PROBLEMS OF SPECTROMETRY are by definition those of plotting particles of diverse energies in a two‐dimensional array that shows numbers of particles as a function of energy. The prototype was discovered and solved in the 17th century by Isaac Newton when he accomplished the decomposition of white light into a spectrum with a refracting prism. The 19th century brought extension of the problem to electrically charged particles, and it was solved by exploiting the energy and momentum dependence of charged‐particle motions in electric and magnetic fields. James Chadwick's discovery of the neutron in 1932 presented the problem in still another form, in which the particles are, like photons, electrically neutral, but, unlike photons, they interact only with the nuclear constituents of matter. It is not surprising, therefore, that the problems of neutron spectrometry exhibit distinctive peculiarities and difficulties. Let us discuss some aspects of the problem as seen from the perspective of recent developments.
Skip Nav Destination
Article navigation
August 1967
August 01 1967
Neutron spectrometry
If you count particles as a function of energy, your methods, instruments and purposes can differ greatly depending on whether you are looking for emissions, absorptions or scatterings. Neutron counting started with Chadwick and has become a variegated science.
Lawrence Cranberg
Lawrence Cranberg
University of Virginia
Search for other works by this author on:
Physics Today 20 (8), 39–43 (1967);
Citation
Lawrence Cranberg; Neutron spectrometry. Physics Today 1 August 1967; 20 (8): 39–43. https://doi.org/10.1063/1.3034425
Download citation file:
Sign in
Don't already have an account? Register
Sign In
You could not be signed in. Please check your credentials and make sure you have an active account and try again.
PERSONAL SUBSCRIPTION
Purchase an annual subscription for $25. A subscription grants you access to all of Physics Today's current and backfile content.
Citing articles via
A health sensor powered by sweat
Alex Lopatka
Origami-inspired robot folds into more than 1000 shapes
Jennifer Sieben
Careers by the numbers
Richard J. Fitzgerald
Related Content
1932—Moving into the new physics
Physics Today (May 1972)
A center of fundamental research
Physics Today (January 1953)
The reality of neutrinos
Physics Today (July 1948)
Liverpool and Berkeley: The Chadwick–Lawrence Letters
Physics Today (May 1996)
Honors, Awards
Physics Today (August 1948)