Abstract
The present work deals both with the theory and performance of a reverse-time-of-flight (RTOF) analyzer designed to analyze pulses emitted from a fourier chopper recently put into operation at the ETRR-1 reactor. The RTOF analyze was found to be adequate for use with pick up pulses from the fourier chopper which operates following a frequency window suitable for rotation rates from 0-9000 rpm; synchronically with neutron pulses from a {sup 6} Li glass detector set at time focusing geometry for scattering angle 20=90 degree. It was possible, with the present RTOF analyzer to obtain diffraction patterns at neutron wavelength range between 1 - 4 A within a resolution = 0.5%. 8 FIGS.
Maayouf, R M.A.;
El-Shafey, A S;
Khalil, M I
[1]
- Reactor and Neutron Physics Dept., NRC, Atomic Energy Authority, Cairo (Egypt)
Citation Formats
Maayouf, R M.A., El-Shafey, A S, and Khalil, M I.
A reverse time of flight analyzer facility at the ETRR-1 reactor.
Egypt: N. p.,
1996.
Web.
Maayouf, R M.A., El-Shafey, A S, & Khalil, M I.
A reverse time of flight analyzer facility at the ETRR-1 reactor.
Egypt.
Maayouf, R M.A., El-Shafey, A S, and Khalil, M I.
1996.
"A reverse time of flight analyzer facility at the ETRR-1 reactor."
Egypt.
@misc{etde_564957,
title = {A reverse time of flight analyzer facility at the ETRR-1 reactor}
author = {Maayouf, R M.A., El-Shafey, A S, and Khalil, M I}
abstractNote = {The present work deals both with the theory and performance of a reverse-time-of-flight (RTOF) analyzer designed to analyze pulses emitted from a fourier chopper recently put into operation at the ETRR-1 reactor. The RTOF analyze was found to be adequate for use with pick up pulses from the fourier chopper which operates following a frequency window suitable for rotation rates from 0-9000 rpm; synchronically with neutron pulses from a {sup 6} Li glass detector set at time focusing geometry for scattering angle 20=90 degree. It was possible, with the present RTOF analyzer to obtain diffraction patterns at neutron wavelength range between 1 - 4 A within a resolution = 0.5%. 8 FIGS.}
place = {Egypt}
year = {1996}
month = {Dec}
}
title = {A reverse time of flight analyzer facility at the ETRR-1 reactor}
author = {Maayouf, R M.A., El-Shafey, A S, and Khalil, M I}
abstractNote = {The present work deals both with the theory and performance of a reverse-time-of-flight (RTOF) analyzer designed to analyze pulses emitted from a fourier chopper recently put into operation at the ETRR-1 reactor. The RTOF analyze was found to be adequate for use with pick up pulses from the fourier chopper which operates following a frequency window suitable for rotation rates from 0-9000 rpm; synchronically with neutron pulses from a {sup 6} Li glass detector set at time focusing geometry for scattering angle 20=90 degree. It was possible, with the present RTOF analyzer to obtain diffraction patterns at neutron wavelength range between 1 - 4 A within a resolution = 0.5%. 8 FIGS.}
place = {Egypt}
year = {1996}
month = {Dec}
}