD), and gamma-ray energy resolution as good as 4% at 662 keV. PSD improves the isolation of higher energy gammas from thermal neutron interactions (>3 MeV electron equivalent peak), compared to conventional pulse height techniques. The scintillation emission time in CLYC provides the basis for PSD; where neutron interactions result in a slower emission rise and decay components while gamma interactions result in a faster emission components. By creating a population plot based on the ratio of the decay tail compared to the total integral amplitude (PSD ratio), discrimination of gammas, thermal neutrons, and fast neutrons is possible. Previously, we characterized the CLYC-based RadCam system for imaging gammas and neutrons using a layered W-Cd coded aperture mask and employing only pulse height discrimination. In this paper, we present the latest results which investigate gamma-neutron imaging capabilities using PSD. An FPGA system is used to acquire the CLYC–PSPMT last dynode signals, determine a PSD ratio for each event, and compare it to a calibrated PSD cutoff. Each event is assigned either a gamma (low) or neutron (high) flag signal which is then correlated with the imaging information for each event. [ABSTRACT FROM AUTHOR]

Published

2015

2. TlSr2I5:Eu2+- A new high density scintillator for gamma-ray detection.

Author

Soundara Pandian, Lakshmi, Loyd, Matthew, Du, Mao-Hua, van Loef, Edgar, Ciampi, Guido, Stand, Luis, Zhuravleva, Mariya, Koschan, Merry, Glodo, Jarek, Melcher, Charles, and Shah, Kanai

Subjects

*SCINTILLATORS, *X-ray diffraction measurement, *SINGLE crystals

Abstract

In this paper we report on the scintillation properties of TlSr 2 I 5 doped with Eu2+, a novel thallium-containing high-resolution scintillator for gamma-ray spectroscopy. Small diameter, good quality crystals of TlSr 2 I 5 :Eu (TSI) with different Eu2+ concentrations were grown by the vertical Bridgman method. X-ray diffraction measurements show that single crystals of TSI belong to the monoclinic system with space group P2 1 /c. TlSr 2 I 5 has a density of 5.32 g/cm3 and effective Z of 60. The X-ray excited emission of Eu2+ doped TlSr 2 I 5 features a broad emission band peaking between 460–470 nm. The light yield of TlSr 2 I 5 crystal doped with 1% Eu2+ is measured to be ∼ 72,000 ph/MeV with an energy resolution of 2.8% at 662 keV. The scintillation decay time which is characteristic of Eu2+ shows two components, with ∼ 90% of the light in a ∼ 500 ns component and the rest in a longer component of ∼ 3 μ s. [ABSTRACT FROM AUTHOR]

Published

2021

3. Thallium-based scintillators for high-resolution gamma-ray spectroscopy: Ce[formula omitted]- doped Tl2LaCl5 and Tl2LaBr[formula omitted].

Author

Shirwadkar, Urmila, Loyd, Matthew, Du, Mao-Hua, van Loef, Edgar, Ciampi, Guido, Soundara Pandian, Lakshmi, Stand, Luis, Koschan, Merry, Zhuravleva, Mariya, Melcher, Charles, and Shah, Kanai

Subjects

*SCINTILLATORS, *GAMMA ray spectroscopy, *SPECTRUM analysis, *DENSITY functional theory, *NUCLEAR counters, *SINGLE crystals

Abstract

In this paper we report on the crystallographic and scintillation properties of Tl 2 LaCl 5 :Ce 3 + and Tl 2 LaBr 5 :Ce 3 + , two novel thallium-containing high-resolution scintillators for gamma-ray spectroscopy. Crystals of Tl 2 LaCl 5 :Ce 3 + and Tl 2 LaBr 5 :Ce 3 + were grown by the Vertical Bridgman method up to 1-inch diameter and 1-inch long. Single crystals of Tl 2 LaCl 5 :Ce 3 + and Tl 2 LaBr 5 :Ce 3 + belong to the orthorhombic system with space group 62 and have a density of 5.16 and 5.98 g/cm3, respectively. The scintillators show high light yields of up to 68,000 photons/MeV, excellent gamma-ray energy resolution of ≤ 3% at 662 keV, a fast scintillation decay, and a proportional response over a wide range of energies from 32 keV up to 1275 keV. Density Functional Theory calculations show that the Ce 3 + energy levels are inside the bandgap despite the smaller bandgap of Tl 2 LaCl 5 and Tl 2 LaBr 5 compared to K 2 LaCl 5 and K 2 LaBr 5. A systematic Ce 3 + concentration study was performed for Tl 2 LaCl 5 :Ce 3 + and trends observed. [ABSTRACT FROM AUTHOR]

Published

2020