The design and construction of a rotating crystal spectrometer for use with a pulsed neutron source is described. The source is the tungsten target of a 33 MeV electron linear accelerator, and at 5 kV mean power the spectrometer performance is equivalent to that of a similar instrument mounted on a nuclear reactor of 4×10^ n/cm^2 s flux. Future developments will give an order of magnitude overall improvement. This spectrometer has been shown to be useful for studies of dense gases and liquids using an incident neutron wavelength of 2.4A, and its performance at wavelengths between 0.5 and 6.2A has been assessed
A transistorized, neutron time-of-flight spectrometer has been designed and built for measurement of...
Neutron interrogation techniques have specific advantages for detection of hidden, shielded, or buri...
A neutron spectrometer has been developed for use inside a fast neutron assembly. The spectrometer i...
We present the principle and the first prototypes of a double rotating-crystal monochromator, based ...
We present the principle and the first prototypes of a double rotating-crystal monochromator, based ...
A time-of-flight spectrometer especially built for the study of powdered samples with complex surrou...
AbstractLong pulsed neutron sources are being actively developed as small university based sources a...
This document lays out a proposal by the Instrument Development Team (IDT) composed of scientists fr...
The concept of a time-of-flight spectrometer for cold neutrons is presented which makes use of the p...
We present the design and simulation of a high resolution inverted time-of-flight option for a neutr...
A technique is reported for measuring the joint time and energy dependence of the rate of emission o...
The concept and layout of a time-of-flight spectrometer for cold neutrons is presented which makes u...
The conventional way in time of flight TOF neutron spectroscopy is to use neutron pulses of one mo...
Neutron spin-echo technique can be used for an increase of the energy resolution of triple-axis spec...
A time-of-flight spectrometer is described that was developed to further the study of the interactio...
A transistorized, neutron time-of-flight spectrometer has been designed and built for measurement of...
Neutron interrogation techniques have specific advantages for detection of hidden, shielded, or buri...
A neutron spectrometer has been developed for use inside a fast neutron assembly. The spectrometer i...
We present the principle and the first prototypes of a double rotating-crystal monochromator, based ...
We present the principle and the first prototypes of a double rotating-crystal monochromator, based ...
A time-of-flight spectrometer especially built for the study of powdered samples with complex surrou...
AbstractLong pulsed neutron sources are being actively developed as small university based sources a...
This document lays out a proposal by the Instrument Development Team (IDT) composed of scientists fr...
The concept of a time-of-flight spectrometer for cold neutrons is presented which makes use of the p...
We present the design and simulation of a high resolution inverted time-of-flight option for a neutr...
A technique is reported for measuring the joint time and energy dependence of the rate of emission o...
The concept and layout of a time-of-flight spectrometer for cold neutrons is presented which makes u...
The conventional way in time of flight TOF neutron spectroscopy is to use neutron pulses of one mo...
Neutron spin-echo technique can be used for an increase of the energy resolution of triple-axis spec...
A time-of-flight spectrometer is described that was developed to further the study of the interactio...
A transistorized, neutron time-of-flight spectrometer has been designed and built for measurement of...
Neutron interrogation techniques have specific advantages for detection of hidden, shielded, or buri...
A neutron spectrometer has been developed for use inside a fast neutron assembly. The spectrometer i...
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